US2218705A - Method of building construction - Google Patents
Method of building construction Download PDFInfo
- Publication number
- US2218705A US2218705A US180512A US18051237A US2218705A US 2218705 A US2218705 A US 2218705A US 180512 A US180512 A US 180512A US 18051237 A US18051237 A US 18051237A US 2218705 A US2218705 A US 2218705A
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- Prior art keywords
- formwork
- supporting
- mold
- members
- structural
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-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G11/00—Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs
- E04G11/36—Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces end formpanels for floor shutterings
- E04G11/40—Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces end formpanels for floor shutterings for coffered or ribbed ceilings
- E04G11/42—Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces end formpanels for floor shutterings for coffered or ribbed ceilings with beams of metal or prefabricated concrete which are not, or of which only the upper part is embedded
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G17/00—Connecting or other auxiliary members for forms, falsework structures, or shutterings
- E04G17/18—Devices for suspending or anchoring form elements to girders placed in ceilings, e.g. hangers
Definitions
- This invention relates to improved methods of building construction.
- this invention relates to improvements in mold-structures, bracing, or other formwor'k incident to the construction or formation of a concrete, masonry or equivalent floor or ceiling structure and to improvements in means for supporting such formwork, the supporting means simplifying the stated formwork and the positioning and demo-unting thereof with respect to beams or other floor or ceiling sup-porting elements.
- the mold or formwork adaptable for receiving fluid structural material or for supporting masonry units and the like from which the floor or roof structure'is to be formed, may consist of sheets of plywood, composition board or like material, resting upon suitableb'ridgememe bers, the latter being'arranged longitudinally or transversely with 'respectto the beams, as preferred, and supported with respect thereto in novel manner.
- bridgemember supporting devices may be brought out of load-supporting position by moving such devices transversely of the stated formwork-supporting bridge members.
- the mold structure or formwork may :be removably, but firmly, supported in exact relationship to the floor or ceiling supporting structure and held in such relationship during the stage of floor or ceiling construction, upon completion of which, the bridge support of such formwork may be removed from beneath, permitting the formwork to drop away from the under side of the then formed floor or ceiling structure.
- the stated supporting beams or equivalent are of concrete or equivalent moldable material.
- Such material lends itself to casting processes, the casting mold for which may include elements later adaptable to provide for the support, accurate positioning, and subsequent ready removal of the stated bridge supporting devices.
- Fig. l is a perspective of a beam-forming mold of. indeterminate length, concrete having been poured into such mold;
- Fig; 2 isa section through 2-2 of Fig. 1 showing the mold structure in elevation, and additionally showing the through-bolt receiving sleeves;
- Fig. 3 shows, in end section, two pre-cast' rloor beams supporting formwork, such as floor-forming molds, pursuant to the present invention
- Fig. 4 shows a portion of the completed floor and its juncture withthe pre-cast beams
- FIG. 5 is a plan view, showing a second method of supporting the formwork on .pre-fabricated supporting beams.
- a floor or ceiling supporting structural memberin the present instance a concrete load-carrying ,beam I0- may be formed by pouring concrete into a demountable mold ll, formed of preferably commercial 1Q sizes of structural steel channels l2, I3 placed back to back to form sides, and spaced by the inverted channel M, the web of which forms the bottom of the mold; End plates, one shown at l5, Fig. 1, may be suitably secured to the channels.
- the webs lZa, l3a of channels 12 and I3 are drilled at suitable locationsnear the bottom flanges thereof, and also, at spaced locations which may be established in conformity with such factors as beam size and load, intermediate to the top flanges [2b, [3b, and the surface of inverted channel l4.
- through-bolts I6, Ifia are employed.
- a series of bolts [6 pass through the flanges of the inverted bottom-forming channel M, and are, therefore, not in the concrete-receiving space.
- the upper bolts, lfia,' pass through sleeves II, which may be made of legnths of pipeor equivalent compression-re- 5 sistant tubing, cut with square ends, and equal in length. to' the ultimate desired thickness of the beam.
- the inner diameter of sleeves II should permit the easy passage of the bolts Ilia without,
- the assembled mold H is a structure of substantial strength and rigidity, having smooth, preferably vertical sidewalls held in definitely spaced relationship by the continuous channel I4 and the sleeves I1.
