US2014841A - Floor and roof construction - Google Patents

Floor and roof construction Download PDF

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Publication number
US2014841A
US2014841A US624368A US62436832A US2014841A US 2014841 A US2014841 A US 2014841A US 624368 A US624368 A US 624368A US 62436832 A US62436832 A US 62436832A US 2014841 A US2014841 A US 2014841A
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slab
runners
groove
shoulders
clip
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US624368A
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Arthur A Heeren
Ernest B Johnson
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United States Gypsum Co
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United States Gypsum Co
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B5/00Floors; Floor construction with regard to insulation; Connections specially adapted therefor
    • E04B5/02Load-carrying floor structures formed substantially of prefabricated units
    • E04B5/04Load-carrying floor structures formed substantially of prefabricated units with beams or slabs of concrete or other stone-like material, e.g. asbestos cement

Definitions

  • This invention relates to building constructions, and has reference more particularly to floor and roof constructions in which precast cementitious slabs of considerable length are supported upon steel beams.
  • the slabs be interlocking and be provided with tongues and grooves along the edges thereof so as to interlock and form a rigid floor or roof surface.
  • An object of this invention therefore is to pro-' vide an elongated precast cementitious slab having metal protected edges to protect the edges of the tile from fracture during handling.
  • Another object of the invention is to provide a slab of the class described in which the metal runners forming the edges are securely anchored to the body of the slab to prevent the runners from being broken away from the slab during handling.
  • a further object of the invention is to provide a cementitious slab with metal runners protecting the edges, said runners being so constructed as to add materially to the longitudinal strength of the slab.
  • a further object of the invention is to provide a slab in which the various reinforcing elements of the slab are tied together in such a way as to produce a slab which is practically shatter proof.
  • a further object of the invention is to provide a tongue and groove metal edge slab in which the tongue and groove is so arranged as to avoid the formation of thin sections.
  • a still further object of the invention is to provide a floor and roof construction of the class described in which anchoring means is provided to connect the slabs to the supporting beams by clips which lend themselves readily to fast erection with low cost of labor in erection; also to improve building constructions in other re-' spects hereinafter specified and claimed. 5
  • FIG. 1 is a perspective view of my improved floor or roof construction
  • Fig. 2 is a sectional elevation through the construction taken on line 22 of Fig. 1,
  • Fig. 3 is a sectional elevation through the construction taken through the transverse edges of the slab on line 3'3 of Fig. 1, and 15 Fig. 4 is a perspective view of one of the attaching clips used for connecting the slabs to the supporting beams.
  • the beams III are positioned in spaced, parallel rela- 20 tion with the ends thereof, supported upon the framework of the building.
  • These beams may be in the form of I-beams, channels, or other steel structural members having upper flanges l i.
  • An elongated flat slab I2 is molded of gypsum, 25 concrete, or other desired cementitious material by the use of a mold of suitable shape. In the molding operation, a male tongued edge runner I3 is placed in one side of the mold, and a female grooved edge runner I4' is placed along the other 30 longitudinal edge of the mold.
  • the runner I3 is provided with a tongue section Ma which is arcuate in shape and said runner also has parallel shoulders l5 and I6 which extend parallel to the faces of the slab l2. Integral shoulders ll 35 and I8 are formed on the shoulders l5 and 16 respectively, the shoulders I! and i8 extending at right angles to the faces of the slabs.
  • the shoulder H terminates in a longitudinally extending flange l9, and the shoulder l8 terminates 40 in a longitudinally extending flange 20.
  • Longitudinal beads 22 are formed in the flanges l9 and 20 for the purpose of stiffening the same and also for the purpose of anchoring said flanges and the runner l3 to the molded slab I2.
  • the runner I4 is provided with an arcuateshaped groove 23 which has a slightly srraller radius than the tongue Ma, so that a space 24 is provided for a purpose to be hereinafter described.
  • the runner I4 is provided with parallel shoulders 25 which telescope over the shoulders l5 and I8, and integral shoulders 21 are formed on the shoulders 25, the shoulders 21 terminating in flanges 28 which extend parallel to and in the plane of the surfaces of the slab I2.
  • the two runners l3 and ll are placed in-the correspondingly shaped edges of the mold for forming the slab.
  • the two runners are connected in the mold by engaging the edges of a reinforcing mat ll of expanded metal or'other' desired material, over the upstanding ends I! and 33 of struck-out integral hooks 34 and SI respectively, which are formed out of the metal of the tongue and groove sections Ila and 23.
