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Home My WebLink AboutOrd 1162 07/13/1966 w :I :1 --- e - I \ I~ - - \ ORDINANCE NO, 1162 BUILDING CODE ARTICLE V - GRADE REGULATIONS - Section 21-501: General lot grade maximums. No lot shall be graded in such a manner as to raise the grade of such lot to any point higher than a continuous grade level between the grade of the lots on either side abutting such lot. Section 21-502: Foundation grades and rules. (a) All foundation grades shall be established in such a manner as to achieve the free, natural and unobstructed flow of surface water. (b) The Director of Engineering shall from time to time promulgate detailed Rules, not inconsistent with this article, for the purpose of determining foundation grades. Such Rules shall become effective by filing same in the office of the Village Clerk and shall then have the force and effect of'Bn ordinance of the Village. ' (c) Every application for a building permit shall show the foundation grade and set forth a grading plan for the proposed construction, determined in accordance with this article and Rules established pursuant thereto. No building permit shall be issued unless such foundation grade and grading plan is in accordance with the provisions of this article and Rules issued hereunder. (d) The foundation height at the 30' building line is 12" above sidewalk. Use middle of lot for measurement. Top of foundation should be 4" above finish grade. Side service walks and drives are to be a minimum of 4" below top of foundation. Section 21-503: Subdivision grade plans. The provisions of Sections 21-501 and 21-502 shall be supplemental to the requirements of the Zoning Ordinance of the Village of Mount Prospect respecting any subdivision approved pursuant to the provlsions of said Ordinance. No building permit shall be issued by the Director of Building and Zoning unless he has on file an approved lot grading plan for such subdivision. Section 21-504: Conformity with lot grading plan. Every building constructed in a location for which a lot grading plan is on file, pursuant to the provisions of Section 21-503, shall conform to said lot grading plan. Section 21-505: Compliance required prior to occu:!;)ancy permit. No occupancy permit or other indication of approval of new construction shall be issued or given by the Dir:.;ctor of Building and Zoning unless and until all grade requirements set forth in this article have been met. Section 21-506: Altering grade levels. No grades within the Village shall be disturbed or otherwise altered except as allowed pursuant to a permit issued by the Director of Building and Zoning. - 1 - ARTICLE X - AIR CONDITIONING AND OTHER REFRIGERATION Section 21-1001: Definitions. For the purpose of this article, the following words or terms shall be given the meaning indicated: (a) "tiir conditioning system" shall mean an installation for maintenance, by heat removal, of temperatures which are not less than sixty (60) Degrees Fahrenheit. (b) The terms "air conditioning system" and "refrigeration system" shall include any combination of equipment, whether compressor or other type, by which heat is removed from the air and from which the accumulated or effluent heat is wholly or partially removed by the use of water. (c) ''Refrigeration system" shall mean an installation for maintenance by heat removal, of temperatures which are- less than sixty (60) Degrees Fahrenheit. (d) "System" shall mean any combination of apparatus, individual unit, group or collection of units supplied with water through any single customer service pipe connected to the public water system. Section 21-1002: Permit required. No person shall install, operate or use any equipment for air conditioning or refrigeration which requires a oupp1y of water from the system of the Village without first having procured written permission therefor from the Director of Building and Zoning. Permits to install pipinG or connect uquipment shall be issued at the office of the Director of Building and Zoning, but only in the names of plumbers duly licensed under the applicable statutes of the State of Illinois. Section 21-1003: Application for permits. (a) Applications for permits shall be made to the Director of Building and Zoning and shall provide the following information: (1) (2) (3) (4 ) (5) (6) Name and address of the applicant. Location of the premises where installation is proposed. Name and address of the owner of the premises. Names of manufacturers of the units requiring water. Manufacturer's identification and classification of the refrigeration units. Manufacturer's rating of maximum refrigerative capacity of tho unit or units under the conditions of the planned installation. (Rating may be stated in tons per 24 hours or in Btu per hour.) Horsepower of compressor prime mover, if unit is of compressor type. Where water conservation devices are required, the manu- facturer's name, identification, classification and size of the conservation equipment. (7) (8) (9) Elevation and plan showing general piping arrangement and details of all points of connection to building supply water piping (piping direct to condenser units, makeup supply into tower pen and so forth). (10) Such additional information as shall be required by the Director of Building and Zoning. (b) ,Applications shall be signed by the owner or tenant, and applica- tions for installation shall designate a plumber duly qualified to receive permits under the applicable provisions of this Code. Section 2l-l00L: Fees. II fee sh~ll be paid at the time of application for a permit to cover one (1) inspection of the installation. The fee shall be in the sum of Ten Dollars ($10.00) for the first ton, plus TWo Dollars ($2.00) for each additional ton of capacity. For each additional inspection required because of condemnation of work or because of premature request for inspection, an additi.onal charge shall be made equal to seventy-five per cent (75%) of the original fee. Section,2;1-loo5: Notice of completion. 1'1fithin forty-eight (L8) hours following the completion of any work authorized by a permit issued hereunder, a notice of completion and request for inspection shall be made to the office of the Director of Building and Zoning by the plumber receiving the permit. Section 21-1006: Final inspection. After final inspection and approval of the instllation, a permit to operate or use the equipment will be issued at the office of the Director of Building and Zoning. Section 21-1007: Capacity requirements. (a) Systems with a capacity of three (3) tons (per 24 hours) or less shall not use water directly (or indirectly, except when used with conservation equipment) from the publiC supply. (b) Systems with a total capacity of more than three (3) tons (per 2L hours) but not exceeding five (5) tons (per 2L hours) may use water directly from the public supply, at a rate not exceeding 2.0 gallons per minute per ton if the water temperature is seventy-five (75) Degrees Fahrenheit or less, or 3.0 gallons per minute per ton if it is above seventy-five (75) Degrees Fahrenheit; prOVided they are equipped with an automatic regulating valve which will (1) stop the flow of water when the refrigerating machine is shut down and (2) throttle the flow of water down to the momentary requirements of the system. (c) All systems having total capacities exceeding five (5) tons (per 24 hours) shall be equipped with evaporative condensers, cooling towers, spray ponds or other water-cooling equipment. This equipment shall be of sufficient capacity to insure conformance with the requirements of the following table for makeup water when operating under full loading at maximum summer temperatures. - 2 - 11aximum Allowable 1'!Tater Use 1.vater Hardness ppm o - 139 140 - 199 200 - 254 255 - 339 340 - 424 425 and over lVIaximum Use qpm/ton 0.1 0.15 0.2 0.3 0.4 0.5 Section 2l-l008: Operation and discharge. (a) Installations which operate with the use of water directly from the public supply system shall be equipped with a suitable brass-bodY9 brass-fitted check valve, preceded by a manually operated gate valve of the same size, both of said valves to be installed in the branch supply line to each unit. The water meter shall be installed between the two valves. (b) Discharge connections for the disposal of waste waters shall be in strict accordance with applicable rules and regulations of state and local health and regulatory bodies. (c) Cooling waters which are to be re-used for other purposes shall be provided with free, above-the-rim discharge before entering other equipment; otherwise, permission shall be obtained in writing from the Director of Building and Zoning, approving the proposed connections and use. (d) On installations other than those described above, there shall be a physical break between the public water supply piping and the piping of the installations, so arranged as to make impossible back siphonage to the public water supply system. Section 2l-1009: Revocation of permit. Any permit which is issued under these Regulations to operate or use equipment may be revoked by the Director of Building and Zoning, for anyone of the following reasons: (a) Failure of the holder of the permit to discontinue using water for the purposes covered by the permit immediately upon notice to do so issued by the Director of Building and Zoning during an emergency or to forestall an impending emergency. (b) Alterations, changes of equipment or p1p1ng, improper operation or lack of maintenance which results in conditions which (1) are hazardous to the potable water supply either within the premises or in supply mains, or (2) cause unnecessary waste of water. (c) The use of water is found to exceed the quantities per- mitted under Section 21-1006 (c) of this article. - 3 - Section 21-1010: Discontinuance of service. fa) The Director of Building and Zoning is ~uthorized, in his discretion, to discontinue water service for failure to correct any violation of the provisions of this article within thirty (30) days after receipt by the permittee of written notice of such violation; the mailing of such notice by certified mail to such permittee at the address stated in the application for the permit under Section 2l-1002 of this article shall be sufficient evidence of the receipt of said notice by the permittee for the purposes of this subsection. (b) Licensed plumbers guilty of any violation of any of the rvles and regulations herein shall, in addition to other penalties elsewhere provided, be prohibited from securing further permits from the Director of Building and Zoning fo~ the installation of equipment covered by this article. Section ~l-lOll: Central air conditioning compresso~ units~ No person shall install, operate or use a central air conditioning compressor system without first having obtained a permit therefor from the Director of Building and Zoning. The fee for such permit shall be Ten Dollars ($10.00), - 4 - ARTICLE XII - REGULATIONS AND STANDARDS FOR CONSTRUCTION OF SINGLE-FAI1ILY lJrJ'ELLINGS Section 2l-120l: Scope of ~rticle XII regulations. (a) The provisions of this Article XII shall apply to and regulate the construction, alteration, removal~ demolition, equipment, use and occupancy, location and maintenance of all buildings and structures used as single-family residences not over two (2) stories and an attic in height. lrJhen no provision regulating the detail of construction of such single-family residences is found in this Article XII or elsewhere in this Chapter 2l, then such construction detail shall be regulated by the provisioDS of the Basic Building Code, as adopted and amended by Article I of this Chapter 21. (b) Specific references throughout this article made to technical bulletins~ materials, standnrds and specifications prepared by institutes, societies, technical societies or government agencies (as listed in Sections 21-1228 and 21-l229) shall refer to practices, methods, or materials acceptable to the Director of Building and Zoning in satisfying the requirements of these Regulations. Section 21-l202: Minimum planning requirements: tight, Ventilation and Safety. (I) ) General. (l) Install windows in outside walls to provide natural light and ventilation in all habitable rooms. (2) '~indows in hiJbitable rooms, whose areas provide the light and ventilAtion necessary to comply with the following requirements~ shall be considered as required windows. All windows in addition to re- quired windmvs, and also l'l]'indows in rooli'iS other than habitable rooms, shall be considered non-required windows. (3) The Area of glazed portions of doors located in exterior walls may be included when necessary to meet the minimum requirements of this subsection. (4) 'fhere window or drain openings are provided below grade~ the same shall be protected with metal gratings. (b) Habitable rooms. Habitable rooms sholl be all rooms designed to be used for living, sleeping, eating or cooking, and shall conform to the following: (1) Each habitable room shall have required windows with a total glass area of not less than ten (10) per cent of the floor area of such room and with a ventilating area capacity of not less than five (5) per cent of the floor area of such room. (2) ~There a mechanical exhaust is permitted, it shall be vented to the outside. - 1 - (c) Alcoves. Alcove shall mean a recess connected or at the side of a larger room, subject to the following requirements: (1) Unless separately lighted and ventilated by windows provide the required window area, any alcove adjoining a habitable room shall be taken as part of that room in computing the required window area for such habit- a ble room. (2) The common w~ll between the alcove and the habitable room shall contain an opening, the area of which shall be not less than eighty (80) per cent of the area of the entire w~ll on the alcove side. (d) Bathrooms and water closet compartments. Bathrooms and w?ter closed compartments shall be ventilated by one of the following means: (1) By window or skylight, such window or skylight to be loc~ted in exterior walls or roofs, with the light and ventilation are9 thereof to be not less than three (3) square feet. (2) By a vent in or near the ceiling with a continuous duct connection to outside air with: (A) gravity exhaust, connected to louvered roof vent, with a minimum duct dimension of three and one- half (3~) inches and minimum area of forty-eight (L8) sqUAre inches; or (B) a mechanical exhaust, capable of one (1) complete air change every ten (lO) minutes. (e) Open basements. Open basements shall be provided with light and ventilation by windows or doors, in exterior walls with both glazed and ventilating area of not less than two (2) percent of the floor area. (f) utility rooms. Utility rooms shall me~n a room or an area enclosed or