- Suitable metallic reinforcement members l8, Fig. 2 may be employed in the customary manner to strengthen the beam structure, with additional reinforcement, as 19, carried around the mem- 5Q bers It, as shown, and projecting above the upper surface of the beam to aid in making a mechanically sound bond with the super-structure.
- additional reinforcement as 19, carried around the mem- 5Q bers It, as shown, and projecting above the upper surface of the beam to aid in making a mechanically sound bond with the super-structure.
- the mold may be dismounted by removing the bolts.
- the sleeves I! remain immovably embedded in the concrete and form spaced, horizontal passages through the beam, useful for supporting, in definite relationship therewith, a floor-forming mold for poured concrete construction, as presently described, or equivalent structural formwork.
- preferably includes longitudinally arranged side pieces 24, 25, bridged by central member 26, of suitable area and strength. The three elements may be arranged in step formation, as shown. Preferably, the edges of the member 26 are bevelled to insure the ready release of the floorforming mold from the hardened concrete.
- the member 26 may be rigidly and permanently secured, as by nailing, to one of the side pieces, such as 24. Nails, 28, are indicated in Fig. 3.
- the other side piece, 25, is preferably not permanently secured, to make the span of the members 26, 24, 25 adjustable to the spacing of the beams H1.
- the side pieces 24, 25 may thus be brought into contact with the sides of the beams Ill and a tight joint made at each. After so positioning the side piece 25, it may be lightly nailed to the member 26, as shown.
- or equivalent formwork may be supported directly on the pins 23; however, it is preferred to use auxiliary members, as 22, Fig. 3, or 21, Fig. 5, for carrying the formwork.
- the members 22 may be lengths of wood or metal, of suitable width and adequate length to reach from sidewall to sidewall of adjacent beams, slight clearance between the ends of such members 22 and the beam sidethereon so as to be longitudinally arranged with 'respectto the beams.
- rests directly upon the supporting members, and need not be nailed or otherwise secured thereto.
- Wood being an otherwise satisfactory material for the formwork-supporting members 22, 21, suitable metallic facing may be employed in the area of contact of such members with the pins 23, to prevent crushing the surface of the members 22, 21 in the area of contact with the pins 23.
- the workman first places the pins 23 in proper position, and positions the supporting members 22 or 21 thereon.
- may then be laid on the respective supporting members. These operations may all be carried out by one or a pair of workers standing on the beams
- may be removed by the simple expedient of driving or knocking the pins 23 to one side, to deprive the mold structure of support and permit it to drop away from the underside of the floor or ceiling by its own weight.
- Such mold or formwork may be used repeatedly.
- bricks or tile includes any pre-fa'bricated blocks or areas of structural units which are per se of dimension insuflicient to reach from beam to beam, or column to column of the ultimate supporting structure, a plurality of such structural units thereby being necessary to span from one of such supporting structures to another, such units requiring external support during the laying or other assembly thereof into the ultimate fioor or ceiling structure.
- The" concrete beam It! has been used merely to exemplify a suitable supporting structural member.
- the invention may be used substantially as described in connection with vaulted floor or ceilings supported by vertical columns, the latter being provided with equivalent means for receiving pins 23 or equivalent. It will be understood also that beams having any desired web-section may be employed, in accordance with structural practice.
- the method of building construction which comprises positioning a plurality of rows of permanent load-carrying structural members in suitable spaced relationship, the structural members in each of said rows having transverse passages extending therethrough, placing a slidable supporting element within a desired number of said passages, said supporting elements having a length greater than the length of said passages and thereby projecting beyond the surface of the associated structural members on each side thereof, supporting rows of formwork between adjacent rows of said structural members by the projecting terminal ends of said slidable supporting elements, each of said elements thereby being adapted to support formwork disposed on each side of the associated structural member, placing suitable building material on said formworks to effect a permanent structure spanning said rows of permanent structural members, and subsequently removingthe formwork of a particular row by sliding the supporting elements therefor inwardly of the associated structural members.
- the method of fabricating concrete structures comprising positioning a plurality of rows of permanent load-carrying structural members in mutually spaced relationship, said members being of substantial thickness in face toface dimension and having a plurality of passages of substantial length extending transversely through said structural members from face to face thereof, positioning within said passages slidable supporting elements having a length greater than the length of said passages but substantially less than the spacing between said rows of structural members, whereupon end portions of said slidable supporting elements project beyond the faces of the said permanent loadcarrying structural members, spanning adjacent load-carrying structural mem'bers with a formwork supported on the projecting end portions of said slidable elements, said formwork being adapted to support concrete structural materia prior to the solidification thereof into a selfsupporting structure, pouring concrete onto the said formwork, and subsequently removing the formwork by moving said projecting end portions of the slidable supporting elements to a position within the said passages.