  • the hooks I4 and 35 are spaced at frequent intervals along the runners l3 and I4 so that they are embedded in the cementitious material forming the slab l2 during the molding operation and serve to cooperate with the expanded metal mats II in securely anchoring the runners to the slab, and also in securely anchoring the runners one to the other.
  • the mold is so shaped as to lie flush against the tongue and groove sections Ma and. 23, so that the openings It and 31 left in the tongue and groove sections a and 23 respectively are fllled with the cementitious material. If any of the cementitious material extends out beyond the tongue and groove sections Ila and 23, the clearance space 24 is provided for the reception of said cementitious material, thus insuring that the runner shoulders l1 and 21 will lie in closely abutting relation and give a perfectly tight joint on the upper surface of the slab.
  • Cooperating tongues and grooves ll are formed on opposite ends of each tile from the cementitious material so as to hold the tile in alignment at their ends when supported upon the beams II. If desired, the ends of the tile or slabs may also be armored with runners similar to the runners l3 and I4.
  • Inordertoanchortheslabs Iltothebeams ll, clips 42 are provided, each 0! said clips having an outstanding angular flange 43 at its upper end for engaging in a groove 44 which is formed in the metal of runner ll between shoulders I. and It.
  • the body of the clip 42 is provided with a struck-out, angularly positioned lug 48 which forms a slot 41 for receiving one of the beam flanges II.
  • the lug it has a wedging action against the bottomofthe flange II soastohold the clip 4! in position with the flange l3 engaging the groove during the time from the placing of one slab until the next adjoining slab is moved into interlocking position with the clip 42 flrmly held between shoulders ll and 21.
  • 'stiflening bead 49 may be formed in the body of the clip 42 adjacent the slot 41 for the purpose of stiffening said clip and prevent it from bending adjacent the lug 40 during erection. It will be noted that the widths of shoulders I and Il are slightly different to the extent of the thickness of the metal forming the clip 42 so that the shoulders l1 and 21 on the top surface of the slab are in'closely abutting relation, while the shoulders l8 and 21 at the bottom of the slab are spaced apart a distance equal to the thickness of the clip 42.
  • the width of the tongue members between shoulders I and I8 is comparatively large relative to the total thickness of the slab, so that great strength is provided by the interlocking runners owing to the large amount of cementitious material fllling the tongue section. It will 'also be noted that owing to the comparatively narrow width of the flanges IO, 20 and II, no extremely thin sections are produced in the slabwhich'might be ruptured during handling or erection.
  • an elongated, cementitious slab extending along opposite longitudinal edges of said slab, a plurality of hooks formed on the inside of each runner, and a reinforcing metal mat connecting the hooks of the two runners so that the material of said slab embeds said hooks and mat.
  • an elongated cementitious slab having metal tongue and groove edge runners encasing opposite edges of said slab, flanges formed on said runners in the planes of the surfaces of said slab, and reinforcing beads formed in said flanges for anchoring said runners to said slab.
  • ma building unit an elongated cementitious slab, tongue and groove metal edge runners pro- 25 vided on opposite edges of said slab, one of said edge runners being provided with a rolled groove, said groove being adapted to receive an outstanding flange formed on a metallic, beam attaching clip.
  • a plurality of beams in spaced, parallel relation, elongated slabs of cementitious material supported by said beams, metallic edge runners formed on opposite edges of said slabs, one of said edge runners being provided with a groove, a clip having an outstanding flange engaging in said groove between adjacent slabs, and attaching means formed on said clip for attaching said clip to a beam.
  • a reiniorcing mat extending in the body of each slab and connecting said hooks, one of said edge rlmners having a longitudinally extending groove, a clip extending between edge runners of ad.iacent slabs, and a flange formed on said clip and 50 engaging in said groove so as to connect said slab to said beam.
  • an elongated, flattened slab of cementitious material edge runners encasing opposite edges of said slab, the runners being tongued and grooved, forming parallel telescoping shoulders thereon extending parallel to the bases of said slab, and flanges formed on said runners in the plane of the surfaces of said slab.
  • a plurality of beams in spaced, parallel relation said beams having oppositely extending, upper flanges, elongated slabs of cementitious material supported by said beams.
  • metallic edge runners encasing opposite edges of said slabs and having inter- 66 locking tongues and grooves, a longitudinally extending anchoring groove formed in one of said runners, a clip having a flange extending into said anchoring groove, said clip being provided with a slot for the reception of a flange of said 70 beam, and a struck-out, angularly positioned lug fonned on said clip, for engaging the lower face of said beam flange.
