US2177264A - Building construction - Google Patents

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US2177264A
US2177264A US194019A US19401938A US2177264A US 2177264 A US2177264 A US 2177264A US 194019 A US194019 A US 194019A US 19401938 A US19401938 A US 19401938A US 2177264 A US2177264 A US 2177264A
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slab
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construction
members
slabs
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Relihan John Joseph
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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
    • E04B5/32Floor structures wholly cast in situ with or without form units or reinforcements
    • E04B5/36Floor structures wholly cast in situ with or without form units or reinforcements with form units as part of the floor
    • E04B5/38Floor structures wholly cast in situ with or without form units or reinforcements with form units as part of the floor with slab-shaped form units acting simultaneously as reinforcement; Form slabs with reinforcements extending laterally outside the element
    • E04B5/40Floor structures wholly cast in situ with or without form units or reinforcements with form units as part of the floor with slab-shaped form units acting simultaneously as reinforcement; Form slabs with reinforcements extending laterally outside the element with metal form-slabs
    • 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

  • This invention relates to building construction and more parti cularly to roof and floors made of reinforced plastic material, such as gypsum, concrete and the like.
  • An object of the invention is to provide a roof or floor of gypsum, concrete, or other plastic material, composed of a plurality of individual or pre-forrned reinforced slabs having transverse and longitudinal reinforcing members individual to each slab, the longitudinal reinforcing members being ing, which ma shop welded to a structural bind-- y in turn be field welded to the a structural binding to be used.
  • a further object is to provide a roof or floor construction h flush with the aving a top surface substantially top flange members of the supporting structure; reducing the weight and bulk of material req bridge type of russiad, and utilizing the suspension design.
  • a further object is toprovide a pre-cast roof or floor slab of novel construction.
  • a further object is to provide a pre-cast roof or floor slab ha by material may be poured through said openings ving core holes or openings-where to bind the slabs together, to form the fire proofing for the supporting members, and to bind all parts together as a monolithic structure similar and the claims Eight figures have been used invention.
  • Figures 1 an I to illustrate the d 2 are plan and sectional elevation views respectively of a portioniof roof or floor construction utilizing pre-cast slabs and constructed according to the invention herein described.
  • Figures 3 and 4 are'sections taken from Figure 1 at A-A and BB respectively, showing the pre-cast slabs adjusted to the supporting mem bers and the methods used'forpouring the fire proofing in place around the supporting members:
  • Figure 5 is a section generally similar to Fig- ..ures 3 and '4 butshowinghow the construction might be varied to utilize pre-cast haunch, sofiit or shoe pieces.
  • Figure 6 shows a slab section similar to that of Figure 2. but h 3 ends.
  • Figures 7 and 8 illustrate how shop prepared longitudinal reinforcing members may be utilized in poured-in-place roof or deck construction; Figure 7 being a sectional elevation view across several supporting members, and Figure 8 being a detail view at one terminal support member.
  • Figures 1 to 4 inclusive applicant shows a type of monolithic roof or floor construction composed of a plurality of individual pre-cast slabs according to the present invention.
  • the pre-cast slabs are preferably made in permanent molds in a central plant, and are stored or shipped to a point of use.
  • a structural binding 2 here conveniently shown as a 2 bar, is cut to length, and longitudinal reinforcing bars or mesh 3, are Welded to it as at 4.
  • the welded assembly is then placed in 'a mold and the reinforcing members 3 are given a desired tension.
  • the reinforcing is preferably deflected by a lateral reinforcing bar 5.
  • Spacing wires 6, may be used if desired to holdthe longitudinal reinforcing members .in location.
  • The. mold may be proportioned or dimensioned to meet any particular requirement desired. It may for instance be shaped to have a low point at the center of the slab, giving a slab as shown in Figure 6, having a thicker central section than ends, and allowing thereby for a greater deflection of the reinforcing material, with a consequent lightening of the slab as a whole.
  • Themold will usually be provided with off-set side walls, allowing for slabs having corresponding off-set sides which may be overlapped on installation.
  • the structural binding may be formed with openings or cut-outs in its lower portion and in the casting process, cores may be inserted in the mold over and around said openings leaving holes- I, in the finished cast slabs.
  • this flange 9 rests on the top flange of the supporting structural member and is preferably welded to it by welds Ill.
