USRE18304E - A partnership composed op jay c - Google Patents

A partnership composed op jay c Download PDF

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USRE18304E
USRE18304E US18304DE USRE18304E US RE18304 E USRE18304 E US RE18304E US 18304D E US18304D E US 18304DE US RE18304 E USRE18304 E US RE18304E
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rails
poured
bars
roof
forms
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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
    • E04B5/16Load-carrying floor structures wholly or partly cast or similarly formed in situ
    • E04B5/17Floor structures partly formed in situ
    • E04B5/23Floor structures partly formed in situ with stiffening ribs or other beam-like formations wholly or partly prefabricated
    • E04B5/29Floor structures partly formed in situ with stiffening ribs or other beam-like formations wholly or partly prefabricated the prefabricated parts of the beams consisting wholly of metal

Definitions

  • My invention relates to construction of roofs and floors of monolithic character, particularly where poured from gypsum plaster, or like light weight ceramic product.
  • Figure 1 is a perspective of the form work for my new structure.
  • Figure 2 is a like view of the poured slab.
  • Figure 3 is a cross section of the poured slab before the under form is removed.
  • 1 are the channels of a building, typifying whatever structural metal girders, beams or trusses that may be used in the roof or floor.
  • planks may be built up, as has been my practice in boards of three planks each battened together, sufficient boards being used to span the beams.
  • the forms are suspended from the rails by means of suitable ties, such as wire ties 7, and the space between the structural beams is closed off, so as to permit of supporting the poured cement.
  • the battens are set beneath the rails and holes bored in the planks through which the wire ties may pass, so that the Wires pass around the battens.
  • the next step is to layin the mesh. This isdone by l0oping some suitableopen-work metal structure crosswise of the rails. have shownpartially diagrammatically, the wire mesh 8.
  • the rail form of cross support is preferred because of the double channel form, providing for a keying in of the poured plaster or cement body.
  • the cement 10 which preferably will be As an illustration, I
  • the slab should come above the tops of the'rails to thoroughly embed the mesh.
  • the rails lie direct on the beams or trusses, and the wire'meshforms deep arches in support across the rails, "so that to a very large degree there is no strain left on the poured plaster element of the slab.
  • a roof or floorstructure comprising in combination with interspaced girders, interspaced supporting bars disposed crosswise on v the girders and mounted thereon, with rounded upper portions, reinforcing metal disposed across. between the bars, said metal disposed over the rounded upper portions of the bars and extending in concave arch formations between the bars, and poured cementitious material enclosing the reinforcing metal and forming with respect to the lower surfaces of the interspaced bars an unbroken under surface for the structure.
  • a roof or floor structure comprising in combination with interspaced girders, interspaced supporting bars disposed crosswise on the girders and .mounted thereon, with rounded upper portions, reinforcingcmetal disposed across between the bars, said metal disposed on, but not secured to the bars, and saidmetalextending loosely in concave arch formations between the bars, and poured cementitious material completely enclosing the bars and formingwith respect to the lower surfaces of the interspaced bars an unbroken under surface for the structure.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Floor Finish (AREA)