  • an elongated, cementitious slab', tongue and groove metal edge runners provided on opposite edges 0! said slab, integral tending along opposite, longitudinal edges of said hooks struck-out from said runners and emslab, a plurality of integral attaching members, bedded in the slab, and reinforcing membersconformed on the inside web of each runner, and renecting the books of the two runners to securely inforcing ties connecting the attaching members 5 anchor said runners to the slab. of the two runners.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Joining Of Building Structures In Genera (AREA)

Description

- p 17, 1935. A A. HEEREN ETAL ,8
FLOOR AND ROOF CONSTRUCTION Filed July 25, 1952 INVENTOR J ETHUf? fl. HEE/PEN.
WJOHAEON ATTORN Patented Sept. 17, 1935 I UNITED. STATES FLOOR AND ROOF CONSTRUCTION 4 Arthur A. Heeren, T Chicago, and Ernest .B. Johnson, Hinsdale, Ill., assignors to United States Gypsum Company, Chicago, 111., acorporation of Illinois Application July 25, 1932, Serial No. 624,368
9 Claims.
This invention relates to building constructions, and has reference more particularly to floor and roof constructions in which precast cementitious slabs of considerable length are supported upon steel beams.
In the erection of the floors and roofs of buildings, it is desirable to have spaced, parallel steel beams which are arranged to support long, precast slabs of cementitious material, such as gypsum, concrete, etc. Witnmaterials such as gypsum which are rather fragile, it is desirable to have the edges of the precast slab protected by metal so that the slabs can be shipped without chipping or damaging the material composing the slab. Longitudinal runners embedded in the edges of the slab also, serve materially to increase the longitudinal strength of the slab. With slab constructions heretofore opposed, some difiiculty has been experienced in properly anchoring the longitudinal metal runners to the slab so as to prevent the runners from breaking loose from the slab. It is. desirable that the slabs be interlocking and be provided with tongues and grooves along the edges thereof so as to interlock and form a rigid floor or roof surface. Some difiiculty has been experienced in designing a slab which can be anchored to the supporting beams rapidly and with a. low expenditure for labor and erection.
An object of this invention therefore is to pro-' vide an elongated precast cementitious slab having metal protected edges to protect the edges of the tile from fracture during handling.
Another object of the invention is to provide a slab of the class described in which the metal runners forming the edges are securely anchored to the body of the slab to prevent the runners from being broken away from the slab during handling.
A further object of the invention is to provide a cementitious slab with metal runners protecting the edges, said runners being so constructed as to add materially to the longitudinal strength of the slab.
A further object of the invention is to provide a slab in which the various reinforcing elements of the slab are tied together in such a way as to produce a slab which is practically shatter proof.
A further object of the invention is to provide a tongue and groove metal edge slab in which the tongue and groove is so arranged as to avoid the formation of thin sections.
A still further object of the invention is to provide a floor and roof construction of the class described in which anchoring means is provided to connect the slabs to the supporting beams by clips which lend themselves readily to fast erection with low cost of labor in erection; also to improve building constructions in other re-' spects hereinafter specified and claimed. 5
Reference is to be had to the accompanying drawing forming a part of this specification, in which Fig. 1 is a perspective view of my improved floor or roof construction,
Fig. 2 is a sectional elevation through the construction taken on line 22 of Fig. 1,
Fig. 3 is a sectional elevation through the construction taken through the transverse edges of the slab on line 3'3 of Fig. 1, and 15 Fig. 4 is a perspective view of one of the attaching clips used for connecting the slabs to the supporting beams.
In constructingour improved floor-or roof, the beams III are positioned in spaced, parallel rela- 20 tion with the ends thereof, supported upon the framework of the building. These beams may be in the form of I-beams, channels, or other steel structural members having upper flanges l i. An elongated flat slab I2 is molded of gypsum, 25 concrete, or other desired cementitious material by the use of a mold of suitable shape. In the molding operation, a male tongued edge runner I3 is placed in one side of the mold, and a female grooved edge runner I4' is placed along the other 30 longitudinal edge of the mold. The runner I3 is provided with a tongue section Ma which is arcuate in shape and said runner also has parallel shoulders l5 and I6 which extend parallel to the faces of the slab l2. Integral shoulders ll 35 and I8 are formed on the shoulders l5 and 16 respectively, the shoulders I! and i8 extending at right angles to the faces of the slabs. The shoulder H terminates in a longitudinally extending flange l9, and the shoulder l8 terminates 40 in a longitudinally extending flange 20. Longitudinal beads 22 are formed in the flanges l9 and 20 for the purpose of stiffening the same and also for the purpose of anchoring said flanges and the runner l3 to the molded slab I2.