  • welds Ill The number and type of. welds will depend on the service the floor or roof is required to render as well as upon the thickness or quality of the reinforcing or structural binding for the pre-cast slabs. In some instances no welding at all is required in the field.
  • the welding joins the reinforcing-of the slabs integrally with the building steel, and when the building steel has been fire proofed as hereinafter explained a rigid monolithic structure results.
  • Applicants method utilizes the strength of the reinforcing members to a high degree and hence allows for a lighter and less bulky floor or roof construction.
  • the floor or roof surfaces are substantially flush with the tops of the supporting structures and only a very thin surface flooring or decking is necessary for the finished job.
  • An advantage of applicants method of deck construction is that the deck may be quickly laid with pre-cast slabs, affording a substantial temporary floor capable of withstanding all usual construction loads conveniently and without danger to workmen, even before the welding of the slab binders or the placing of the filler grout is completed.
  • a light form ll of either temporary or permanent construction, may be held in place around the support beams 8, by wires I2, while flreproofing material is poured around them through the openings i left in the slabs.
  • This fireproofing fills the form H establishing the soffit and haunches on the supporting members and integrally binding same with the slabs proper.
  • Additional grout or filler is poured into the lap joints between the slabs, binding these together and forming a complete rigid, monolithic floor such as is obtained by a poured-in-place construction, but with considerably less material and labor cost.
  • pre-cast haunches I3, and shoe tiles l6 may be used as shown in Figure 5.
  • the pre-cast slabs may be made without the openings 7. It is still desirable to weld the slab flanges to the supporting beam as at ill in Figures 1 to4.
  • a secondary reinforcing member M is fastened to'the lower edge of the slab binding, as by Welding, and is anchored in the plastic material away from the slab ends as at I5. This member prevents the slab binding from rotating about an axis in its upper edge and insures a rigid floor member.
  • a pre-cast deck slab comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, and longitudinally disposed reinforcing members welded to said end binders and cast in position by a concrete-like filler.
  • a pre-cast deck slab comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, and longitudinally disposed reinforcing members welded to the upperportion of said end binders, deflected downwardly toward the lower mid section of the slab, and cast under tension in said position.
  • a pre-cast deck slab comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, longitudinally material providing supports for the slab.
  • the upper flanges of the supporting girders longitudinally disposed'reinforcing members welded to the upper portions of said end binders and embedded in said concretelike material, and core holes through said slabs near said end binders, said core holes being of ample size and appropriate location. for receiving and passing fillerjmaterialfor poured in place soflit and haunoh material.
  • a rigid monolithic fireproof deck construction comprising metallic supports having upper flange sections, a pre-cast deckslab, of concretelike material comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab'material, having longitudinally disposed reinforcing members welded to the end binders and embedded in the concrete-like material and having core holes through it near said end binders, said slab bridging the metallic supports, the flanges of the slab binders being welded to the flanges of the supporting members, and fireproofing for the support members surrounding same and filling the holes in the pre-cast slab.
  • a rigid monolithic fireproof deck construction comprising spaced supporting members having upper surfaces substantially at the finished deck level, a pre-cast deck slab, of concrete-like material comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, having longitudinally disposed reinforcing members welded to the end binders and embedded in the concrete-like material and having core holes in the slabs near the end binders, said slab bridging the supporting members, the flanges of said pre-cast slabs resting on the upper surfaces of said supporting members, and fireproofing for the supporting members surrounding same and filling the holes in the pre-cast slab.
  • a rigid deck construction comprising spaced structural metallic supports having upper surfaces substantially at the finished deck level, a pre-cast reinforced deck slab of concrete-like material having structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, said slab bridging the metallic supports, the flanges of the metallic end binders of the pre-cast slab being welded to the upper surfaces of the supporting members.
  • a deck construction comprising spaced supporting members having upper surfaces substantially at the finished deck level, a pre-cast deck slab of concrete-like material having metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, longitudinally disposed reinforcing members welded to the upper portions of the end binders and embedded in said slab, other reinforcing members between the lower edges of the end binders and the interior of the slab material, said slab bridging said supporting members, the flanges of the slab resting on the upper surfaces of the supporting members.
  • a rigid fireproof deck construction comprising spaced supporting members having upper surfaces substantially at the finished deck level, a pre-cast deck slab of concrete-like material having metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, longitudinally disposed reinforcing members welded to the upper portions of the end binders and embedded in said slab, other reinforcing members between the lower edges of the end binders and the in terior of the slab material, said slab bridging, said supporting members, the flanges of the slab resting on the upper surfaces of the supporting members, fireproofing surrounding the supporting members and slab end binders and a finish surface over the slab and support members.