Description

Dec. 29, 1931. E. c. HOGE Re. 18,304
' RQOF AND FLOOR CONSTRUCTION Origihal Filed Feb. 19, 1924 INVENTOR. EM ez a ATTORNEYS Reissuecl Dec. 29, 1931 UNITED STATES PATENT OFFICE EDWARD CLYDE EDGE, OF CINCINNATI, OHIO, ASSIGNOR TO LATHROIP-HOGE CONSTRUG- TION COMPANY, OF CINCINNATI, OHIO, A PARTNERSHIP COMPOSED OF JAY G.
ROOF AND FLOOR CONSTRUCTION Original No. 1,814,387, dated July 14, 1931, Serial No; e93,ss4, filed February 19, 1924. Application for reissue filed. November 6, 1931. Serial No. 573,487.
My invention relates to construction of roofs and floors of monolithic character, particularly where poured from gypsum plaster, or like light weight ceramic product.
In my Patent No. 1,464,? 11, dated August 4th, 1923, I show and describe a floor and roof construction wherein a sheet of composition board is employed as a permanent under support for the poured cementitious body of the roof or floor, said plaster board being mounted on the bases of metal rails.
It is my object in the present invention to obtain like advantages in metallic reinforcement and support of a poured gypsum plaster construction, but to use a removable form as a support. The structure made according to the new invention, has greater depth than the first form devised by me, as set forth in said patent, and in addition the rails are or may be entirely enclosed in a body of plaster, while the reinforcing arch of wire mesh, rods or expanded metal that is supported across the rails is deeper in its supporting arch. The removable supports are not destroyed with use, and can be used over again, and in avoiding the use of plaster board, I eliminate the necessity of care and attention in handling of this form of floor and roof support. That is to say, there is eliminated the chance of breakage of the composition board, since the use of the same is done away with, Without any disadvantageous results.
I accomplish my objects, which generally speaking are the advantageous features of my former invention, applied to other than a composition board supported structure, by that certain construction and arrangement of parts to be hereinafter more specifically pointed out and claimed.
In the drawings: Figure 1 is a perspective of the form work for my new structure.
Figure 2 is a like view of the poured slab.
Figure 3 is a cross section of the poured slab before the under form is removed.
Referring to the illustrated embodiment of my invention, 1 are the channels of a building, typifying whatever structural metal girders, beams or trusses that may be used in the roof or floor.
else the planks may be built up, as has been my practice in boards of three planks each battened together, sufficient boards being used to span the beams.
Whatever form of support is used, the forms are suspended from the rails by means of suitable ties, such as wire ties 7, and the space between the structural beams is closed off, so as to permit of supporting the poured cement.
If boards made up of planks and battens are used, the battens are set beneath the rails and holes bored in the planks through which the wire ties may pass, so that the Wires pass around the battens.
When the forms are set up, the next step is to layin the mesh. This isdone by l0oping some suitableopen-work metal structure crosswise of the rails. have shownpartially diagrammatically, the wire mesh 8.
This metal structure of rails running one way of the beams, and wire mesh in arches transverse the rails, gives excellent support, and the use of rails is preferred for one reason, because the'tops or balls are rounded and do not tend to shear the wire mesh, when subjected to strain.
Furthermore the use ofthe rail form of cross support is preferred because of the double channel form, providing for a keying in of the poured plaster or cement body.
I prefer to further increase the keying in,
by so arranging the ties, for the forms, that they are suspended below the rails. In Figure 3 I have illustrated small blocks 9 set beneath the rails to steady the forms, when same are suspended below the rails.
The cement 10, which preferably will be As an illustration, I
of gypsum plaster, because of its light weight, is poured into the form so built up, andwill flow entirel around the rails, being held by the suspen ed under forms. Pref- 5 erably the slab should come above the tops of the'rails to thoroughly embed the mesh.
When the structure is poured the lower forms are removed by cutting the wire lying I beneath the battens, whereupon the -v formsv Will drop away.
In building the roof orfloor, the operators can walk about more freely Where'the' under form is removable, as compared to the V instance in which plasterboard is mounted on the bases of the rails, since there is no danger of vstepping onto the under forms, and no likelihood of breakage of the under forms. Also many prefer a ceiling which I does not show the plasterboard forms interspaced by the rails. L,
Y The rails lie direct on the beams or trusses, and the wire'meshforms deep arches in support across the rails, "so that to a very large degree there is no strain left on the poured plaster element of the slab.
Having thus described one illustrative embodiment of .my invention, what I claim as new and desire to secure by Letters Pat- 7 ent, is': u a 1. A roof or floorstructure comprising in combination with interspaced girders, interspaced supporting bars disposed crosswise on v the girders and mounted thereon, with rounded upper portions, reinforcing metal disposed across. between the bars, said metal disposed over the rounded upper portions of the bars and extending in concave arch formations between the bars, and poured cementitious material enclosing the reinforcing metal and forming with respect to the lower surfaces of the interspaced bars an unbroken under surface for the structure.
'2. A roof or floor structure comprising in combination with interspaced girders, interspaced supporting bars disposed crosswise on the girders and .mounted thereon, with rounded upper portions, reinforcingcmetal disposed across between the bars, said metal disposed on, but not secured to the bars, and saidmetalextending loosely in concave arch formations between the bars, and poured cementitious material completely enclosing the bars and formingwith respect to the lower surfaces of the interspaced bars an unbroken under surface for the structure.
EDWARD CLYDE HOGrE.
US18304D A partnership composed op jay c Expired USRE18304E (en)

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