- the method which comprises positioning a plurality of rows of permanent load-carrying structural members in-spaced relationship, each of said members being of substantial thickness in face to face dimension and having a passage of substantial length extending transversely thereinto, positioning within each said passage a slidable supporting element of substantial length, but of a length less than the spacing between adjacent rows of structural members, said supporting element projecting from the face of its associated structural member and arranged to be moved inwardly of said structural member to a position wherein the terminal end of said slidable element is substantially flush with the face of said member, spanning adjacent load-carrying permanent structural members with a formwork on which may be supported structural material incapable per se of self-support, said formwork beingsupported on the projecting end portions of said slidable elements, placing said structural material upon said formwork in a manner whereby said adjacent structural members may be joined by an eventually self-supporting structure, and subsequently removing said formwork from beneath, by moving said projecting end-portions of said slidable
Description
Oct. 22, 1940. FABER mm-aon 0F BUILDING CONSTRUCTION Filed Dec. 18, 1957 INVENTOR H15 dcRNEY 5 Hereri A. Fa
D|| m ,iggpz M Patented Oct. 22, 1940 UNITED 1 STATES ATENT OFFICE METHOD OF BUILDINGCONSTRUCTION Herbert Alfred Faber, Cincinnati, Ohio "A pplication December 18, 1937, Serial'No. 180,512
3 Claims. (01. 25-154) This invention relates to improved methods of building construction.
. More particularly, this invention relates to improvements in mold-structures, bracing, or other formwor'k incident to the construction or formation of a concrete, masonry or equivalent floor or ceiling structure and to improvements in means for supporting such formwork, the supporting means simplifying the stated formwork and the positioning and demo-unting thereof with respect to beams or other floor or ceiling sup-porting elements.
In this invention, the mold or formwork, adaptable for receiving fluid structural material or for supporting masonry units and the like from which the floor or roof structure'is to be formed, may consist of sheets of plywood, composition board or like material, resting upon suitableb'ridgememe bers, the latter being'arranged longitudinally or transversely with 'respectto the beams, as preferred, and supported with respect thereto in novel manner.
It is a feature of thisinvention that the bridgemember supporting devices may be brought out of load-supporting position by moving such devices transversely of the stated formwork-supporting bridge members.
It is yet another feature that the mold structure or formwork may :be removably, but firmly, supported in exact relationship to the floor or ceiling supporting structure and held in such relationship during the stage of floor or ceiling construction, upon completion of which, the bridge support of such formwork may be removed from beneath, permitting the formwork to drop away from the under side of the then formed floor or ceiling structure.
Desirably, the stated supporting beams or equivalent are of concrete or equivalent moldable material. Such material lends itself to casting processes, the casting mold for which may include elements later adaptable to provide for the support, accurate positioning, and subsequent ready removal of the stated bridge supporting devices.
In the. accompanying drawing:
Fig. l is a perspective of a beam-forming mold of. indeterminate length, concrete having been poured into such mold; v
Fig; 2 isa section through 2-2 of Fig. 1 showing the mold structure in elevation, and additionally showing the through-bolt receiving sleeves;
Fig. 3 shows, in end section, two pre-cast' rloor beams supporting formwork, such as floor-forming molds, pursuant to the present invention;
Fig. 4 shows a portion of the completed floor and its juncture withthe pre-cast beams;
- Fig. 5 is a plan view, showing a second method of supporting the formwork on .pre-fabricated supporting beams.
Referring to Figure 2, a floor or ceiling supporting structural memberin the present instance a concrete load-carrying ,beam I0-may be formed by pouring concrete into a demountable mold ll, formed of preferably commercial 1Q sizes of structural steel channels l2, I3 placed back to back to form sides, and spaced by the inverted channel M, the web of which forms the bottom of the mold; End plates, one shown at l5, Fig. 1, may be suitably secured to the channels. The webs lZa, l3a of channels 12 and I3 are drilled at suitable locationsnear the bottom flanges thereof, and also, at spaced locations which may be established in conformity with such factors as beam size and load, intermediate to the top flanges [2b, [3b, and the surface of inverted channel l4.