unenclosed, used for major housekeeping appliances, laundry facilities, or water heating devices, and shall be ventilated so as to meet the requirements for habitable rooms set forth in subsection 21-l202 (b) above. (g) Heater rooms. Heater room shall mean an enclosed room or area where the central heat-producing device is located and shall be pro- vided with fixed ventilation for any confined space which encloses heating equipment, by means of ducts arranged to supply continuous circulating air from the outside. Such duct shall be screened and have a total free area equal to one (1) sqware inch for each one thousand (1,000) Btu input rating of all fuel-burning equipment. (h) Crawl spaces. of floor joists to ing requiremen~,l}: Crawl space shall mean that area from the bottom the ground below, and shall conform to the fo11ow- - 2 - (l) For unheated crawl space, install at least four (4) foundBtion wall ventsJ locntec near the corners of the crawl space, and having a free ventilating area equal to 1/160 of the ground area of the cr~wl space, computed in square feet. (2) For heated crawl spaceJ install at least two (2) foundation wall vents, located so as to provide effective cross ventilntion and having a free venti- lating area equal to 1/1200 of the ground area of the crawl space, computed in square feet. (3) For a crawl space, one side of which is open to a ventilated basement, vents shall not be required provided that the area of such opening, exclusive of structural supports such as piers, chimney founda- tions, etc., is more than two (2) per cent of the floor area of such ventilated basement. (L) ^ll required vent openings shall be covered with corrosion resistant screer.ing, with a mesh of not less than eight (8) per inch. (5) The floor of all crawl spaces shall be levelled with two (2) inches of coorse stone granular material (1/2" - 5/8") OVGr which two (2) inches of concrete shall be poured. The concrete shall be pitched to a capped drainJ or m~y be pitched in another manner approved by the Director of Building ~nd Zoning. (i) tlttics and air space between ceiling "md flat roofs. Attic air space shall mean a space between the ceiling beams of the top habitable story and the roof rafters, and shall meet the following requirements: (l) Effective fixed ventilation shall be provided in all spaces between roofs and top floor ceilings, by replaceable or non-ferrous screened louvers, sixteen (16) mesh. (2) The net ventilation areA for each separate space shall not be less than 1/300 of the area of the house measured at the top plate. Where possible vents shall be located so 3S to provide effective cross ventilation. Section 21-l203: Hinimum floor area requirements. (a) Minimum floor area requirements - Houses. Except as otherwise provided by ordin3nceJ minimum floor areas of houses and rooms therein shall meet the following standards: (l) Minimum floor areas - Total structure. The minimum floor area for the total structure or building sh,11l be: - 3 - Type of structure Minimum Area Square Feet One-story ranch house ..................... l250 Split-level or raised ranch house ......... ll70 One and one-half story house .............. 950 '!We-story house ..o, 0 0 . 0 . 0 . 0 . . 0 0 (l 0 (I . .. . (I 0 eo. . 800 The foregoing minimum floor area shall be measured at the first floor on the main floor level from the outside of exterior walls. (2) Minimum floor areas - Living, dining and cooking rooms. The m1n1mum floor area requirements for living, dinihg and cooking rooms shall be: 7~r;Je of Room Minimum .Area Square Feet Living and dining when in one room ........ 310 Living only in one room when dining room space is provided in kitchen or separate room ..................... 220 Kitchen cooking only (including area occupied by equipment) ............... lOO Kitchen and dining when dining space is not provided elsewhere ............ 200 Kitchen and laundry (including area occupied by equipment) ............... 140 Kitchen, dining and laundry............... 200 Utility room (including area occupied by equipment) ........................ lOO Kitchen, laundry and utility.............. 200 Minimum floor area for the foregoing shall be measured from the inside of all finished walls. (3) Minimum floor areas - Sleeping rooms. The minimum floor area requirements for sleeping rooms shall be: Additional bedrooms 140 l20 lOO r.iajor bedroom .... 0 . . 0 0 . . . . 0 0 .. .. (I . 0 . 0 . . 0 . . . . See ond bedroom ... 0 It 0 . . 0 . 0 Cl 0 0 . e 0 0 . . (I 0 0 . . 0 . . (4) Minimum floor areas - Other rooms. The minimum floor area requirements for other rooms shall be: ~1ajor bathroom ..0.0... 0 0 . .0.0. . . . 0 . . 0 .0. G . 40 Master bedroom closed ..................... 14 Other bedroom closets (at least one each). 10 All other habitable rooms not herein above set forth ............... 100 Minimum floor area for the foregoing shall be measured from the inside of all finished walls. - 4 - (b) Minimum floor area requirements - Garage dimensions. ~1inimum dimensions for garages shall be as follows: Feet One-car garage: Inside width Inside depth 0...00....000000.000000000,0 11 l~~ 9 .0..00....000.0.00000.0.0 eo Door width .. 0 . 0 0 . . 0 III 0 0 . 0 . III 0 0 0 0 III . 0 (\I 0 . . . 0 Two-c ar garago: Inside width 0 0 . III 0 0 . " 0 . e III III 0 0 0 III III 0 0 0 0 0 0 . 0 . Inside depth Ill. 0 0 0 .. . 0 0 . 0 III 0 0 0 0 0 e . 0 0 . . 0 0 0 . Door width 19 1~12 16 (c) Minimum space requirements for heating units. Minimum space req~irements for heating units shall conform to the following: (l) (2) 0) Space shall be provided within the building for the heating unit or system. Clearances shall be provided for maintenance and repair. Clearances shall be provided for fire safety, the dimension bf which shall be determined with referen8e to the in- sulation of the heating unit, combustibility of walls, floor and ceiling, as required by the Nptiona1 Board of Fire Underwriters' Gas and Oil Equipment List. (d) Hinimum storage space (1) Minimum volume: 600 cubic feet each living unit in addition to minimum bedroom closets. (2) Height: Space less than 4 feet in height will not be considered as providing storage space '~nder these requirements. (3) Location: Closets, utility room, attic, basement or attached garage, closets which are in addition to required bedroom closets may be included as storag8 space, work space and equipment passa~e space in utility room may not be included as storage space, portions of garage included as storage space must be separately enclosed and fitted with a door. Section 21-1204: Habitable basement rooms. (a) Habitable rooms, other than recreation or plAyrooms shall not be located in a basement. (b) Habitable basement room:s shall compl:;r wi-Lh the requirements set forth for main floor rooms i-1ith respect to privacy, light, ventilation and floor area. (c) The finished floor for a habitablo bQse~ent room shall not exceed two (2) feet six (6) inches below out3ide finished grade at required windows. (d) flreaways for habitable basement rooms shall have a mlnlmum width of two (2) feet measured perpendicular to the fact of the building wall, and increased one (1) inch for e~ery inch of depth exceeding two (2) feet. The head of the window, in all cases, shall be at or above the top of the areaway wall. - 5 - (e) Concrete floor slabs shall not be used in lieu of basement or crawl spaces. BAsement or crawl spaces shall be required under the living room, dining room, kitchen, bathroom and no fewer than three (3) bedrooms in every single-family residence. Section 21-1205: Porches and terraces. (a)' Porches and terraces shall have a minimum dimension from the face of the building of four (~) feet in all cases where such porch or terrace has a height of more than two (2) risers between grade and first floor. (b) Guard rails for stairs to porches or terraces shall be provided when: (l) The porch or terrace is more than twenty-four (2~) inches above grade and the centerline of the stairs leading thereto is on the centerline of the exterior door of the house. (2) The por~h or terrace is more than sixteen (l6) inches above grAde and the centerline of the stairs leading thereto is not on the centerline of the exterior door of the house. (3) The exterior stairs leading to the porch or terrace are more than three (3) risers above grade level. section 21-1206: Ingress and egress. (3) Ingress and egress shall be provided according to the fol1owing~ (l) Living units. E~ch living unit shall be provided with two (2) means of ingress and egress without passing through any other living unit. (2) ~ttics. Ingress and egress shall be provided in attics by means of scuttles minimum 24" by 2~", disappearing or built-in stairways. (3) Crawl spaces. Ingress and egress to crawl spaces shall be provided by means of an opening not less than thirty (?~) inches nor forty (Lo) inches high. (~) Areaways. Areaways shall be equal to the area of access. (5) Basements. Basements shall be provided with direct ingress and egress to the outside by means of a door or a window having an opening of at least twenty-four (24) inche$ wide and thirty (30) inches high, stool not more than three (3) feet above floor level. A basement stairway leading to a breezeway or garage at grade level may be considered an outside entrance to a basement. (6) Bathrooms. E~ch bedroom shall have access to a bathroom with- out passing through another bedroom and each habitable room shall have access to each other habitable room without passing through a bedroom. ':'"6' - (b) Access to bathrooms shall not: (1) Open directly into a kitchen where such bathroom is the sole bathroom. (2) Provide the sole access to any other room. (c) l{here only one (1) bathroom serves an entire living unit, such bathroom shall not be located in the basement. Section 21-1207: shall be~ Minimum ceiling heights. JVlinimun ceiling heights Basements...................,...........7'0" clear under joists. Minimum floor of any living unit ........8'0" clear for at least 75% of the total floor area. Second story of any living unit Level ceilings .............,...... 7'611 clear Sloping ceilings.................. 7'611 f)r not less than 50% of that floor area having five (5) feet or more headroom Section 21-1208: Doors. (a) All exterior doors shall be not less than the following dimen- sions~ Main entrance doors ............... 2'10" wide by 6'8" high Service entrance doors ............ 2' 8" wide by 6' 8" high (b) All interior doors shall be not less than the following dimen- sions: All ha bi ta ble rooms ............... 2' 4" wide by 6' 6 II high Bathrooms and powder rooms ........ 2' L" wide by 6' 6" high (c) A door shall be provided for each opening to a bedroomj bath- room and toilet compartment. Section 21-1209: St~irway design. (a) There shall be continuous clear headroom on stairways, of a minimum of six (6) feet six (6) inches, measured vertically from the front edge of each tread to a line parallel with the stair run. (b) Stairways shall have the following minimum widths: Main stairs ....................... 2'911 cleBr of hand rail B8sement stairs ........,.......... 2'6" clear of hand rail (c) All treads shall have a minimum width of nine and one-half (~~) inchesj c1e~r of the tread above. (d) No riser shall be more than eight (8) inches, and all risers shall be of the same size for anyone story. (e) l1inders shall have a tread width measured fifteen (15) inches from the converging end, at least equal to the tread width of a straight stair run, unless the width of the tread at the converging end is six (6) inches or more. - 7 - (f) Stairway landings shall have a width equal to that of the stair. (g) Stairways shall have a contfnuous hand rail on at least one side of each run on each stairway and stair well. (h) A guard rail shall be provided around all stairways of more than three (3) risers. Section 21-l210: Fire limits. Within the fire limits, residential buildings shall comply with the requirements of ordinances relating to construction within such limits. Section 2l-1211: Load design. (a) All parts of dwellings, and Accessory buildings and structures, shall be designed, constructed and maintained to support safely their own weight And all other loads and forces to which they may be subjected. (b) For design purposes, assumed minimum live loads (uniformly dis- tributed) shall be: (l) Ceiling or attic floor joists (no storage) None Attic floors (limited storage only....... 20 lbs. per sq. ft. All other floors..... GO......... GO....... Lo Ibs. per sq. ft. (2) Girders: Dead loads of floor, partition and ceiling con- struction; plus the assumed live loads of floors; plus combined dead and live loads of roofs. (3) Roofs (either pitched or flat) ........... 20 Ibs. per sq. ft. normal to the roof surface (c) Wind load minimum design requirements shall be: (1) On vertical faces ........................ 