  • a pre-cast deck slab of concrete-like material comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, longitudinally disposed reinforcing members welded to the upper portion of said end binders, deflected downwardly near the mid portion of the slab and cast under tension in said position, the thickness of the slab at the mid-section being substantially greater than at the binding ends.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Building Environments (AREA)

Description

J. J. RELIHAN BUILDING CONSTRUCTION 2 Sheets-Sheet 1 Filed March 5, 1938 FIG. 4
-FIG.
INVENTOR. JOHN J REA/H6 0 BY {4 M44 TM FIG5 ATTORNEYS.
Oct} 24, 1939. J, J: RELIHAN 2,177,254
BUILDING CONSTRUCTION Filed March 5, 195B 2 Sheets-Sheet 2 FIG 8 INVEVTOR. JGHN J FH/HHN ATTORNEYS.
Patented Oct. 24, 1939 1 UNITED STATES; PATENT OFFICE amest T v BUILDING CONSTRUCTION John Joseph Relihan, Fairfie ld, Conn. Application March 5, 1938, Serial No; 194,019
10 clai s.
This invention relates to building construction and more parti cularly to roof and floors made of reinforced plastic material, such as gypsum, concrete and the like. i
An object of the invention is to provide a roof or floor of gypsum, concrete, or other plastic material, composed of a plurality of individual or pre-forrned reinforced slabs having transverse and longitudinal reinforcing members individual to each slab, the longitudinal reinforcing members being ing, which ma shop welded to a structural bind-- y in turn be field welded to the a structural binding to be used.
in poured-inplace construction.
A further object is to provide a roof or floor construction h flush with the aving a top surface substantially top flange members of the supporting structure; reducing the weight and bulk of material req bridge type of uired, and utilizing the suspension design.
A further object is toprovide a pre-cast roof or floor slab of novel construction.
A further object is to provide a pre-cast roof or floor slab ha by material may be poured through said openings ving core holes or openings-where to bind the slabs together, to form the fire proofing for the supporting members, and to bind all parts together as a monolithic structure similar and the claims Eight figures have been used invention.
Figures 1 an I to illustrate the d 2 are plan and sectional elevation views respectively of a portioniof roof or floor construction utilizing pre-cast slabs and constructed according to the invention herein described.
Figures 3 and 4 are'sections taken from Figure 1 at A-A and BB respectively, showing the pre-cast slabs adjusted to the supporting mem bers and the methods used'forpouring the fire proofing in place around the supporting members:
Figure 5 is a section generally similar to Fig- ..ures 3 and '4 butshowinghow the construction might be varied to utilize pre-cast haunch, sofiit or shoe pieces.
Figure 6 shows a slab section similar to that of Figure 2. but h 3 ends.
aving a thicker mid section than Figures 7 and 8 illustrate how shop prepared longitudinal reinforcing members may be utilized in poured-in-place roof or deck construction; Figure 7 being a sectional elevation view across several supporting members, and Figure 8 being a detail view at one terminal support member.
In the drawings similar numerals designate like parts.
In Figures 1 to 4 inclusive applicant shows a type of monolithic roof or floor construction composed of a plurality of individual pre-cast slabs according to the present invention. The pre-cast slabs are preferably made in permanent molds in a central plant, and are stored or shipped to a point of use.
In making the slabs I, a structural binding 2, here conveniently shown as a 2 bar, is cut to length, and longitudinal reinforcing bars or mesh 3, are Welded to it as at 4. The welded assembly is then placed in 'a mold and the reinforcing members 3 are given a desired tension. The reinforcing is preferably deflected by a lateral reinforcing bar 5. Spacing wires 6, may be used if desired to holdthe longitudinal reinforcing members .in location. When the reinforcing members are adequately placed and tensioned the mold is filled with the plastic floor or roof material. After the material has set the tensionin the reinforcing bars is maintained by the welding at the end bindings and by the hardened filler material.
The. mold may be proportioned or dimensioned to meet any particular requirement desired. It may for instance be shaped to have a low point at the center of the slab, giving a slab as shown in Figure 6, having a thicker central section than ends, and allowing thereby for a greater deflection of the reinforcing material, with a consequent lightening of the slab as a whole. Themold will usually be provided with off-set side walls, allowing for slabs having corresponding off-set sides which may be overlapped on installation.