It is desirable that the latter drilling be accurately performed, and uniform in as many pairs of channels as are to be used in casting a plurality of beams I0.
In securing the various members forming the mold, and in conformity with its character as a demountable stlueture, through-bolts I6, Ifia are employed. As shown in Figure 2, a series of bolts [6 pass through the flanges of the inverted bottom-forming channel M, and are, therefore, not in the concrete-receiving space. The upper bolts, lfia,' pass through sleeves II, which may be made of legnths of pipeor equivalent compression-re- 5 sistant tubing, cut with square ends, and equal in length. to' the ultimate desired thickness of the beam. The inner diameter of sleeves II should permit the easy passage of the bolts Ilia without,
however, being of such large bore to permit skew- 40 ing or canting of the sleeves on tightening the bolts. The assembled mold H is a structure of substantial strength and rigidity, having smooth, preferably vertical sidewalls held in definitely spaced relationship by the continuous channel I4 and the sleeves I1.
Suitable metallic reinforcement members l8, Fig. 2, may be employed in the customary manner to strengthen the beam structure, with additional reinforcement, as 19, carried around the mem- 5Q bers It, as shown, and projecting above the upper surface of the beam to aid in making a mechanically sound bond with the super-structure. During the pouring of the concrete into the mold, the upper flanges 12b, I3b'act as depth-gaging means,
istics, obviously depend upon thestructural requirements of the building.
After the concrete has hardened, the mold may be dismounted by removing the bolts. The sleeves I! remain immovably embedded in the concrete and form spaced, horizontal passages through the beam, useful for supporting, in definite relationship therewith, a floor-forming mold for poured concrete construction, as presently described, or equivalent structural formwork.
To form a monolithic floor-slab 20, see Figs. 3 and 4, and to bond it to the beams I0, there may be employed a simple mold, as at 2|, Fig. 3, which may be formed principally of suitably sized pieces of plywood or similar material available in. smooth-surfaced, large sheets of suitable strength. Desirably, the floor section is thicker at the beams, as shown in Fig. 4, to bond with the beams H] at the top and sides thereof in accordance with good structural practice. To give this configuration, the floor-forming mold 2| preferably includes longitudinally arranged side pieces 24, 25, bridged by central member 26, of suitable area and strength. The three elements may be arranged in step formation, as shown. Preferably, the edges of the member 26 are bevelled to insure the ready release of the floorforming mold from the hardened concrete.
The member 26 may be rigidly and permanently secured, as by nailing, to one of the side pieces, such as 24. Nails, 28, are indicated in Fig. 3. The other side piece, 25, is preferably not permanently secured, to make the span of the members 26, 24, 25 adjustable to the spacing of the beams H1. The side pieces 24, 25 may thus be brought into contact with the sides of the beams Ill and a tight joint made at each. After so positioning the side piece 25, it may be lightly nailed to the member 26, as shown.
For supporting the mold or formwork on, and in proper relation to, the beams l0, there may advantageously be employed a plurality of steel or equivalent pins 23, of suitable diameter to pass. slidably, but not so loosely as to permit them to tip under load, through the sleeves H in the beams H], the length of the stated pins providing for suitable extension thereof at each side of a beam.
The mold 2| or equivalent formwork may be supported directly on the pins 23; however, it is preferred to use auxiliary members, as 22, Fig. 3, or 21, Fig. 5, for carrying the formwork. As indicated in Fig. 3, the members 22 may be lengths of wood or metal, of suitable width and adequate length to reach from sidewall to sidewall of adjacent beams, slight clearance between the ends of such members 22 and the beam sidethereon so as to be longitudinally arranged with 'respectto the beams.
The formwork 2| rests directly upon the supporting members, and need not be nailed or otherwise secured thereto.
Wood being an otherwise satisfactory material for the formwork-supporting members 22, 21, suitable metallic facing may be employed in the area of contact of such members with the pins 23, to prevent crushing the surface of the members 22, 21 in the area of contact with the pins 23.
In practicing this invention, the workman first places the pins 23 in proper position, and positions the supporting members 22 or 21 thereon. The mold or formwork 2| may then be laid on the respective supporting members. These operations may all be carried out by one or a pair of workers standing on the beams |0.