20 Ibs. per sq. ft. horizontally, any direction (2) Roofs, or any parts thereof with slopes greater than thirty (30) Degrees: 20 Ibe. per sq. ft. acting inwarc normal to surface, on windward slope only. (3) Lifting force: 20 1bs. per sq. ft. To prevent splitting or overturning, anchor roofs to walls and columns, and anchor walls and columns to foundations. (d) l.fuen special conditions exist or arise during construction necessi- tating additional precautions in load design, the Director of Building and Zoning may require construction methods in excess of these minimum standards. - 8 - Section 21-l2l2: Minimum vapor barrier standards. (a) l1aterials shall have a vapor transmission rate of 1.5 Perms or less. Generally acceptable are: 55 1bs. per 108 sq. ft. of smooth roofing Foil or foil-backed board only when butted over studs or 2" x 4" backing material Duplex 1aiminated papers 30-60-30 Duplex papers coated with metal oxides Insulation backup paper (treated) Polyethylene film (b) Install independent vapor barrier (or a vapor barrier integral with insulating material) immediately above the ceiling interior finish where there are unheated spaces above such ceiling. (c) Install immediately back of interior wall finish a vapor barrier where exterior co-efficient of heat transmission is not more than 0.16 Btu per square foot, per degree of temperature difference. (d) All vapor barriers shall be applied tightly against all electrical out1etsj registers, or framed openings. (Section 2l-l213~ Thermal insulations. (a) For unheated crawl spaces, floors shall be insulated by any of the following means: (1) Foil reflective type on both sides between joists, maintining a two (2) inch air space between bottom of floor and foil) installed so that there are no openings at ends of joists. (2) One-half (1/2) inch rigid insulation board fastened to bottom of floor ljoist, installed so that there are no openings at ends of joists. (3) One (l) inch blanket insulation, or any other type of insulation better than the above. (b) (1) In unheated crawl spaces, insulate ducts and pipes as follows: Warm air ducts and plenum shall be covered with insulation material with a minimum thickness of two (2) inches. (2) Return air ducts covered with insulation material of a minimum thickness of one (1) inch. (3) Sewer and water supply pipes shall be covered with an insulation material with a minimum thickness of one (1) inch. (c) For heated crawl spaces, the following requirements sh3l1 be followed: (1) Install insulation with a mlnlmum thickness of one (1) inch on all surfaces of foundation walls adjacent to the crawl space. - 9 - (2) Insulation shall be waterproof and non-c9pillary, inorganic and termite and fungi resistant. (3) Insulation shall be installed to extend up to the underside of the subf1oor, from six (6) inches above ground level, and shall be fastened to foundation walls, (d) Insulation for exterior perimeters of concrete floor slabs shall meet the following requirements: (1) Such insulation shall be at least one (1) inch in thickness at the edges. (2) Where there are heating ducts in floors, such insulation shall be at least one and one-half (~) inches at the edges of the slab, (3) Such insulation shall be extended down the side face of the foundation wall for a distance of at least eighteen (18) inches. (L) Insulation shall be waterproof and non-capillary, inorganic termite and fungi resistant, (e) For ceiling insulation the following requirements shall be met: (l) Ceiling insulation shall be not less than four (L) inches in net thickness, and fire resistive and flame proof, (2) In place of the above, foil insulation of an equivalent rating shall be acceptable. Section 21-l2lL: Heating requirements. (a) Dwellings shall be provided with a heating unit capable of main- taining an interior temperature of seventy-two (72) Degrees Fahrenheit under conditions of an exterior temperature of ten (lO) Degrees below zero Fahrenheit together with an outside wind velocity of fifteen (15) miles per hour, based on heat loss calc u1ations in accordance with the standards of the American Society of Heating 2nd Ventilating Engineers. (b) Such heating unit shall be constructed and installed in strict accord with the applicable current published standards, requirements and recommendations of the National rire Protective Association, National Board of Fire Underwriters, 1'lmerican Standards I,ssociation, and the American Society of T"echanical Engineers. Labeling and list- ing by the following shall be accepted as conforming with such equip- ment design standards: Underwriters Laboratories, Inc.; American Gas i~ssociation; or /lmerican Society of 1'Hechanica1 Engineers. (c) Proper clearance shall be provided around all heating equipment installations so as to allow access, repair and maintenance. (d) Smoke pipes, where extreme heat And location may be hazardous to human occupancy, shall be insulated from the furnace to the chimney with a minimum of one-fourth (l/L) inch of asbestos material. - 10 - (e) Insulation of all heat-producing devices shall be such that the temperature rise on surrounding frame construction will not exceed one hundred and sixty (160) Degrees FAhrenheit. Section 21-l215: Foundations. ( a) Walls and piers shall conform to the following requirements ~ (1) They shall be extended to solid ground, and no footings shall be placed on filled ground. (2) The bottom of such footing shall be not less than three (3) feet six (6) inches below finished grade level, except where placed on solid rock. (3) During construction of same, adequate measures shall be taken to protect agAinst freezing, and no concrete shall be poured on frozen groundd (b) Crawl spaces shall be constructed so that the ground level is at least thirty-siX (36) inches bel~ the bottom of the floor joists and girders. The ground. under the crawl space shall be leveled, covered with two (2) inches of coarse stone granular material (1/2" - 5/8"0, and topped with two (2) inches of poured concrete. (c) fJll debris, sod, tree stumps and other organic material within the area occupied by the dwelling shall be removed prior to placing found ations. Section 21-1216: Concrete and masonry materials. Masonry materials described below apply to all masonry and concrete work. (a) Cement: (l) (2) (3) Portland cement. For requirements see ASTIl C l50-56. Prepared masonry cement for mortar. For requirements see AS'IN C 91-55T. Pozzolanic materials, such as fly ash, shall not be sub- stituted for any portion of cement without the knowledge and consent of the Director of Building and Zoning. When used as a replacement for cement, manufacturer's recommend- ations shall be followed and subjected to testing by an approved laboratory. (b) Aggregate: (l) (2) Sand: Clean, hard and sham, free from harmful materials, graded according to intended use. For requirements see ASTH C 35-56T. Coarse aggregate: Crushed stone or gravel: Hard, strong, crystaline rock, properly graded, clean and free from shale or other soft material. Light weight aggregate. 0) For requirements, see ASTM C 330-53T. (c) 1rJater: Clean and free from harmful material. - II - ( d ) Lime: (1) Hydrated lime. For requirements see AS'IM C 207-49. (2) Quick lime, slake thoroughly. For requirements see ASTM C 5-26. (e) Brick: (1) Face brick. For requirements see AS'IM C 2l6-50. (2) Common brick. For requirements see AS'IM C 62-50. (A) Selected hard-burned common brick may be used for facing of exterior and interior walls. (B) Salmon Or soft brick may be used in interior walls when not exposed, and for backup work. (3) Fire brick. For requirements see FS-HH-V-671d. (4) Concrete brick. For requirements see ASTM C 55-52. (f) Structural hollow clay tile: ( 1) (2) (3) (4) Sound, kiln-burned units, free from defects that would impair the strength or permanence of the construction. Load-bearing tile. For requirements see ASTM C 34-55. Non-load bearing tile. For requirements see AS'lM C 56-52. Glazed or unglazed facing tile. For requirements see AS'lM C l26-52T. (g) Concrete masonry unit. For requirements see ASTM C l29-53, AS'IM C 145-52, and AS'IM C 90-52. Sound and thoroughly cured. (h) Stone: (1) Rubble and cut stone: Good quality building stone. (2) Cast stone. For requirements see ACI 704-44. (i) Flue lining: Glazed fire clay and vitrified tile, free from cracks or other defects. (j) Glass block. For requirements see NBFU-Bldg. Code-55. Section 2l-l217: Concrete work. (a) General: (l) Materials. For requirements see Section 2l-l2l6. (2) Water content not to exceed seven (7) gallons of water per bag of cement, including moisture in the aggregate (except as noted). (3) Maximum slump, six (6) inches (except as noted). (4) Retempering of concrete not permitted. (5) Calcium chloride may be used as an accelerator but shall not exceed two (2) pounds per bag of cement. (b) Quality of concrete: _ 1? _ (1) Job mix: Minimum cement proportions. (A) One (l) part of Portland cement two and one-half (~~) parts sand, three and one-half (3~) parts coarse aggregate, one and one-half (l~) inches maximum size. (B) One (l) part Portland cement, two and one-half (21~) parts sand, three (3) parts coarse aggregate, three- fourths (3/L) inch maximum size. (2) Commercial ready mix. (Ii) (B) (C) Minimum Port1~nd cement content: five (5) bags per cubic yard. Water shall not be added at the job. Mixing period shall not extend beyond one and one- half (l~) hours per batch. (Where an accelerator is used mixing should not exceed one (1) hour per batch). (3) Exposed concrete (pavements, sidewalks, curbs and gutters, open s labs:1 e tc . ) : (il) Minimum cement contains five and one-half (~) bags per cubic yard with three (3) per cent to six (6) per cent air entrainment. (B) Naximum slump: four (L) inches. (C) Maximum water content: six (6) gallons per bag of cement including water in the aggregates, except seven (7) gallons per bag with three (3) per cent to six (6) per cent air entrainment. (4) Hardened concrete: To determine the quality of hardened concrete, the water-cement ratio for a tested compressive strength shall be found in table 5, f1Compressi ve strength of Concrete for Various Nater-Cement Ratios 11 of !Recommended Practice for Selecting Proportions for Concrete 11 (ACI 613-54) published in the Proceedings of the American Concrete Institute, Vol. 5l. The water-cement ratio thus established will de- termine whether or not the concrete meets the requirements of these Regulations. (c) Reinforced concrete: The design and construction of reinforced concrete shall be in accordance with the provisions of the "Building Code Requirements for Reinforced Concretell (ACI 318-56) published in the Proceedings of the American Concrete Institute, Vol. 52. (d) Concrete forms: (1) Double forms required for all concrete foundation walls. (2) Side forms required for footings. (3) Build tight, straight, plumb, and brace rigidly. (L) Do not remove until concrete has thoroughly set. (5) Remove all forms, spreaders and stakes before backfilling. (e) Placing concrete: (l) (2) Place continuously unless otherwise allowed by the Director of Building and Zoning. When not placed continuously, clean, score, and wet the top surface of the concrete before continuing. Key all vertical joints. - 13 - (3) Spade and rod concrete thoroughly in form work. Place in horizontal layers not more than twelve (12) inches thick. (f) Protecting and curing concrete: (1) ( 2) Concrete five (5) Concrete than: (A) Seventy (70) Degrees for three (3) days or fifty (50) Degrees for five (5) days for normal concrete. (B) Seventy (70) Degrees for t~o (2) days or fifty (50) Degrees for three (3) days for high early strength concretes. shall be protected from drying for a minimum of days. shall be maintained at temperatures of not less (g) Subjecting to loads: Allow sufficient time for strength of concrete to develop before subjecting to loads or traffic. (h) Footings: (1) General: (A) Design for proper distribution of superimposed loads. (B) Haterial: cast-in-place concrete. (C) Bear on solid, unfilled ground. (D) Reinforce with steel bars ~here footings cross or bear on filled trenches or other unstable soil. (E) Footing dimensions listed below are based upon soils of average bearing capacity (3,000 p~unds per square foot). For soils of lesser bearing capacity of where unusual loading conditions exist, larger footings will be required. (2) 1"'a1l footings: Hinimum dimensions for spread footings shall be the foundation wall thickness in depth by double the foundation wall thickness in width. 0) Pier, post and column footings: Thve1lings: Minimum area, six and one-fourth (6~) square feet; thickness, one and one- half (l~) times the projection, minimum twelve (12) inches. (Not permitted under exterior walls.) (b) Chimney footings: (A) Dwellings: Minimum thickness, twelve (12) inches; minimum projection each side, c:_:: (6) inches. (B) Pour integral with wall footing when chimney occurs in outside walls or inside bearing wall. (i) Footing drain tile. For req~1ircmen t.s see AS m C 4 -55 (5~ T) . (1) Required outside (or insico) of basement and crawl space footings in a manne::' arproved "ty the Director of Building and Zoning. Minimum diameter, four (b) inches. (2) Cover tile with eight (8) inches of gravel or crushed stone of which ninety-fi~3 (95) per cent passes three-fourths (3/4) inch mesh, and less than five (5) per cent passes three- eights (3/8) ~Gsh. (3) Connect with tight-joint glazed tile to storm sewer, dry well, or other outlet. (4) Connection between drain tile and sewer shall only be made as outlined in Plumbing Code of Mount Prospect. See 5.9, 5.9.1 and 5.9.2. - 111 - (5) A sump pump with overhead sewers will be required if deemed necessary by the Director of Engineering and the Director of Building and Zoning. (6) standard gauge cast-iron soil pipe is required in all buildings and shall extend four (4) feet outside the foundation. (j) Concrete foundation walls cast in place. (For masonry unit founda- tion walls requirements see Section 21-1218 (b): (1) General~ (il) Materials. For requirements see Section 21.1216. (B) 1~alls supporting frame construction: E:ictend concrete not less than six (6) inches above adjoining outside finished grade. (C) ttfalls supporting masonry veneered wood frame: E:ictend foundation so that wood portion of wall is not less than six (6) inches above outside finished grade. Hinimum thickness: (A) Not less than ten (lO) inches or the width of the wall support, whichever is greater. (B) Supporting porch slabs, steps and one-story wood frame structures without basement, minimum eight (8) inches. (C) Interior walls not subject to lateral pressure, minimum six (6) inches. (D) .All other walls, minimum ten (lO) inches. Girder pockets: Provide four (L) inch end bearing on main wall for girder. Form pocket for girder one (1) inch wider than girder. Sill anchor bolts to be installed: (11) Diameter, one-half (l/2) inch minimum. (B) Hinimum length, ten (lO) inches. (C) Provide washer under nuts on bolts. (D) Spacing, not more than eight (8) feet on center; minimum two (2) bolts in each piece. Foundation for intersecting iva1ls and slabs: Provide founda- tion for porch and terrace slabs, concrete or masonry steps and area walls which adjoin foundation walls. Chimney foundations: Start at level of lowest adjacent foundation wall footings. If special or unforeseen soil conditions warrant, the Director of Building and Zoning may require either reinforcement of wall or increased thickness. Dampproofing and waterproofing. For requirements see Section 21-l2l8 (c). (2) (3) (4 ) (5) (6) (7) (8) (k) Concrete floor slabs on ground: No floor slab to be placed in water or on a soft wet subgrade. Basements must be pumped dry at least twenty-four (2L) hours before floor is poured. (l) Construction: (11) Fill under slabs with pea gravel or crushed rocks of a minimum thickness four (L) inches; no loose earth fill permitted. Additional fill needed may be crushed rock or sand, well tamped. - 15 - ('8) ''''ire mesh reinforcing: When required, minimum weight forty (Lo) pcunds per one hundred (100) square feet. (C) Bottom of slab: Not lower than top of footing. Pro- vide at least four (L) inch bearing on footing. (2) Cement floor finish: (A) Finish basement slab with steel trowel. (B) Integral finish on concrete slab. (3) Slabs on ground used as a base for floors or as a finished floor in habitable rooms. (.l'.) Minimum thickness, four (L) inches. ! (B) Provide ~embrane waterproofing directly under slab, at least thirty (30) pounds felt, lapped four (L) inches. (C) Provide perimeter insulation. Insulating material shall be non-capillary, waterproof, and not subject to de- terioration by termites or fungi. (4) Basement floor slabs: Hinimum thickness, four (4) inches. (5) Garage floor slabs. For requirements see Section 2l-l227. (6) Terrace and porch floor slabs: (A) Minimum thickness, four (L) inches. (B) If reinforced, fill may be omitted. (C) Install metal flashing between slabs and all wood construction. For requirements see Section 2l-l223 (f). (7) Slabs on ground used to support interior bearing walls or partitions: Thicken to at least ten (10) inches for a width of twenty (20) inches. (1) Exterior wood stairs. Wood construction shall be at least two (2) inches above walk or finished grade. (m) Reinforced concrete floor on precast joist: (l) (2) (3) Minimum bearing of joists, three (3) inches. \fhen span exceeds fifteen (l5) feet, shore at mid span until slab is set. Structural design based on T-beam action not acceptable when metal lath or paper-backed mesh is used for slab forms. Section 21-l2l8: Masonry work. (a) ,Gonoral ~ (1) Materials. For requirements see Section 21-1216. (2) l{ortar: (A) rlIasonry below grade, use Portland cement mortar; one (1) part Portland cement, three (3) parts sand by volume. Lime, not more than twenty-five (25) per cent of the cement by volume, may be added. (B) All other masonry: (i) Portland cement mortar. See (A) above. (ii) Cement-lime mortar: one (1) part Portland cement, one (1) part lime putty, six (6) parts sand by volume. (iii) Prepared masonry cement mortars: one (1) part masonry cement, three (3) parts sand by volume; add no materials other than sand and water. - l6 - (c) Retempering of mortar: Permitted up to one and one- half (l~) hours after mixing. All mortar shall be used wi thin two (2) hours after mixing. (3) Joints: (A) Maximum thickness, five-eighths (5/8) inch. Joints for decorative stone work may be increased one-fourth (l/L) inch. All joints to be uniform in thickness. (B) Solid masonry units: Fill jclnts solid. (C) Hollow masonry units: No through mortar joints: (D) Fill all joints sol:l.d both sides of wall. (4) Bonding: (A) Walls of solid masonry units. Solid masonry bearing and non-bearing walls shall be bonded in accordance with one of the following methods: (i) Bonding with headers. The facing and backing shall be bonded with a header course consisting of alter- nate through header and stretcher every 7th course, or one (1). through header ~.n every two hundred and forty (2Lo) square inches, uniformly placed through- out wall. (ii) Bonding with metal ties. The facing and backing shall be bonded with corrosion resistant metal ties conforming to requirements of Section 2l-l2l8 (f)(L) for cavity walls. There shall be one (1) metal tie for not more than each four and one-half (L~) square feet of wall area. Ties in alternate courses shall be staggered. The maximum vertical distance between ties shall not exceed eighteen (18) inches, and the horizontal distance shall not exceed thirty- six (36) inches. Walls so bonded shall conform to the thickness (exclusing cavity), height and mortar requirements for cavity walls. (B) Masonry walls of hollow units. lrJhere two (2) or more hollow units are used to make up the thick:~-,ss of a wall, bonding shall be in accord with recommendations of American Standard Building Code Requirements for Masonry. M.P. No. 211 (7-15-195L), Section 72. (C) Stone walls: (i) Ashlar masonry: Ashlar masonry, bond stones uni- formly distributed shall be provided to the extent of not less than ten (lO) per cent of exposed faces. (ii) Rubble stone masonry: Rubble stone masonry twenty- four (2L) inches or less in thickness shall have bond stones with a maximum spacing of three (3) feet vertically and three (3) feet horizontally, and if the masonry is of greater thickness than twenty-four (24) inches, shall have one (1) bond stone for each six (6) square feet of wall sur- face on both sides. (D) Intersecting concrete masonry walls shall be bonded to- gether in an approved manner. (5) Closed cell hollow units: Use for rough openings, corners, and wall intersections. Filling exposed ends of cells not acceptable. - 17 - (6) Protection: Provide frost protection acceptable to Director of Building and Zoning when temperature falls below freezing. No masonry work shall be done in temperatures below twenty (20) Degrees Fahrenheit. (Protection as outlined by American Standard Building Code Requirerr.ents for l!asonry, M.P. No. 2ll, shall be considered acceptable practice.) (7) Subjecting to loads: Allow sufficient time for strength of masonry to develop before subjecting to loads. (b) Mason unit foundation walls (for cast-in-place concrete founda- tion walls requirements see Section 21-l2l7 (j): ( 6) (7) (l) General: (A) l!aterials. For requirements see Section 21-l2l6. (B) Walls supporting Hood frame construction: Extend not less than six (6) inches above adjoining outside finish grade i , (C) Walls supporting masonry veneered wood frame: Extend foundation so that wood Dortion of wall is not less than six (6) inches above out~ide finish grade. (D) Hollow masonry units shall not be permitted in exterior foundation walls. Minimum thickness of masonry foundation walls: (A) Foundation walls shall be of sufficient strength and thickness to resist lateral pressures from adjacent earth and to support their vertical loads. Foundation walls (or their footings) shall extend below the level of frost action (42 inches). (B) Foundation walls shall have a minimum thickness of ten (10) inches, except as provided in subsection ~C) below. (C) Foundation walls of solid masonry units, which do not extend more than five (5) feet below the adjacent finished ground level and where the combined height of the foundation walls and walls supported thereon do not exceed thirty (30) feet, may have a minimum thickness of eight (8) inches. Girder pockets: Provide four (4) inch end bearing for girder: Sill anchor bolts to be installed: (A) Diameter, one-half (1/2) inch minimum. (B) Minimum length in masonry unit walls, fifteen (l5) inches. (C) Provide washer under nuts on bolts. (D) Spacing, not more than eight (8) feet on center, minimum two (2) bolts in each piece. Foundation for intersecting walls and slabs: Provide foundation for porch and terrace slabs, concrete or masonry steps and area walls which adjoin foundation walls. Chimney foundations: Start at level of lowest adjacent foundation wall footings. If special or unforeseen soil conditions warrant, the Director of Building and Zoning may require either reinforcement of wall or increased thickness. (2) (3) (L) (5) (c) Dampproofing and waterproofing: (l) Dampproof basement or cellar walls on exterior from finish grade to outside edge of footing: - 18 - (A) Masonry unit walls: Apply one-half (1/2) inch thick Portland cement plaster coat forming a cove at the footing, over which apply at least one (l) heavy coat of undiluted hot tar, asphalt or compound acceptable to the Director of Building and Zoning. (B) Concrete walls cast in place: Apply at least one (1) heavy coat of undiluted hot tar, asphalt or compound acceptable to the Director of Building and Zoning. (d) Exterior walls above grade: ( 1) (2) 0) Materials: All materials shall meet the requirements of Section 21-l216. Allowable heights and thicknesses: (A) In residence buildings not more than two (2) stories in height, walls other than coursed or rough or random rubble stone walls may be of eight (8) inch thickness when not over thirty (30) feet in height from grade to ridge at gable ends, and when the roof is designed to impart no lateral or horizontal thrust such Walls shall have a minimum thickness of twelve (l2) inches. Rough or random or coursed rubble stone walls shall ~~ not less than sixteen (16) inches in thickness. . Hollow walls of masonry units shall not exceed thirty (30) feet in height from grade to ridgo of gable ends except that ten(lO) inch cavity walls shall not exceed twenty- five (25) feet in height above the support of such walls. The facing and backing shall each have a thickness of at least a nominal four (L) inches and the cavity shall be not less than two (2) inches (actual) nor more than three (3) inches in width. The facing and backing of cavity walls shall be bonded with metal ties. For requirements see Ection 21-1218 (a) (L) (A) (ii). (D) Walls in one (1) story residence buildings, and one (1) story private garages may b~ of six (6) inch thickness when not over ten (10) feet in height when solid structural clay masonry units are used, or nine (9) feet in height for hollow structural clay masonry units, except that an allowance of an additional six (6) feat is permitted for gables. Maximum height for eight (8) inch thickness: Twenty-two (22) feet from grade to eaves; or thirty (0) feet from grade to ridge in gable ends. For greater heights, minimum thickness, twelve (12) inches except top twenty-two (22) feet. Backing, when used, solid or hollow masonry units, minimum thickness: (A) Bonded to faCing, four (4) inches. (B) Tied to facing with sheet metal ties, eight (8) inches. Furring when interior finish is applied: Not less than one (l) inch wood strips. Spacing as permitted for interior finish. For requirements see Section 21-1225. Bituminous waterproofing materials on masonry not acceptable for plaster base. Install horizontal furring strips at ceiling and fl~or to form fire stops and prevent convection. (B) (C) (4) (5) - 19 - (6) Lintels: Size to be determined by span in each case. No c09centrated loads over non-reinforced lintels. (A) Lintels may be precast concrete and brick reinforces; stonei masonry arch; or steel. (For requirements see (AS'll1.A 7-56T). (B) Support on four (4) inches of solid masonry. Rafter plate anchor bolts to be installed: (A) Diameter, one-half (1/2) inch minimum. (B) Minimum length in masonry unit walls, fifteen (l5) inches; poured concrete walls, ten (10) inches. (C) In masonry walls, washer and three (3) inch square plate on bolts. (D) Spacing, not more than eight (8) feet on center. Radiator recesses: (A) Construct at time wall is built. (B) Maximum recess depth, four (4) inches in eight (8) inch ~alls; eight (8) inches in ~elve (12) inch walls. (C) Back and sides of recess to be waterproofed and insulated. (D) Width under windows not greater than rough opening. Vertical chases: (A) Construct at time wall is built. (B) HaximUIl1 . length for chases where net wall thickness is eight (8) inches or less, four (4) feet. (C) Haximum chase depth, foul:' (4) inches. (D) Back and sides of chase to be plastered with one-half (l/2)inch of Portland cement mortar. Horizbntal chases: (A) Not aceeptable unless wall thickness is at least four (4) inches greater than thickness required under Section 2l-l218 Cd) (2). (B) Maximum depth, four (4) inches. (7) (8) (9) (lO) (e) Masonry veneer: ( 1) i''finimum thickne s s : (A) Brick, three and three-fourths (3-3/4) inches. (B) Ashlar stone masonry, four (4) inches. (C) Rubble-stone masonry, uncoursed, (field stone), twelve (12) inches; mosaic or random, twelve (12) inches; coursed, one (1) story, eight (8) inches, over one (1) story, twelve (12) inches. (2) Masonry veneered wood frame construction: Veneer applied over sheathing with air space between. (A) Air space: three-fourth (3/4) inch between masonry veneer and sheathing. (B) Base flashing: Copper extending over top of foundation wall from outside face of wall and not less than twelve (l2) inches up on sheathing. (C) Apply water-resistant building paper or saturated asphalt felt over sheathing. Lap base flashing at least four (4) inches. (D) Bonding: Corrosion-resistant metal ties spaced not more than fifteen (15) inches vertically and thirty-two (32) inches on center horizontally. Hhen other than wood board sheathing is used, secure ties through to studs with corrosion-resistant nails of length sufficient to penetrate wood at least one (1) inch. - 20 - (E) Lintels: Size to be determined by materials and span in each case. Bearing, at least four (4) inches. Arches permitted. (f) Cavity walls: (l) The minimum thickness of the inner and outer wythes of cavity walls shall not be less than a nominal four (Q) inches, and the nominal out-to-out dimension of the wall shall not be less than ten (lO) inches. (2) The maximum height of ten (1) inch cavity walls and the width of the cavity shall conform to the requirements of Section 2l-12l8 (d) (2) (C). (3) All masonry units shall be laid in a .fUll head and bed mortar joint. The mortar used in cavity wall construction shall conform to the requirements of Sub-sections 21-l2l8 (a) (2) (A) and (B). (4) The facing and backing of cavity walls shall be bonded with three-sixteenths (3/16) inch diameter non~corrosive steel rods 01 metal ties of equivalent stiffness embedded in the horizo~tal joints. There shall be one (l) metal tie for not more than oach four and one-half ( Q~) square feet of wall area. Ties in alternate courses shall be staggered, the maximum vertical distance between ties shall not exceed eighteen (18) inches, and the m3ximum horizontal distance shall not exceed thirty-six (36) inches. Rods or ties bent to rectangular shape shall be used with hollow masonry units laid with the cells vertical; in other walls the ends of ties shall be bent to ninety (90) degree angles to provide hooks not less than two (2) inches long. Additional bonding ties shall be provided at all openings, spaced not more than three (3) feet around the perimeter, and within twelve (12) inches of all openings. Non-corrodib1e flashing shall be placed over the top of all openings, at window sills and at the bottom of the cavity. Weep holes shall be provided in the exterior wythe along all flashing. The weep holes shall be spaced not more than twenty-four (24) inches on centers. Every effort shall be made to keep the cavity clear of mortar droppings. Furring. For requirements see Section 21-1218 (d) (5). (5) (6) (7) (g) Interior masonry walls: (l) (2) (3) (4 ) ~1aterial: Masonry or cast-in-place concrete. Pipe recesses: Construct at time walls are built. Party and fire walls: (A) Minimum thickness. Cast-in-place concrete six (6) inches; masonry units, eight (8) inches. Chases or recesses not panni tted. Flat roofs: Extend above roof, flash and cap with stone, concrete, vitrified tile, or terra cotta. Under pitched roofs: Build masonry solid to underside of roof sheathing unless carried above roof. Bearing partitions: (A) Minimum thickness of plain concrete or unit masonry wall shall be not less than a nominal six (6) inches. (B) Sections of walls with distance between openings two (2) feet or less: Solid masonry units or hollow units filled with concrete. (B) (C) ", (c) Lintels: Steels, reinforced concrete or masonry arches; minimum; four (4) inch bearing upon solid masonry at least four (L) inches thick. (D) Joist bearings: Solid masonry at least four (4) inches thick. (E) Girder bearing: Solid masonry at least eight (8) inches thick. (5) Non-bearing partitions: (A) Minimum thickness, three (3) inches. (B) Lintels: Steel, reinforced eon~rete or masonry, or masonry arches 4 (h) Chimneys: (1) ~a~onry chimney; , (A) Separate flue required fot' each fireplace~ , (B) Separate flue req~ired for each appliance fired with naturai~taft oil burner. Separate flues required for all other equipment, depending d~on s~s~~1ned chimney draft for ,proper operatio~, un1essdamb1ned flue is specifically appro~ed by the Director of Building and Zoning. (2) Materials: Solid masonry; footing concrete cast in place. (3) Effective flue area: At least as ,rocommended' by the manufacturer of equipment connected to chimney and at least equal to area of outlet (smoke or vent) of equipment connected to it, minimum diameter for house heating flue, eight (8) inches~ For fire- places, effective area not less than one-tenth (l/lO) of fire- place opening. (L ) Chimne y linings, wythe sand walls: (A) Glazed fire clay flue lir..1ng required in all chimneys for liquid and solid fuels. IVhen gas is used as fuel, provide flue lining of metal or composition acceptable to the Director of Building and Zoning, or glazed fire c lay lining or vi trifled tile lining, bell and spigot type, bell end up, with all joints made with acid- resisting mortar. Provide drain to dispose of condensa- tion. (B) Two (2) flues may be grouped without a wythe of masonry between them provided the joints of the linings are staggered at least seven (7) inches. (C) Wythes separating flues or groups of flues with linings not staggered, three and thre-fourths (3-3/L) inches minimum thickness. (D) Walls, minimum thickness, three and three-fourths (3-3/L) inches in addition to lining. (5) Height of chimney: As recommended by equipment manufacturer, and not less than two (2) feet above the ridge of the roof that the chimney penetrates and not less than two (2) feet above the highest ridge wi thin fifteen (l5) feet of the chimney. (6) Cap obimney to form wash from the flue to outside edge, min- imum thickness, three (3) inches. (7) Metal thimbles and cleanout doors to be built in at the time chimney is constructed. (8) Prefabricated chimneys, for requirements see Section 21-1230. - 22 - (i) fireplaces: (1) (2) (3) (4 ) (5) Smoke chamber and damper required in all fireplaces. Minimum wall thickness, eight (8) inches in addition to the lining. Ash dump: i-Jhen proiti.ded,.. empty =_nto concrete or masonry cham- ber provided with metal c1eanout door. Lining: Two (2) inch fire brick or other material acceptable to the Director of Building and Zoning. Hearth: (A) Support independently on masonry or concrete. (B) Projection from chimney breast, at least sixteen (l6) inches. (C) Width: At least eight (8) inches wider than fireplace opening on each side. (D) Material: Incombustible. (E) Combined thickness of hearth and support, six (6) inches. (6) Fireplace opening lintel: Use brick arch, concrete, stone or steel. (7) F8cing: Masonry, no combustible material closer than three and one~half (3~) inches to fireplace opening. (j) Glass block: (1) ~1ay not use as load-bearing un:!. ts. (2) Haximum'size of unsubdivided panel: Area, one hundrad forty- four (1L4) square feet; length, twenty..five (25) feet; height, twenty (20) feet. (3) Provide for expansion. Sed,Hon 21,,1219: Structural steel and iron. (a) General: (1) Structural steel. For requirements see ASn.1 A 7-56T. (2) Design, fabrication and erection. For requirements see AISC Manual 1956. (b) Be~s and girders: ( 1) Connec ti ons : (A) Design to carry super-imposed loads. (B) Rivet weld, or bolt. (2) Bearing: On walls, minimum, four (4) inches. (3) Bearing plates: (A) Design to distribute load, minimum thickness, five-sixteenths (5/l6) inch. (B) Bed in Portland cement mortar. (C) Plates may be omitted under wide flange type steel beams if width of flange provides sufficient bearing area so that allowable compressive stress of supporting materials is not exceeded. (4) Paint beams with two (2) coats of an acceptable metal protect- ive paint: This is in addition to shop paint. For crawl space construction, painting shall be completed before installing floor joists and before foundation inspection. Beam ends shall be grouted in foundation wall pockets. ( c ) Columns: (1) Material: (A) Standard shape, steel or cast iron. (B) Concrete-filled steel pipe, new material, standard weight or heavier. - ?i - (c) Boiler tubing not acceptable. (2) Bases and caps: Steel or cast iron. (A) Caps: Rivet or bolt to steel girders. (B) Bases: Anchor by bolts or embed in concrete. (3) shims, metal. Loose shims not acceptable. Maximum of two and one-fourth (2\) inches. Section 2l-l220: Wood construction. (a) Lumber: (l) Structural stress-graded lumber. Spans for structural stress- graded and marked lumber shall be determined from National Lumber Manufacturers Association publications. For require- ments see NlliA 1962 Edition. (2) All plywood used structurally shall bear the identification of an approved testing agency as to type and grade of plywood, species of veneer, and conformance with the appropriate U. S.Comrnercial Standard. (3) Lumber dimensions: (A) Nominal sizes are given in these requirements unless noted otherwise. (B) ~1inimum finish dimensions Width ~nd thickness, as follows: Nominal Actual 1 3/4 2 l-5/8 3 2-5/8 (b) Framing, general: (l) Structural framing members: (A) Splicing between bearing points not permitted. (B) Any cutting or boring of holes in any structural member for the allowance or admittance of piping, duct work or other appurtenances shall be limited to one-fifth (l/5) of the depth of thickness or width of, such member, providing that if cutting in excess of the foregoing is required that such members thus affected shall be properly reinforced, in a manner acceptable to the Director of Building and Zoning. (2) Framing at chimneys: (A) Bearing of framing members on chimney masonry not accept- able. Piers built integral with chimney may be used for girder bearing provided end of girder is at le~st two (2) inches away from chimney masonry. (B) Framing members: Not closer than two (2) inches to chimney masonry. Space may be one-half (1/2) inch if asbestos board one-fourth (l/L) inch thick and same width as framing mem- bers is used between masonry and framing. (3) Firestopping: (A) Firestop all furrning, partitions and outside stud walls at level of each floor or ceiling, C1.nd at juncture of roof rafters and wall. (B) Wood or masonry tightly fitted, or other methods acceptable to the Director of Building and Zoning, shall be used. (DIMENSIONS IN INCHES) Nominal Actual L 3-518 5 L-5/8 6 5-5/8 Nominal 8 IJ. 12 Ac tual 7-1/2 9-1/2 1l-1/2 (c) Floor framing: (l) (2) (3) Columns and posts: (A) Structural steel or iron. See Section 21-l219. Girders: (A) Material Structural steel or reinforced concrete. Sills: Level and grout with Portland cement mortar. Wood shingles, chips, or similar material are not acceptable for permanent shims. ~, (4) Joists: (A) Maximum spans for wood are as follows: MAXIMUM ALLCNlABLE SPANS FOR FLOOR JOISTS Of other than structural stress-graded and marked lumber Spacing Center Maximum Allowable Spans Lumber Size to Assumed live load Nominal Ac tual Center 40 Ibs. per sq. ft. Inc hes Inches Inches Feet Inches 2 x 8 l-5/8 x 7-1/2 16 11 6 12 13 2 2 x 10 1...,/8 x 9-1/2 l6 14 6 12 l6 7 2 x l2 1-5/8 x 11-l/2 l6 17 5 l2 19 11 3 x 8 2..5/8 x 7-1/2 16 1L 5 l2 l6 4 3 x 10 2...5/8 x 9-1/2 l6 18 1 12 20 6 3 x 12 2-5/8 x ll-1/2 l6 21 9 12 24 6 (B) Framing into headers or side of wood girders: Use steel joint hangers, metal framing anchors or wood bearing strip at least two (2) by three (3) inches. Notching of joist more than one-fourth (lIL) of depth not permitted. (C) Framing into side of steel girders: Allow one-half (1/2) inch clearance over top of top flange. Secure to girder or to opposite joists, or bridge joist firmly at girder ends if other ends are fixed. Notch for gearing not more than one-fourth (1/4) of joist depth. (D) Framing into masonry: (i) ~1inimum bearing three (3) inches. (ii) Fire cut or bevel, two (2) inches. (iii) Second-story floor joists parallel with masonry: Tie to masonry with metal straps extending over and secured to at least one (l) joist and not more than eight (8) feet on center. (E) Butt or lap joists over girders and bearing partitions: (i) Butting: Center and tie with metal straps or one (1) inch thick wood ties at least two (2) feet long. (ii) Lapping: At least four (L) inches; spike together; maximum projection beyond bearing,. One (1) foot. (F) Double joists: (i) Under all bearing partitions and under plaster finished non-bearing partitions when parallel to floor joists. (ii) 111]here piping or duct work occurs block joists apart four (4) foot intervals. (iii) Under heading partitions, more than two (2) joists may be required by the Director of Building and Zoning, depending upon loading c ondi tions. (iv) Support of furnace unit: Double the floor joists framing each side of floor opening for plenum of furnace; spike joists together. - 25 - (v) Support of hot water heater, washing machine or special loading conditions: D0uble the floor joists supporting unit, especially where the equipment is aligned on both sides of a partition wall. (G) Headers and trimmers: (i) Headers four (4) feet or less in length may be single; headers receiving three (3) or more tail beams~ support in steel hangers, or on ledger boards not less than two (2) by three (3) inches. If header is over seven (7) feet in length, secure ledger to trimmer with lag screws. (ii) For openings at end of joist span with headers four (L) feet or less, trimmers may be single. (iii) Use double framing under all other conditions. (iv) Header ten (10) feet and over supporting second- floor exterior wall to be steel beam or steel columns or other method approved by the Director of Building and Zoning. (H) Cutting of floor joists: (i) Notching top or bottom for piping and duct 1oJork is permitted to not more than one-fifth (l/5) minimum required joist depth except there shall be no notching in middle third of span; otherwise install header. (ii) Holes may be bored through joists, maximum dia- meter two and one-half (~~) inches; edges not nearer than two (2) inches to top and bottom of joists. (I) Cross-bridging: (i) l~aximum spacing, eight (8) feet; minimum size, one (i) by three (3) inches double nailed at each end; bridging split in nailing not acceptable. (ii) Rigid metal bridging may be used when acceptable to the Director of Building and Zoning. (J) Cantilevered construction: Submit detail drawing. (5) Subflooring: (A) Wood boards: (i) Thickness, one (1) inch; maximum width, eight (8) inches, unless triple-nailed. J1aximum joist spacing, sixteen (16) inches on center. (ii) No two adjoining boards to break joints over same joist space; each board to bear on at least two (2) joists. (iii) Other spacings may be used when subflooring is designed according to loads to be imposed. (B) Plywood, bonded with water-resistant glue: (i) Minimum thickness, for indicated joist spacing: l/2 inch (5 ply) 16 inches, o.c. 3/L inch (5 ply) 2L inches, o.c. l-1/8 inch (7 ply) 48 inches, o.c. - 26 - (ii) Minimum recommended width of girders, supporting floor loads for one and one-eighth (l-1/8) inch plywood at forty-eight (U8) inches o.c. if four (U) inches. Recommended sizes and spans for girders are: L x 6 8"0" L x 8 - 11'0" L x 10 ..:I.L '0" U x 12 ... 17 '0 II (Ui) Under non"'structural finish flooring when used as a base for parquet wbod finish flooring less than 25/32 inches thick, linoleum, composition, rubber or. ceramic tile, install sQlid blocking under all edges at right angles to floor joists. (iv) Nailing: Nail securely to joists and blodking with nails six (6) incheso.c. on edges and ten (10) inches o.c. in inte~ediate fram~ng mefubers. (v) As underlay, when used for leveling purpo~es over other subflooring; minimum thickness one~tourth (lIL) ineh, 3 ply. For requirements see Section 21-1226 (d) (2). (C) Clearance: Provide one-half (l/2) inch clea:t'ance between all sub flooring and all masonry walls, chimneys and partitions. (D) For requirements for floors finished with any material other than hardwood sec Section 21-l226 (d) (2). (d) Ceiling framing. For requirements see Section 21-1212. (1) Joists: (A) I'1aximum spans for ceiling or attic floor joists are as follows: (i) For no attic storage, maximum access opening is six hundred (600) square inches. (ii) \vith larger access opening, design for limited attic storage. (iii) 1rJ'ith permanent or disappearing stair, design according to floor joist table in Section 21-1220 (c) (U) (A). (iv) Ml"!nMm'1 ALLCWABLE SPANS FOR CEILING OR ATTIC FLOOR JOISTS Of other than structural stress-graded and marked lumber Lumber Size Nominal Inches 2 x 6 Spacing Center to Center Inches 16 12 16 12 l6 12 2 x 8 Actual Inches 1-5/8 x 5-5/8 1-5/8 x 7-1/2 1-5/8 x 9-l/2 2 x 10 - 27 - INO attic storage IAssumed live Iload - none Ft. Inches 4 0 15 11 18 L 20 lO . ited attic storage Assumed live load 20 lbs. per sq. ft. Ft. Inches II L 13 1 15 2 17 6 19 3 22 1 (B) Use ceiling joists as ties for rafters wherever possible. (C) Bridging: Solid, two (2) inches thick full depth of joists, staggered for end nailing. Joists eight (8) inches and over, 1" x 3lJ cross bridging or rigid metal bridging may be used; when acceptable to Director of Building and Zoning maximum spacing, eight (8) feet on center. (D) Framing of ceiling joists oever girders and bearing partitions: As required for floor joists. For require- ments see Section 21-l220 (c) (L) (E). (2) Hung ceilings, flat roof construction: l1inimum size 2" x 4" on edge separated by wood or metal hangers, not more than ten (10) feet on centers. (e) Roof framing. ( l) General. (A) Headers and trimmers~ (i) Headers four (L) feet or less in length may be single. (ii) When chimney is at ridge or eaves and header is four (4) feet or less, trimmers may be single; use double framing under all other conditions. (iii) Dormer windows not to be supported on partitions: Double headers and rafters required. (B) Anchor wall plates or rafters and roof joists on masonry wall. (2) Pitched roofs: (A) Minimum pitch. For requirements see Section 2l-l222 (n) (1). (B) Maximum rafter spans are as follows: MAID1UM ALLOt] ABLE SPANS OF RliFTERS AND FLAT ROOF JOISTS Of other than structural stress-graded and marked lumber between plate and ridge or intermediate support for wood or asphalt shingles or built-up roofing (Collar beams designed as compression members may be acceptable as intermediate supports) ~,1aximum Allowable Spans (Clear) For Roof Slopes 3 in 12 or less measured horizontally Greater than 3 in Spacing measured on slope Conter roofing material to Weight 5 lbs. per Center sq. ft. or loss Inches _ F~- Inches l2 INot support- 'Svpporting ~ng finished, inished ceiling ei1ing ~Ft-. ' tncnes ~-- .