. The structural binding may be formed with openings or cut-outs in its lower portion and in the casting process, cores may be inserted in the mold over and around said openings leaving holes- I, in the finished cast slabs.
While the structural binding is shown in the drawings as a Z bar it will be understood that applicant does not wish to limit his invention thereby, as any binding serving a similar purpose will be equally satisfactory. Applicant prefersia binding which when used in conjunction with the finished pre-cast slab will afford a flange 9, at, each end of said slab, substantially flush with the top of the slab.
On installation this flange 9, rests on the top flange of the supporting structural member and is preferably welded to it by welds Ill. The number and type of. welds will depend on the service the floor or roof is required to render as well as upon the thickness or quality of the reinforcing or structural binding for the pre-cast slabs. In some instances no welding at all is required in the field.
The welding joins the reinforcing-of the slabs integrally with the building steel, and when the building steel has been fire proofed as hereinafter explained a rigid monolithic structure results. Applicants method utilizes the strength of the reinforcing members to a high degree and hence allows for a lighter and less bulky floor or roof construction. The floor or roof surfaces are substantially flush with the tops of the supporting structures and only a very thin surface flooring or decking is necessary for the finished job.
An advantage of applicants method of deck construction is that the deck may be quickly laid with pre-cast slabs, affording a substantial temporary floor capable of withstanding all usual construction loads conveniently and without danger to workmen, even before the welding of the slab binders or the placing of the filler grout is completed. I
When the slabs have been placed on their supporting members and welded as heretofore explained, a light form ll, of either temporary or permanent construction, may be held in place around the support beams 8, by wires I2, while flreproofing material is poured around them through the openings i left in the slabs. This fireproofing fills the form H establishing the soffit and haunches on the supporting members and integrally binding same with the slabs proper. Additional grout or filler is poured into the lap joints between the slabs, binding these together and forming a complete rigid, monolithic floor such as is obtained by a poured-in-place construction, but with considerably less material and labor cost. I
Where it is desirable not to pour the haunches and soiflt in place around the supporting beams, pre-cast haunches I3, and shoe tiles l6 may be used as shown in Figure 5. In such instances the pre-cast slabs may be made without the openings 7. It is still desirable to weld the slab flanges to the supporting beam as at ill in Figures 1 to4.
Where neither pouring of soffit and haunches in place nor welding in the field is desired applicant has provided a pre-cast 'slab of slightly different construction. A secondary reinforcing member M, Figure 5, is fastened to'the lower edge of the slab binding, as by Welding, and is anchored in the plastic material away from the slab ends as at I5. This member prevents the slab binding from rotating about an axis in its upper edge and insures a rigid floor member.
' The lap joints between adjacent slabsare filled as usual when the top floor is placed. Secondary reinforcing bars may be of any style other than that described, their function beingto prevent the lower ends of the slab binding from spreading in use. Such spreading obviously cannot oc-- our when the binding is welded to the building frame or when the soflit and haunches are poured in place.
In Figures '7 and 8 applicant has shown how a prerwelded frame may be used for pouredin-place roof and floor construction. By this method forms I8 are built around the supporting members 8 as in usual practice. The reinforcing is supplied in rolls from a central plant, each roll comprising end binders [9 shop welded to the reinforcing wires l l. Spacing wires may be used as in Figure 1, or a wire mesh may serve as the reinforcing member. On installation the end binders [9 are field welded or otherwise fastened to the top flanges of the supporting members 8; the longitudinal reinforcing members if are put in tension and tied down by cross members 5 to the forms l8, and the floor or roof is poured in place as by usual construction methods.
Having thus described his invention anti iii. whatmanner it may be carried out applicant requests that United States Letters Patent be granted to him for all that is claimed.
I claim:
1. A pre-cast deck slab comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, and longitudinally disposed reinforcing members welded to said end binders and cast in position by a concrete-like filler.
'2. A pre-cast deck slab comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, and longitudinally disposed reinforcing members welded to the upperportion of said end binders, deflected downwardly toward the lower mid section of the slab, and cast under tension in said position.