The runner I4 is provided with an arcuateshaped groove 23 which has a slightly srraller radius than the tongue Ma, so that a space 24 is provided for a purpose to be hereinafter described. The runner I4 is provided with parallel shoulders 25 which telescope over the shoulders l5 and I8, and integral shoulders 21 are formed on the shoulders 25, the shoulders 21 terminating in flanges 28 which extend parallel to and in the plane of the surfaces of the slab I2. The flanges ingbeadsissimilartothebeadsfl.
The two runners l3 and ll are placed in-the correspondingly shaped edges of the mold for forming the slab. The two runners are connected in the mold by engaging the edges of a reinforcing mat ll of expanded metal or'other' desired material, over the upstanding ends I! and 33 of struck-out integral hooks 34 and SI respectively, which are formed out of the metal of the tongue and groove sections Ila and 23. The hooks I4 and 35 are spaced at frequent intervals along the runners l3 and I4 so that they are embedded in the cementitious material forming the slab l2 during the molding operation and serve to cooperate with the expanded metal mats II in securely anchoring the runners to the slab, and also in securely anchoring the runners one to the other. The mold is so shaped as to lie flush against the tongue and groove sections Ma and. 23, so that the openings It and 31 left in the tongue and groove sections a and 23 respectively are fllled with the cementitious material. If any of the cementitious material extends out beyond the tongue and groove sections Ila and 23, the clearance space 24 is provided for the reception of said cementitious material, thus insuring that the runner shoulders l1 and 21 will lie in closely abutting relation and give a perfectly tight joint on the upper surface of the slab. Cooperating tongues and grooves ll are formed on opposite ends of each tile from the cementitious material so as to hold the tile in alignment at their ends when supported upon the beams II. If desired, the ends of the tile or slabs may also be armored with runners similar to the runners l3 and I4.
Inordertoanchortheslabs Iltothebeams ll, clips 42 are provided, each 0! said clips having an outstanding angular flange 43 at its upper end for engaging in a groove 44 which is formed in the metal of runner ll between shoulders I. and It. The body of the clip 42 is provided with a struck-out, angularly positioned lug 48 which forms a slot 41 for receiving one of the beam flanges II. The lug it has a wedging action against the bottomofthe flange II soastohold the clip 4! in position with the flange l3 engaging the groove during the time from the placing of one slab until the next adjoining slab is moved into interlocking position with the clip 42 flrmly held between shoulders ll and 21. A
'stiflening bead 49 may be formed in the body of the clip 42 adjacent the slot 41 for the purpose of stiffening said clip and prevent it from bending adjacent the lug 40 during erection. It will be noted that the widths of shoulders I and Il are slightly different to the extent of the thickness of the metal forming the clip 42 so that the shoulders l1 and 21 on the top surface of the slab are in'closely abutting relation, while the shoulders l8 and 21 at the bottom of the slab are spaced apart a distance equal to the thickness of the clip 42.
It will be noted that the width of the tongue members between shoulders I and I8 is comparatively large relative to the total thickness of the slab, so that great strength is provided by the interlocking runners owing to the large amount of cementitious material fllling the tongue section. It will 'also be noted that owing to the comparatively narrow width of the flanges IO, 20 and II, no extremely thin sections are produced in the slabwhich'might be ruptured during handling or erection.
II are also provided with stiffening and anchor- We would state in conclusion that while the illustrated example constitutes a practical embodiment of our invention, we do not wish to limit ourselves precisely to these details, since manifestly, the same may be considerably varied withr, out'departing from th spirit of the invention as deflned in the appen ecl claims.
' Having thus described our invention, we claim as new and desire to secure by Letters Patent:-
1. In a building unit, an elongated, cementitious slab, tongue and groove metal runners extending along opposite longitudinal edges of said slab, a plurality of hooks formed on the inside of each runner, and a reinforcing metal mat connecting the hooks of the two runners so that the material of said slab embeds said hooks and mat.
2. In a building unit, an elongated cementitious slab, metal tongue and groove edge runners encasing opposite edges of said slab, flanges formed on said runners in the planes of the surfaces of said slab, and reinforcing beads formed in said flanges for anchoring said runners to said slab.
3. ma building unit, an elongated cementitious slab, tongue and groove metal edge runners pro- 25 vided on opposite edges of said slab, one of said edge runners being provided with a rolled groove, said groove being adapted to receive an outstanding flange formed on a metallic, beam attaching clip.
4. In a building construction, a plurality of beams in spaced, parallel relation, elongated slabs of cementitious material supported by said beams, metallic edge runners formed on opposite edges of said slabs, one of said edge runners being provided with a groove, a clip having an outstanding flange engaging in said groove between adjacent slabs, and attaching means formed on said clip for attaching said clip to a beam.