-tiiches. Lumber Size Nominal Inches fic tual Inches 2 x 6 l-5/8 x 5-5/8 l6 1L 3 10 6 l2 6 12 16 5 12 1 14 4 2 x 8 1-5/8 x 7-l/2 16 19 0 14 0 16 7 l2 22 0 l6 2 19 2 2 x 10 1-5/8 x 9-1/2 16 2L 1 17 9 21 0 12 27 10 20 6 2L 2 - 28 - (C) Rafters: Cut for level bearing and spike to wall plate; no portion of cut end of rafters to project beyond inside edge of wall plate; frame rafters opposite at ridge; provide tie for rafte~s to prevent thrust and uplift. (D) Collar beams: (i) Minimum si ze l" x 6 1I or 2" x 4 II maximum spacing four (4) feet on center. (ii) When ceiling joists do not serve as tie at plate line or are not below lower third of rafters, :i.nstall ceilings joists (c ollar beams) seme size as rafters on each pair of rafters, and make special provisions for tying the lower end of rafters to the floor or wall construction. (E) Ridge boards: Use two (2) inch member with depth not less than cut end of rafter. (F) Valley rafters: (i) ~linimum thickness.9 two (2) inches: Minimum depth, not less than cut end of jack rafters. (ii) Maximum unsupported length of single valley raft.ers, eight (8) feet; double rafters, twelve (12) feet. (iii) 1.1ay be omitted when jack rafters of one roof frame on sole plate on top of roof sheathing of adjoining roof. (G) Crickets or chimney saddles at upper side of all chimneys not in contact with ridge. (3) Flat roofs: (A) Roof joist spans. For requirements see Section 2l-l220 (E) (2) (b). (B) Cross-bridging: Hinimum size, 1" x 3"; maximum spacing, eight (8) feet on center. (C) Joists supporting hung ceilings. For requirements see Section 21-1220 (D) (2). (D) Framing of roof joists over girders and bearing parti- tions: As required for floor joists. For requirements see Section 21-1220 (c) (U) (E). (4) Trussed rafters: Trussed rafters may be used in construction of roofs for residence and buildings of similar size and design, when designed according to generally accepted good engineering practices. Detailed drawings signed by a structural engineer or architect shall be submitted for approval to the Director of Building and Zoning and shall be kept on file in the Department of Buildings. (f) Exterior wall and bearing partition framing. (1) Studs: (1\) Continuous lengths without splicing. (B) 11inimum size 2" x 4 ". (c) Maximum spacing for all construction, sixteen (16) inches on centers; one-story detached accessory buildings, twenty-four (24) inches. (D) Maximum length for balloon frame, twenty (20) feet,; notch studs at second floor to receive 1" x 4" ribbon. Nail joists to stues. Corner posts: Not less than three 211 x 4 "s set to receive interior finish. (2) - 29 - (3) Corner Bracing: (A) Braces at external corner: l' xL' let into outside~ face of studs and plates, set approximately at forty- five (u5) degrees, extended from sill to plate. Attaching ends of braces to blocks nailed to studs or plates not acceptable. May be omitted only when wood sheathing boards are laid diagonally or when fiber- board, minimum 25/32" xL' x 8 I, is applied vertic ally. (B) Openings near corner: Use l" xL" knee braces, extending from corner post to sill and to top plate. Extend over at not less than three (3) stud spaces. (C) Openings at corner: Brace as in (A); set as near opening as possible. Sill construction: (A) Sill anchorage. For requirements see Section 21-l2l7 (j) (L) and Section 21-l2l8 (b) (U). (B) Sills on top of foundation walls; level and grout with Portland cement mortar; wood not to be used for per- manent shims. (C) Other methods may be used if detailed on drawings submitted with permit application and acceptable to Director of Building and Zoning. Window and door openings: (A) Inner stud on jambs: Extend in one piece from header to bearing and nail to outer stud. (B) Headers for usual loading conditions: (U) (5) Size Maximum Span Two 2 x Ls on edge ............ 3 '6" Two 2 x 6s on edge ............ U '6" TWo 2 x 8s on edge ............ 6'0" TWo 2 x lOs on edge ........... 7 '6" (C) Where headers support concentrated loads or are sub- jected to other unusual loading conditions, the header shall be specially designed. (D) If desired, truss construction may be used. When designed according to generally acc~pted good engineer- ing practices, detailed drawings signed by a structural engineer or architect shall be submitted for approval to the Director of Building and Zoning and shall be kept on file in the Department of Buildings. (6) Plates: (A) Top plates, two 2 x us. Lap at corners and intersecting partitions. Single 2 x U acceptable for bearing partitions when studs occur directly under joists or rafters. \.~hen plates are cut for piping or duct work, install steel angles on each side of plate not less than l!:z" x l~" x 1/8", to serve as plate ties and bearing for joists. Spike angles to joists and plates, using not less than three (3) nails at each end. Alternate method for reinforcing cut plates: solid full depth two (2) inch header and metal tie 1/2" x l2" gauge with three (3) heavy nails or screws at each end. (B) lfhere headers support concentrated loads or are sub- jected to other unusual loading conditions, header shall be specially designed. - 30 - (7) (8) (9) (c) Sole plates, m1n1mum thickness, two (2) i~ches; exterior wall studs may bear on the sill or on a sole plate on top of subfloor. End studs of bearing partitions connection to masonry walls. Anchor with bolts or spikes. Wood bearing partitions in cellars or basements are not acceptable. Studs to be continuous (balloon frame) when exterior is to have continuous stucco finish. (g) Non-bearing partition framing. (1) Studs: (A) Use continuous lengths without splicing. (B) Partitions exceeding six (6) feet of unsupported length containing openings: size and spacing same as bearing parti tions . (C) Pa~titions less than six (6) feet unsupported length with openings: Minimum Size 2 x ~s (2" thickness) 2 x hs (hI! thickness) Maximum Spacing 16" on center 16" on center (D) Partitions six (6) feet or over in length without openings. Minimum Size 2 x ~s (2" thickness) 2 x hs (h" thickness) Maximum Spacing 16" on center 16" on center (2) Openings: (A) In two (2) inch thick partitions: Inner stud on jambs, size 2" x 2" extend in one piece from header to bearing and nail to outer stud; or single frame with 2" x 6" jambs continuous from top plate to sole plate with header notched two (2) inches into each jamb. (B) In three (3) inch and four (U) inch thick partitions: Single framing permitted provided opening does not exceed three ()) feet in width and header is secured by spiking through jamb studs. (C) Headers. Opening width, three (3) feet or less: 2" thick partition, 2" x h" on edge. U" thick partition, 2" x ~" flat. Opening width, over three (3) feet: 2" thick partition, 2" x h" on edge. h" thick partition, two 2 x hs. (3) (U) (5) Top and sole plates: Minimum thickness, two (2) inches; lap top plate at outside walls and at bearing partitions. Wardrobes, cabinets or casework acceptable as non-bearing parti tion. Solid plaster partition~: (A) Maximum unsupported length sixteen (16) feet. - 31 - Core: three-eighths (3/8) or one-half (1/2>' inch _ gypsum lath continuous from floor to ceiling and full width of door frames. Set in grooves of wOQd sill and plate members and of jambs and heads of900r frames. Grooved member not required at intersection of v,:alls to be plastered. At masonry wall intersections, tie or lace cornerite through lath core with wire" Abutting units may be fastened as re~ammended by manufacturer and as approved by the Director of Building and Zoning. Sill and plate members: Finished thickness, one and one-fourth (l~") inches minimum. Securely nail to floor and s truc tural framing, .'. ' , Door frames: Mill built as finished frame. Thickness, one and five-eighths (1-5/8) inches minimum. Prime coat all sides. Secure to floor framing. Coat core both sides with gypsum p1ast~r by driving 8d nails on each side of lath, three-eighths (3/8) inch out from groove, at thirty (30) degree angle with plane of lath, on twelve (12) inch oenters staggered, then bend baok against lath. Pipes and conduits: Plumbing pipes, not permitted. Hoisture resistimt electrical conduit, tie securely to face of lath. Use shallow outlet box. Coat core both sides with gypsum plaster to overall thickness of two (2) inches, three (3) coat or two (2) coat double-up work. (h) Wall sheathing. Sheathing may be omitted on detached aCdessory buildings not containing habitable rooms. (l) (B) (c) (D) (E) (F) (G) Wood boards: (A) May be used under any exterior finish material. (B) Minimum thickness, one (l) inch (25/32 inch actual); maximum width, eight (8) inches unless triple nailed; maximum stud spacing, twenty-rout' (2L) :i.rtdhes on oenter. (C) Break joints over center of studs unless end-matched (T & G) boards are used; no two adjoining end-matched boards to break joints over same stud space and each board to bear on at least two studs. (D) Application: When laid diagonally, extend at forty-five (45) degrees in opposite directions from each corner; apply horizontally under stucco finish. Plywood, Exterior Grade: (A) May be used under any exterior finish material. (B) liinimum thickness, three-eights 0/8) inch; maximum stud spacing, sixteen (16) inches. (C) Types of finish which affect the minimum thickness of plywood used: (i) Under wood ebi'Qsles: If one-half (l/2) inch plywood is used, apply shingles over one (l) by two (2) inch nailing strips using copper or galvanized nails for attaching shingles. Nailing strips may be omitted if annular ringed nails are used for attaching the shingles. (ii) Under asbestos-cement shingles and siding: If fi ve-sixteenths (5/16) inch thick plywood is used, apply siding or shingle material wi th annular ringed nails. Do,~ot apply over wood nailing strips. (2) - 32 - (iii) Fiber board: structural. (:For requirements see FS-LLL-F~32lb. (a) Under wood shingle siding: Apply one (l) by two (2) inch nailing strips over sheathing, spaced according to shingle spacing. lifood shingles may also be applied over fiberboard shingle backer and fiberboard sheathing with annular grooved nails at least two (2) inches in length. (b) Asbestos-cement siding or asbestos-cement shingles shall be attached with special metal fastening devices. (c) f1inimum thickness 1/2 inch 3/4 inch Maximum stud spacing 16 inches 24 inches (iv) Gypsum sheating board: See ASTM C 79-54.' (a) Asbestos-cement siding or asbestos-cement shingles shall be attached with special metal fastening devices. (b) !1inimum thickness, one-half (l/2) inch; maximum stud spacing, sixteen (l6) inches. (c) Under wood shingle siding: Apply 1 II x 2" nailing strips over sheathing, spaced according to shingle exposure. (i) Sheathing paper: (1) Material: (A) Water-resistant building paper. (B) Asphalt saturated felt. (C) Vapor resistance shall be less than that of vapor barrier provided on inside of ~all. (2) Application: (A) Use over all types of sheathing except as noted in Section 2l-l220 (i) (3). (B) Apply shingle fashion, four (4) inch lap. Lap four (L) inches over paper strips around openings. (C) Use six (6) inch wide strips behind trim of all exterior openings. (3) Paper not required over gypsum or fiberboard, factory treated to be moisture resistant (except when used behind masonry veneer and stucco), provided: (A) Necessary corner and opening cuts are caulked with elastic waterproof caulking material. Corner joints may be protected with eighteen (18) inch widths of ~heathing paper applied shingle fashion. (B) At heads of openings, bottom edge of board is located to permit head flashing to be extended under and turned up behind sheathing, and joint between head flashing and board is caulked. ( 5 ) Roof she a thing: (1) Wood boards: (A) May be used under any roofing material. (B) Minimum thickness, om (1) inch OIL inch actual), maximum width, eight (8) inches; maximum rafter spacing, sixteen (l6) inches on center required for T & G sheathing. - 33 - (c) Break joints over center of rafters unless end- matched (tongue and groove) boards are used; no two adjoining end-matched boards to break joints over same rafter space and each board to bear on at least two rafters. (D) Application: Lay closed under all roof material except wood shingles. Under wood shingles, use one (1) by four (~) inch shingle lath spaced according to shingles' exposure. (2) PlywoodJ Exterior Grade: (A) May be used under any roofing material. (B) ~-1inimum thickness: (c) Under wood shingles; apply Iii x plywood less than three-eighths according to shingle exposure. (D) Protect exposed edges of sheathing along eaves and rake of roof with mouldings or sheet-metal flashing. Flashing along eaves may be integral with gutters. If gutters are not installed, form the flashing to provide a drip. Fiber board acceptable for roof sheathing, two (2) inch minimum thickness. Roofing ~1ateria1 Wood and asphalt shingles Rafter Maximum Spacing (inches) 16 2~ Slate, tile & asbestos cement shingles ....... 0 Cl . 0 . . 0 . . . . . . . . Flat Roofs 16 24 16 24 2" nai ling (/8) inch ...................0.. 