3. A pre-cast deck slab comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, longitudinally material providing supports for the slab. by en I gagement in use with, the upper flanges of the supporting girders, longitudinally disposed'reinforcing members welded to the upper portions of said end binders and embedded in said concretelike material, and core holes through said slabs near said end binders, said core holes being of ample size and appropriate location. for receiving and passing fillerjmaterialfor poured in place soflit and haunoh material. r 5. A rigid monolithic fireproof deck construction comprising metallic supports having upper flange sections, a pre-cast deckslab, of concretelike material comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab'material, having longitudinally disposed reinforcing members welded to the end binders and embedded in the concrete-like material and having core holes through it near said end binders, said slab bridging the metallic supports, the flanges of the slab binders being welded to the flanges of the supporting members, and fireproofing for the support members surrounding same and filling the holes in the pre-cast slab.
6. A rigid monolithic fireproof deck construction comprising spaced supporting members having upper surfaces substantially at the finished deck level, a pre-cast deck slab, of concrete-like material comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, having longitudinally disposed reinforcing members welded to the end binders and embedded in the concrete-like material and having core holes in the slabs near the end binders, said slab bridging the supporting members, the flanges of said pre-cast slabs resting on the upper surfaces of said supporting members, and fireproofing for the supporting members surrounding same and filling the holes in the pre-cast slab.
7. A rigid deck construction comprising spaced structural metallic supports having upper surfaces substantially at the finished deck level, a pre-cast reinforced deck slab of concrete-like material having structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, said slab bridging the metallic supports, the flanges of the metallic end binders of the pre-cast slab being welded to the upper surfaces of the supporting members.
8. A deck construction comprising spaced supporting members having upper surfaces substantially at the finished deck level, a pre-cast deck slab of concrete-like material having metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, longitudinally disposed reinforcing members welded to the upper portions of the end binders and embedded in said slab, other reinforcing members between the lower edges of the end binders and the interior of the slab material, said slab bridging said supporting members, the flanges of the slab resting on the upper surfaces of the supporting members.
9. A rigid fireproof deck construction comprising spaced supporting members having upper surfaces substantially at the finished deck level, a pre-cast deck slab of concrete-like material having metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material, longitudinally disposed reinforcing members welded to the upper portions of the end binders and embedded in said slab, other reinforcing members between the lower edges of the end binders and the in terior of the slab material, said slab bridging, said supporting members, the flanges of the slab resting on the upper surfaces of the supporting members, fireproofing surrounding the supporting members and slab end binders and a finish surface over the slab and support members.
10. A pre-cast deck slab of concrete-like material comprising structural metallic end binders terminating in outwardly extending flanges substantially flush with the top surface of the slab material providing supports for the slab by engagement in use with the upper flanges of the supporting girders, longitudinally disposed reinforcing members welded to the upper portion of said end binders, deflected downwardly near the mid portion of the slab and cast under tension in said position, the thickness of the slab at the mid-section being substantially greater than at the binding ends.
JOHN JOSEPH RELII-IAN.
US194019A 1938-03-05 1938-03-05 Building construction Expired - Lifetime US2177264A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2466106A (en) * 1944-03-02 1949-04-05 Hoge Edward Clyde Preformed slab structures
US3182423A (en) * 1963-02-13 1965-05-11 Pacific Vegets Le Oil Corp Erecting partition walls
US3216156A (en) * 1963-04-08 1965-11-09 Carew Steel Co Flexible and extensible building wall constructions
US3216163A (en) * 1963-03-21 1965-11-09 Howard J Carew Integrated building framing and floor therefor
US4261147A (en) * 1978-09-21 1981-04-14 Agsten Carl F Hyperbolic natural draft cooling tower construction
CN102433959A (en) * 2011-08-30 2012-05-02 张吉华 Prefabricated reinforced concrete structure girder for fabricated building construction

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2466106A (en) * 1944-03-02 1949-04-05 Hoge Edward Clyde Preformed slab structures
US3182423A (en) * 1963-02-13 1965-05-11 Pacific Vegets Le Oil Corp Erecting partition walls
US3216163A (en) * 1963-03-21 1965-11-09 Howard J Carew Integrated building framing and floor therefor
US3216156A (en) * 1963-04-08 1965-11-09 Carew Steel Co Flexible and extensible building wall constructions
US4261147A (en) * 1978-09-21 1981-04-14 Agsten Carl F Hyperbolic natural draft cooling tower construction
CN102433959A (en) * 2011-08-30 2012-05-02 张吉华 Prefabricated reinforced concrete structure girder for fabricated building construction

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