5. In a building construction, a plurality of beams in spaced, parallel relation, a plurality of elongated flat slabs supported by said beams, metallic edge runners encasing opposite edges oi each slab, struck-out hooks formed on said runners and embedded in the body oi said slab,
a reiniorcing mat extending in the body of each slab and connecting said hooks, one of said edge rlmners having a longitudinally extending groove, a clip extending between edge runners of ad.iacent slabs, and a flange formed on said clip and 50 engaging in said groove so as to connect said slab to said beam. v
6. In a building slab, an elongated, flattened slab of cementitious material, edge runners encasing opposite edges of said slab, the runners being tongued and grooved, forming parallel telescoping shoulders thereon extending parallel to the bases of said slab, and flanges formed on said runners in the plane of the surfaces of said slab.
7. In a building construction, a plurality of beams in spaced, parallel relation, said beams having oppositely extending, upper flanges, elongated slabs of cementitious material supported by said beams. metallic edge runners encasing opposite edges of said slabs and having inter- 66 locking tongues and grooves, a longitudinally extending anchoring groove formed in one of said runners, a clip having a flange extending into said anchoring groove, said clip being provided with a slot for the reception of a flange of said 70 beam, and a struck-out, angularly positioned lug fonned on said clip, for engaging the lower face of said beam flange.
8. In a building unit, an elongated, cementitious slab', tongue and groove metal edge runners provided on opposite edges 0! said slab, integral tending along opposite, longitudinal edges of said hooks struck-out from said runners and emslab, a plurality of integral attaching members, bedded in the slab, and reinforcing membersconformed on the inside web of each runner, and renecting the books of the two runners to securely inforcing ties connecting the attaching members 5 anchor said runners to the slab. of the two runners.
9. In a, building unit, an elongated, cementh ARTHUR A, HEEREN. tious slab, tongue and groove metal runners ex- ERNEST B. JQHNSON.
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3257766A (en) * 1962-07-31 1966-06-28 Flintkote Co Reversible clip for slab to joist attachment
US3267630A (en) * 1964-04-20 1966-08-23 Powerlock Floors Inc Flooring systems
US3604174A (en) * 1968-11-25 1971-09-14 Thomas J Nelson Jr Lightweight structual panel
US4059936A (en) * 1976-09-27 1977-11-29 Insuldeck Corporation Panel construction for roofs and the like
US4581186A (en) * 1982-12-17 1986-04-08 Larson Roger E Method of making foam core building panels in a continuous operation
US4602466A (en) * 1982-12-17 1986-07-29 Larson Roger E Foam building panels
US4606715A (en) * 1982-12-17 1986-08-19 Larson Roger E Apparatus for making building panels in a continuous operation
US6032425A (en) * 1998-02-09 2000-03-07 Gugliotti Associates, Inc. Flooring system
US20110203213A1 (en) * 2010-02-19 2011-08-25 Paata Dzigava Flooring devices, systems, and methods thereof
US9180575B1 (en) 2010-11-16 2015-11-10 Paata Dzigava Systems and methods for constructing mosaic wood flooring panels and/or more complex mosaic wood structures

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3257766A (en) * 1962-07-31 1966-06-28 Flintkote Co Reversible clip for slab to joist attachment
US3267630A (en) * 1964-04-20 1966-08-23 Powerlock Floors Inc Flooring systems
US3604174A (en) * 1968-11-25 1971-09-14 Thomas J Nelson Jr Lightweight structual panel
US4059936A (en) * 1976-09-27 1977-11-29 Insuldeck Corporation Panel construction for roofs and the like
US4581186A (en) * 1982-12-17 1986-04-08 Larson Roger E Method of making foam core building panels in a continuous operation
US4602466A (en) * 1982-12-17 1986-07-29 Larson Roger E Foam building panels
US4606715A (en) * 1982-12-17 1986-08-19 Larson Roger E Apparatus for making building panels in a continuous operation
US6032425A (en) * 1998-02-09 2000-03-07 Gugliotti Associates, Inc. Flooring system
US20110203213A1 (en) * 2010-02-19 2011-08-25 Paata Dzigava Flooring devices, systems, and methods thereof
US8869481B2 (en) 2010-02-19 2014-10-28 Paata Dzigava Flooring devices, systems, and methods thereof
US9180575B1 (en) 2010-11-16 2015-11-10 Paata Dzigava Systems and methods for constructing mosaic wood flooring panels and/or more complex mosaic wood structures

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