0) Plywood Minimum Thickness (inches) 1/2 1/2 l/2 5/8 1/2 5/8 strips over thickJ spaced (k) Stair stringers. For requirements also see Section 2l-1209. (l) Provide solid bearing on top and bottom. (2) Effective depth of wooden stringers, minimum, three and one-half (3~) inches. (3) Open basement stairs: Minimum stringer thickness, two (2) inches. (4) Third stri~ger: Install if treads are less than one and one-eighth (l-1/8) inches thick and stair is more than two (2) feet six (6) inches wide. (l) Caulking. (1) Caulk around exterior openings in masonry or masonry veneer walls. (2) Caulk at intersections of wood and masonry except when flashed. This does not apply to tops of foundations. (3) Caulking shall remain elastic non-hardening and firmly adherent. Section 21-l22l: Exterior wall finish. (For requirements see Section 21-l220 (h).) (a) 1'11ood siding. (l) Use well seasoned material. (2) Nail at each bearing with hot-dipped galvanized or aluminum nails. _ ~ll _ (3) Bevel siding: (A) Finish dimensions to comply with the following limitations as to minimum top and butt thickness: Nominal \lJidth (inches) U, 6 and 8 lO and l2 Thickness at Top (inches) 3/16 3/16 Thickness at Butt (inches) 7/16 9/l6 (B) ~1inimum head1ap: One (1) inch for four (U) inch width; one and one-fourth (l\) inches for widths over four (L) inches. (C) Nail near butt only. Do not nail through board underneath. Rustic and drop siding: ~1inimum thickness, three-fourths (3/L) inch (finished); maximum width, eight (B) inches (nominal). Shiplap or matched siding: (A) Minimum thickness, 25/32 inch (finished); maximum width, twelve (l2) inches (nominal). (B) Triple nail all boards over eight (B) inches in width. (C) When boards are applied vertically, set edges in white le ad. (U) (5) (b) Wood shingle siding. (1) Shingle grades. (A) Single ~ourse siding, No. 1 or No.2. (B) Double course siding, No. 1 for exposed shingles; under course may be Mo. 1 or No.2. (2) Minimum size: Length l~ inc he s ) lB 2U Thickness 5 butts :in 2 inches 5 butts in ~~ inches q butts in 2 inches (3) Maximum exposure: Shingle Length (inches) l6 IB 2L Single Course Exposure (inches) 7~ B42 11 Double Course Exposure (inches) l2 14 16 (L) Nailing: (A) Nails: Non-corrodible. (B) Butt nail double coursing: Exposed nails may be small he aded . (c) Asbestos-cement siding and shingles. For requirements see Section 2l-l220 (h) (3) (B). (l) Material. For requirements see FS-SS-S-29lc. (2) Apply clapboards and shingles in accordance with manufacturer's recommendations. (3) Nails, non-corrodible. (d) Plywood. (1) Approved grade mark for exterior use, on each sheet of plywood. (2)' Plywood, three-eighths (3/B) inch thick, may be used on 'sheathed walls. - 35 - (3) Installation: (Il) Protect edges prior to erection with paint, mixed 100 pounds white lead paste, one and three-fourths (1-31L) gallons raw linseed oil and one (1) pint dryer, applied without thinning. (B) Vertical joints: To occur over studs. (C) Horizontal joints: Install solid blocking between studding for nailing. (D) Butt joints of square-edge material, whether exposed or covered by battens, fill with mastic. (E) Corner boards: Apply over plywood or butt plywood against boards at all corners. (F) Nails: Cement-coated or hot-dipped galvanized, flat head. Minimum spacing, on edge, six (6) inches; on center, at intermediate bearings, twelve (12) inches on center. (e) stucco. For requirements see Section 2l-1220 (f) (9) and Section 21-l220 (h) (1) (D). (1) Lath for stucco. For requirements see FS-QQ-B-101c. Wood lath not acceptable. (A) Expanded metal lath, painted; with large openings, 1.8 pounds per square yard. (B) Nails: Electrolytic zinc-coated furring nails. (C) Metal lath, held at least one-fourth (l/L) inch away from sheathing by furring nails. Furring strips and self-furring lath not permitted. (2) Stucco: (A) F1Iaterials. For requirements see Section 21-l2l6. (B) Mixture: One (l) part Portland cement, three (3) parts sand, and hydrated lime equal to ten (10) per cent of cement by volume; or prepared Portland cement stucco used in accordance with mclDufacturer' s roc;)r.rrnoncations. (C) Thickness: Three (3) coat work, one (1) inch total; two (2) coat work, five-eighths (5/8) inch total. (D) Application: (i) Three (3) coat work, over wood frame. (ii) TWo (2) coat work, over masonry surfaces. (iii) Finish coat may be trowel coat of prepared exterior Portland cement stucco. (iv) Thoroughly cover and embed lath in stucco. (v) Keep wet two (2) days after application of each coat. (vi) Drying time before application of finished coat, seven (7) days. (viii) Stucco not to be applied when temperature is lower than forty (UO) degrees F. (f) Hardboard. (1) Material. (2) Grade: Tempered, exterior shall be of a type specially manu- factured for siding purposes. (3) Hardboard one-fourth (IlL) inch or five-sixteenths (5/l6)inch in thickness may be used over sheathed walls. (L) Application: Hardboard siding shall be applied in accordance with the manufacturer B recommendations provided they are not in conflict with these regulations. - 36 - Section 2l-l222: ( a ) General. (1) Roof slope: (A) Shingle and tile roof, five (5) in twelve (l2) minimum. (B) Shingle roof less than fivo (5) in twelve (12) but not less than two (2) in twelvQ (l2) shall be applied in strict accordance with manufacturer's specifications. (C) Built-up roofs (gravel or slag surface), two (2) in twelve (l2) maximum. (D) Built-up roofs with mineral surface cap sheet, three (3) in twelve (12) maximum. (E) When materials and method of applica~ion provide pre- cautions in excess of these four minimum requirements to assure a weather-tight roof, above roof slopes may be reduced subject to acceptance of the Director of Building and Zoning. Application and materials as outlined by 'Manufacturer's Selection and Application of Asphalt Roofing and Siding Products" published by A.R.I.B., shall be considered as acceptable good practice. (2) Double starting row, on all shingle applications. (3) Nails for attaching roof covering, copper or hot-dipped galvanized nails. StDples not permitted. Roof coverings: (b) Asphalt shingles. (1) Fire Underwriters' C1~ss C label on each bundle. (2) Approximate shipping weights per square: (A) Square butt strip, 235 pounds. (B) Hexagonal strip, 165 pounds. (C) Individual shingles, 250 pounds. (3) Exposure as required for Fire Underwriters' Class C label. (U) Head1ap as recommended' by manufacturers; minimum two (2) inches. (5) Double thickness at all points. Cut-outs and vertical spacing three-fourths (3/L) inch or less may be disregarded. (6) Underlay: Asphalt-saturated felt: itleight approximately fifteen (15) ponnds per lOO square feet. (c) l,vood shingles. (1) Edge-grain, tapered shingles (No.1 grade). (2) Minimum size: Length (inc he s ) l6 l8 2L (3) Maximum exposure: Thickness 5 butts in 2 inches 5 butts in 2~ inches L butts in 2 inches Slope of Roof Rise Run 3 to 7 l2 7 to 18 l2 (U) Underlay not permitted. Exposure for Shingle Length (inches) l6 l8 L L~ 5 5~ 2L 6 7~ (d) Asbestos-cement shingles. (1) Quality: Dense, hard structure and thoroughly seasoned. For requirement see FS-SS-S-29lc. - 37 - (2) (3) (L) Fire Underwriters' Class A or B label on each bundle. Underlay: One layer asphalt-saturated felt, approximately thirty (30) pounds per 100 square feet. American method: (1\) standard shingle: Minimum weight per 100 square feet, four hundred seventy (U70) pounds. (B) strip shingles: l~inimum weight per 100 square feet, two hundred eighty-five (285) pounds. (5) Dutch method: (A) ~'Iinimum weight per 100 square feet, two hundred sixty- five (265) pounds. (B) Hinimum headlap, three (3) inches. (C) Hinimum sidelap, four (L) inches. (6) French or hexagonal method: (A) Minimum weight per 100 square feet, two hundred fifty (250) pounds. (B) l1inimum overlap two edges three 0) inches. (e) Tile roofing. (1) Quality: Hard -burned roofing ti Ie. (2) Underlay: One layer asphalt saturated felt approximately thirty (30) pounds per 100 square feet. (3) Shingle tile, American method: Length of Shingle (inches) 16 15 12 Maximum Exposure (inches) 7 6~ 5 (U) Interlocking tile and curved tile: Lay in accordance with manufacturer's recommendations. Length of Shingle (inches) 16 15 14 12 Maximum Exposure (inches) 7 6~ 6 5 (f) Slate shingles: (1) Quality: Free frail knots or knurls and of reasonably smooth cleavage. For requirements see Fs-ss-s-L51. (2) Underlay: Asphalt saturated felt approximately thirty (30) pounds per 100 square feet. (3) Laid Americ an method: (1\) Minimum thickness, three-sixteenths (3/l6) inch. (B) Length of Shingle (inches) It3 16 lL l2 10 Maximum Exposure (inches) 7~ 6~ 5~ U~ 3~ - 38 .. (g) Built-up roofs. (1) Asphalt or tar and gravel coverings, including flashings: Comply with requirements of Underwriters' La boratorie s, inc. Built-up roof coverings, minimum. 3-ply. (2) Apply according to manufacturer's directions. (3) Each ply of felt: Minimum weight, fifteen (l5) pounds per 100 square feet. (U) Surface with: (A) Roofing gravel or crushed stone: Approximately four hundred (LOO) pounds per lOO square feet; or (B) Crushed slag: Approximately three hundred (300) pounds per lOO square feet. (C) Other material approved as to quality and weight by Director of Building and Zoning. (5) Top ply of felt and crushed stone or slag surfacing may be replaced with one layer of mineral surfaced cap sheet, minimum. weight, eighty-five (85) pounds per 100 square feet. (h) Metal roofs. (1) Materials. (A) Galvanized sheet metal; 26-gauge sheets, 1.25 ounce (tot~l weight both sides) zinc coating per square foot. (B) Copper: Sixteen (16) ounce soft (roofing temper). (C) Rooting tin: Forty (UO) pound coating. (n) Lead: Sheet lead, two and one-half (~) pounds per square foot. (2) Nails: (1\) Hard copper or copper alloy, for copper roofs. (B) Hot-dipped galvanized, for galvanized, sheet metal roofs. Seams, flat or standing; flat seams, locked and soldered. Provide for expansion. (3) (U) (i) Other types of roof coverings. Roof coverings such as metal shingles, canvas or roll rOJfing, may be used when the type and weight of material, and method of application, are acceptable to the Director of Building and Zoning. Section 21-1223: Flashing. Flashings, a lap joint or a turned up flange, usually of metal to make a water-tight connection between two (2) different materials. (a) Material. (l) Copper: Sixteen (16) ounce soft (roofing temper). (2 ) Galvanized sheet metal: Twenty-six (26) gauge, 1. 25 ounce (total weight both sides) zinc coating per square foot. (3) Lead: Hard lead, two (2) pounds; soft lead, four (U) pounds. (U) Tin: Forty (UO) pound coating, painted both sides. (5) Membrane waterproofing material acceptable to the Director of Building and Zoning. (6) Copp~r. and zinc flashings, gutters and downspout not to be used in conjunction with each other. (7) Aluminum of suitable weight acceptable to Director of Building and Zoning. (b) Openings not protected '\;)y overhang. - 39 - (l) Heads of openings, wood frame walls: (1\) Sheet metal extended behind finish siding material and turned down over outside edge of head trim unless drip cap extends behind and above bottom of finished material; or (B) Three (3) ounce copper-coated building paper may be used provided flashing is not exposed to weather more than two (2) inches. Extend behind siding. Blind tack at outside edge of drip can one (1) inch on center. (2) Heads and sills of openings, masonry-veneered wood frame walls. (1\) Haterial: Sheet metal or membrane waterproofing material acceptable to Director of Building and Zoning. (B) Head flashing: Extend from front edge of lintel, UP and over top of lintel and up on shenthing unc~r 1;t:ilditl[ paper. (e) Sill flashing: Extend under masonry sill, up on sheath- ing and under wood sill. (3) Heads and sills of openings, masonry walls. (1\) Material: Sheet metal or membrane waterproofing material acceptable to Director of Building and Zoning. (B) Head flashing: Extend from front edge of lintel, up and over top of lintel, through wall and turn up one (l) inch on inside surface. (C) Sill flashing: Extend under and behind masonry sill. (U) Heads of openings, stuccoed wood frame walls: (A) Material: Sheet metal. (B) Drip: Form drip on front edge of drip cap and extend flashing up behind building paper underneath stucco. (c) Intersections. (1) (2) Provide sheet metal flashing for all horizontal and vertical intersections of stucco with other materials. All flashing in connection with masonry walls shall have flashing or counter-flashing built into masonry not less than one (l) inch. (d) Valleys. (1) Rigid shingle roof covering: (A) Flash with sheet metal. (B) Flashing on: (i) Roof slopes less than seven (7) in twelve (l2); width, eighteen (18) inches. (ii) Roof slopes seven (7) in twelve (12) or more, width, twelve (12) inches. (2) Asphalt shingle roof covering: (A) Flash with sheet metal; or (B) Two (2) thicknesses of mineral surfaced roll-roofing material cut from rolls weighing not less than eighty- five (85) pounds per lOO square feet. Bottom strip, eighteen (18) inches wide; top strip, at least thirty- six (36) inches wide; lapped twelve (l2) inches. (e) Roof and wall intersections. (l) (2) Sloping roof: Sheet metal flashings. Flat roof: Sheet metal or same material as roof covering. When sheet metal is not used, install forty-five (u5) degree cant strip at roof and wall intersection. - LO - (f) Terrace or porch slabs. Suspended (reinforced) type of bearing on the ground, which abut wood construction at exterior wall. (l) Flashing material: Sheet metal. (2) Extend flashing at finish floors of terrace or porch from one-fourth (IlL) inch outside exterior face of finish, turn up four (4) inches behind exterior finish, thence turn down and through wall under wood construction to one- half (l/2) inch beyond inside face of foundation. The horizontal projection of the flashing under the exterior finish is to be turned down the sides of the terrace or porch slab to the level where the flashing goes through the wall. (g) Chimneys. (l) (2) All chimney and roof intersections, sheet metal flashing. Cricket or saddle covering: Sh8et metal. Section 2l-1224: Gutters and Downspouts. When dwelling is provided with a basement or crawl spacej install gutters and downspouts unless omission is specifically permitted by Director of Building and Zoning. (a) lJIaterials. (1) Copper, sixteen (16) ounce, hard (cornice temper). (2) Galvanized sheet metal: TWenty-six (26) gauge sheets, l.25 ounce (total weight both sides) zinc coating per square foot. (3) Solid wood gutters: Paint inside with two (2) coats pitch or three (3) coats lead and oil after installation. (b) Basket strainers. (1) (2) Material: Copper wire for copper gutters, heavily galvanized wire for all other gutters. Install strainers in all gutter outlets to downspouts. (c) Roof water disposal. (1) OUtlets shall not be connected to sewer system or footing drain tile. (2) Outlets shall be made acceptable to Director of Building and Zoning. Section 2l-l225: Interior wall and ceiling finish. All interior walls and ceilings shall be of such material as to meet a one-hour fire resistance rating, as prescribed by the National Board of Fire Underwri ters . (a) Lath and plaster. (1) Wood lath: (A) Maximum or furring spacing, sixteen (16) inches on center. (B) Lath, No. l, five-sixteenths (5/16) inch thick. (C) Space lath one-fourth (IlL) to three eighths (3/8) inch apart. Break joints every seventh lath, nail at each bearing. (2) Expanded metal lath: (A) Painted or galvanized lath. (B) Hinimum weights; maximum spacing of supports. - Ll - Use Pounds per Yard stud Spacing (inches) Walls: All dwellings ............. One-story dwellings ....... 2.5 * 3.4 * 4.0 ** 3.0 16 20 24 24 Joist Spacing (inches) Ceilings * 2.75 3.4 -lH!- 3.4 l6 16 24 * Flat rib *i!- High rib (3) Insulating fiber board lath: (A) Minimum thickness, one-half (1/2) inch. (B) Lath size, eighteen (18) by forty-eight (48) inches. Lath twenty-four (24) by forty-eight (L8) inches may be used provided all joints at right angles to the framing members are covered with continuous strips of metal lath and ends of lath are nailed to solid bearing (framing members) at approximately four (L) inches on center including intermediate supports. (C) Maximum stud or joist spacing, sixteen (16) inches on center. (D) Apply in accordance with manufacturer's directions. (4) Gypsum lath: (A) Minimum thickness, three-eighths (3/8) inch. (B) Size, sixteen (16) by forty-eight (L8) inches. (C) Maximum stud or joist spacing, sixteen (16) inches on center. (D) Apply in accordance with manufacturer's directions. (5) Lathing: (A) Heads of openings: Install lath so vertical joints or first course of lath above head will not occur on jamb studs. (B) Corner beads: Galvanized metal, for all external corners. (C) Corner and joint reinforcing: Metal lath two and one- half (~~) inch lap on each surface. (D) Over solid wood surfaces: Install metal lath on strips or use furring nails. Lap metal lath on adjoining lath surfaces. (6) Plaster: (A) Hix all plaster (lime and prepared) according to manu- facturer's recommendations. (B) Quic k lime, slake thorou ghly · (C) Minimum thickness, one-half (1/2) inch over lath base. Finish all ceilings level and vralls and corners plumb and straight. (7) Drying period: Allow sufficient time for plaster to dry thoroughly before application of trim. (c) Ceramic tile. (1) Materials. - L2 - (2) Installation: (A) Stud covering: Fifteen (15) pound asphalt saturated felt applied shingle style (unless metal lath is paper-backed) . (B) Metal lath. For requirements see Section 21-1225 (a) (2) for types and weights. (C) Scratch coat: Portland cement plaster, minimum five- eighths (5/8) inch thick, integrally waterproofed. Scratch thoroughly. Allow to dry before installing tile. (c) Shower walls. (l) Materials: Dense and water repe1lant. Plaster nor plastic not acceptable. (2) Installation: (A) Install in accordance with manufacturer's instructions. (B) Minimum height: Not below shower head. (C) Caulk and protect joints at corners, bathtub, top edges of wainscot and at intersections of wainscot and other materials. Use moldings designed for the purpose or other materials satisfactory to the Director of Building and Zoning. (d) Dry wall finish. (1) Ninimum thickness: Fiber board .. ~.... 0...0 e. 0... G..... 0 Actual Inches Spacing of Studs l6 20 24 l/2 1/2 1/2 IlL 3/8 3/8 1/2 5/8 5/8 1/2 3/L 3/L Type of Wall Finish Wood boards e.... 0..00... .....Oel.... 0 Plyvlood .. 0 eo. . . . . . 0 0 0 0 10 0 . . . 0 . . . . . . . 0 Gypsum board .......0................ (2) Other types of boards, including compressed dense composition board less than one-half (1/2) inch thick, may be used when acceptable to the Director of Building and Zoning. Maximum stud spacing, sixteen (16) inches on center. (3) All wood of less than one (1) inch nominal thickness shall be backed with three-eighths (3/8) inch sheet rock. (e) Heater room interior finish. (1) Materials. One (1) hour fire-resistive construction. For req~irements see NBFU - Building Code - 55. (2) Installation: Apply over all combustible materials, including ceiling area , within four (4) feet of heating unit and flue pipe. Section 21-1226: Finish floors. (a) Cement floors: (1) Mix. For requirements see Section 21-l2l7 (b) and Section 2l.12l7 (k) (2). (2) Heater room floors on wood construction where solid or liquid fuel is used: (A) Minimum thickness, four (L) inches. (B) Use sheet metal over tops of joints for concrete forms or cut in one (1) inch boards flush with top of joists. If wood boards are used remove after the slab has set. (C) Reinforce slab with wire mesh weighing not less than thirty (30) pounds per 100 square feet, or with one-fourth (IlL) inch bars spaced one (l) foot on center each way. - 43 - (3) Heater room floors on wood construction where gas burning equipment raises temperature of floor to above one hundred sixty (16) degreesJ comply with the provisions of (2) above. See American Gas Association specifications. (b) Wood floors. For requirements see Section 21-1220 (c) (5). (1) Naterials. (A) Flooring: Kiln-dried material. (B) strip floonngJ hai:'dwood or softwood, m~n~mum thickness 25/32 inch, maximum width two and one-fourth (2~) inches for hardwood, three and one~fourth (3\) inches for soft- wood. Three eighths (3/8) inch thickness may be used where laid directly on a subf10or. Wider widths (plank flooring) and parquet flooring may be used when pre- cautions are taken to prevent warping or cupping. (C) Nails: Haximum spacing sixteen (l6) inches on center. (D) Building paper or deadening felt: Apply under all finish flooring unless floor is insulated. (2) Installation. (A) Finish flooring over subflooring: Apply at right angles to sub flooring except when subflooring is laid diagonally. (B) Finish flooring on strips; wood strips, minimum size, one (1) by two (2) inches; maximum spacing, sixteen (16) inches on center. Apply strips over building paper or deadening felt on top of subflooring. (C) Strip flooring on concrete: Apply on not less than two (2) by two (2) inch sleepers embedded in concrete. (D) 1'1l'ood block floorings on concrete: Set blocks in mastic and install in accordance ~~th flooring manufacturer's directions. (c) Ceramic tile. For requirements see Section 2l-l220 (c) (5) (iii). (l) Materials. For requirements see ASTI'1 C l26-52T. (2) Grade: Not less than Standard Grade. (3) Setting bed. (A) ~lfix one (1) part Portland cement, four (L) parts sand; or one (1) part Portland cementJ two (2) parts sand, and four (L) parts pea-size aggregate. (B) 11inimum thickness: One and one-fourth (1\) inches, if reinforced with wire mesh; three (3) inches when installed below top of chamfered joists, with finish tile surface at least one and one-half (~) inches above top of joists. (L) When applied over wood subfloor: Install asphalt saturated felt over subfloor underneath the wire mesh. (d) Rubber tile, asphalt tile, linoleum and wall-to-wall carpeting: (1) Do not apply rubber tile or linoleum on slabs resting on the ground. Asphalt tile may be used on slabs bearing on the ground provided the slab area where the tiles are to be applied has first been covered with membrane waterproofing. (2) Hardboard, plywood or similar underlayment leveler having a nominal thickness of one-fourth (IlL) inch shall be used over three-fourth (3/L) inch wood subfloors to provide a smooth flat surface for the finish floor covering (including wall-to- wall carpeting). Apply in accordance with manufacturer's recommendations. (3) Adhesive for flooring to be waterproof; type as recommended by manufacturer of floor covering. - LL - Section 21-1227: Garages. (a) Garqges attached or built into residential buildings. (1) The construction of garages attached or built into and made a part of residential construction shall be of the same quality as required for the dwelling to which the garage is attached. (2) All floors of attached or built-in garages shall be six (6) inches below the grade of the floor of the residence to which it is attached or a part thereof. (3) There shall be no interconnection between a house's forced air heating system and a garage. Return air register~in the garage which are connected to the house's heating system are prohibited. (U) All walls and ceilings of an attached garage must have a minimum of a one-hour fire ratinG_ 1.i>Jhere a gab1e:..type roof is used a one-hour fire resistive bulkhead shall be es- tablished in the attic space directly above and continuous from the interior one-hour fire resistive garage wall. Service doors common to both the dwelling and the garage shall be composed of materials having a minimum of a one- hour fire rating. All doors must fit in the, fI'ffine so that air cannot pass freely around the door when in a closed position. Doors must be provided with wood or metal thresholds. (b) Frame detached garages. (l) Detached garage on interior lots must be set back 70 feet from front lot line and shall not be closer than ~10 (2) feet to the dividing lot line. On corner lots garage shall be twenty (20) feet from lot line, next to street. (2) Concrete floor not less than four (L) inches thick re- inforced with #10 wire screen over a base of crushed stone or sand at least five (5) inches in depth. Base to be placed on undisturbed soil. Footings of not less than twelve (l2) inches wide and not less t~an twelve (12) inches in depth around entire perimeter of slab. (3) Sill plates connecting the walls to the floor shall be bolted to the foundation. Bolts shall be not less than one-half (1/2) inch in diameter and spaced at eight (8) foot centers and not more than one foot (1) from each corner. Bolts shall extend into the concrete eight (8) inches or more. (U) t.J all studs shall be spaced at not more than sixteen (16) inches on center and securely fastened to the bottom plate which shall be bolted to the floor. A double top plate shall be required and all wall studs and plates shall be a minimum of two (2) inches by four (L) inches. Doubling of studs shall be required at all corners and jambs of openings more than three (3) feet in width. (5) Each corner is to be wind-braced outward from the top in two directions to a minimum of six (6) feet from corner at the bottom plate. ",rind bracing shall be a minimum of lxL inches and notched into the studding. (6) All roof rafters must be at least 2"x6" and spaced not more than 16n o. c . Ridge board shall be required and of a size not less than 2"x6". Ceiling ties of at least 2"x611 - L5 - spaced evenly with a minimum of three. Collar ties at not mo~e than four (4) foot centers are required on all common rafter spans more than twelve (l2) feet in width and of a size not less than 1"x6". (7) Double 2 i'x8" headers required over main doors nine (9) feet or less in width and double 2"x1211 headers on doors up to seventeen (l7) feet in width. (8) A service door not less than 2tx6" in width and at least two windows on opposite sides shall be ~equired on all garages. (9) Roof sheathing of not less than one-half (1/2) inch thick plywood or one inch thick nominal size tongue and groove sheathing. (c) BriCk detached garages. (1) Detached garage on interior lot shall be set back seventy (70) feet from front lot line and shall not be closer than two (2) feet to dividing lot line. On corner lots garage shall be twenty (20) feet back of lot line next to street. (2) Concrete footings not less than four (4) feet below grade and not less than twenty (20) inches wide and eight (8) inches thick shall be required. Foundation walls shall be a minimum of eight (8) inches thick. (3) Concrete floor shall be the same as required for frame garages. (4) Rafters, roof and sheathings shall be the same as required for frame garages. (5) Doors and headers shall be the same as required for frame garages. Section .21-1228: Reference material ~ Abbreviations and sources. The following list sets forth commonly used abbreviations, with the source set forth opposite each abbreviation: A.C.I. American Concrete Institute, l8263 West McNichols Road, Detroit, Michigan. A.I.S.C. American Institute of Steel Construction, New York, New York. A.S.T.M. American Society for Testing Materials, 206 South Broad Street, Philadelphia, Pennsylvania. F.S. Federal Specifications, U. S. Department of Commerce, General Service Administration, 219 South Clark Street, Chicago, Illinois. N.B.F.U. National Board of Fire Underwriters, 85 John Street, New York, New York. N.L.M.A. National Lumber Manufacturing Association, 176 West Adams Street, Chicago, Illinois. Standard and Specification Section 2l-1229: Reference Material - Materials, standards and specifications. The follm~ing list sets forth materials with citations to source material, standards and specifications: Aggregates, Concrete Aggregates, Lightweight Structural Concrete Block, Glass Board, Sheathing Board, Fiber Brick, Common Brick, Concrete Brick, :Face Brick, Fire Cast Stone Cement, Portland Cement, Prepared Masonry (for l'lortar) Concrete, Masonry Units, Hollow Load Bearing Concrete, Masonry Units, Solid Load Bearing Finish, Heater Room Interior Lime, Hydrated Lime, Quick Lumber Shingles, Asbestos Cement Shingles, Slate Steel, for Bridges and Buildings Stucco Tile, Ceramic Tile, Facing, Glazed and Unglazed Tile, Footing Drain Tile, Load Bearing Tile, Non Load Bearing Asn1 C 33-56T AS'IM C 330-53T NBFU Building Code-55 1\S'lM C 79-54 FS-LLL-F-321b Asn1 C 6250 AS'IN C 55-52 AS'IM C 216-50 FS-HH-B-671d ACI 704 -LL AS'lM C l50-56 Asn1 C 9l-55T AS'IM C 90-52 AS'lM C 145-52 NBFU Building Code - 55 AS'.n1 C 207-49 AS'.n1 C 5-26 Nl1"l.A 1957 Edition FS-SS-8-291c. FS-ss-s-L51 AS'IM A 7-56T FS-QQ-B-IOlc AS'IJ\1 C 126-52T AS'Il'1 C 126-52T AS'IN C L-55 AS'IM C 34 -55 AS'lM C 56-52 - )-17 - Section 21-12)0: Prefabricated Chimneys. (a) Prefabricated chimneys permitted. In addition to any method of construction presently authorized within the limits of the Village, a light-weight, factory-built chimney, approved by Underwriters Labora- tories, Inc., may be used in place of a tile lined brick chimney in one-story buildings only, and may be suspended from the ceiling joists of said building upon the approval of the method of support and installation by the Director of Building and Zoning as provided in this Article XII. (b) Construction and installation requirements. Prefabricated light-weight, factory-built chimneys shall be constructed and installed in accordance with the Underwriters Laboratories, Inc., listing and approval for such chimneys. In addition thereto and when not in conflict therewith, such construction and installation shall also conform to the following: (l) The manufacturer's specifications and instructions issued with respect to the specific chimney and furnace shall be followed. (2) The height above the furnace bre6c'~ng and the draft characteristics of each installation shall satisfy the specifications prescribed by the manufacturer of the furnace and such furnace shall be supplied with a chimney meeting the recommended specifications for the furnace. ()) That part of the chimney above the roof, housing, top, and rain cap shall be decorative in appearance and consistent with the design of the structure to which it is attached. (c) Submission of plans. Plans and specifications for the installation of such chimney and the details of the method of support for such chimney shall be submitted in advance to the Director of Building and Zoning. (d) Inspection. After the installation of such chimney, the builder or installer shall require inspection of the installation by the Director of Building and Zoning, who then shall in3pect the same in order to determine whether the standards prescribed in this article have been complied with and whether such installation conforms to the plans and specific~tions previously submitted. No further work upon the premises wherein such chimney is installed shall be carried on so as to enclose or otherwise conceal any details of such installation until inspection has been made by the Director of Building and Zoning and approval secured. - 48 - ... . This ordinance shall be in full force and effect from and after its passage , approval and publication according to law. AYES: Bergen Colfer Grittani Congreve NAYS: Bruhl Ekren PASSED THIS 13th day of July, 1966 APPROVED THIS 13th day of July, 1966 ATTEST: ~j/~ Richard H. Monroe Village Clerk