Upon completion of pouring and setting of concrete, asphalt or the like, or upon completion of laying bricks or tile to form the floor or ceiling structure, the mold or formwork 2| may be removed by the simple expedient of driving or knocking the pins 23 to one side, to deprive the mold structure of support and permit it to drop away from the underside of the floor or ceiling by its own weight. Such mold or formwork may be used repeatedly.
The term bricks or tile, above, includes any pre-fa'bricated blocks or areas of structural units which are per se of dimension insuflicient to reach from beam to beam, or column to column of the ultimate supporting structure, a plurality of such structural units thereby being necessary to span from one of such supporting structures to another, such units requiring external support during the laying or other assembly thereof into the ultimate fioor or ceiling structure.
The" concrete beam It! has been used merely to exemplify a suitable supporting structural member. The invention may be used substantially as described in connection with vaulted floor or ceilings supported by vertical columns, the latter being provided with equivalent means for receiving pins 23 or equivalent. It will be understood also that beams having any desired web-section may be employed, in accordance with structural practice.
Whereas I have described my invention by reference to specific forms thereof, it will be understood that many changes and modifications may be made without departing from the spirit of the invention.
I claim:
1. The method of building construction, which comprises positioning a plurality of rows of permanent load-carrying structural members in suitable spaced relationship, the structural members in each of said rows having transverse passages extending therethrough, placing a slidable supporting element within a desired number of said passages, said supporting elements having a length greater than the length of said passages and thereby projecting beyond the surface of the associated structural members on each side thereof, supporting rows of formwork between adjacent rows of said structural members by the projecting terminal ends of said slidable supporting elements, each of said elements thereby being adapted to support formwork disposed on each side of the associated structural member, placing suitable building material on said formworks to effect a permanent structure spanning said rows of permanent structural members, and subsequently removingthe formwork of a particular row by sliding the supporting elements therefor inwardly of the associated structural members.
2. The method of fabricating concrete structures, comprising positioning a plurality of rows of permanent load-carrying structural members in mutually spaced relationship, said members being of substantial thickness in face toface dimension and having a plurality of passages of substantial length extending transversely through said structural members from face to face thereof, positioning within said passages slidable supporting elements having a length greater than the length of said passages but substantially less than the spacing between said rows of structural members, whereupon end portions of said slidable supporting elements project beyond the faces of the said permanent loadcarrying structural members, spanning adjacent load-carrying structural mem'bers with a formwork supported on the projecting end portions of said slidable elements, said formwork being adapted to support concrete structural materia prior to the solidification thereof into a selfsupporting structure, pouring concrete onto the said formwork, and subsequently removing the formwork by moving said projecting end portions of the slidable supporting elements to a position within the said passages.
3. In the art of building construction, the method which comprises positioning a plurality of rows of permanent load-carrying structural members in-spaced relationship, each of said members being of substantial thickness in face to face dimension and having a passage of substantial length extending transversely thereinto, positioning within each said passage a slidable supporting element of substantial length, but of a length less than the spacing between adjacent rows of structural members, said supporting element projecting from the face of its associated structural member and arranged to be moved inwardly of said structural member to a position wherein the terminal end of said slidable element is substantially flush with the face of said member, spanning adjacent load-carrying permanent structural members with a formwork on which may be supported structural material incapable per se of self-support, said formwork beingsupported on the projecting end portions of said slidable elements, placing said structural material upon said formwork in a manner whereby said adjacent structural members may be joined by an eventually self-supporting structure, and subsequently removing said formwork from beneath, by moving said projecting end-portions of said slidable supporting elements to a position interiorly of said permanent load-carrying structural members, whereby the terminal portion of each said slidable elements is flush with the faceof its associated structural member.
HERBERT ALFRED FABER.
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US180512A US2218705A (en) | 1937-12-18 | 1937-12-18 | Method of building construction |
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US180512A US2218705A (en) | 1937-12-18 | 1937-12-18 | Method of building construction |
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US2218705A true US2218705A (en) | 1940-10-22 |
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US180512A Expired - Lifetime US2218705A (en) | 1937-12-18 | 1937-12-18 | Method of building construction |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3216157A (en) * | 1961-06-28 | 1965-11-09 | George S Pinter | Concrete structure and process for making same |
US3247635A (en) * | 1962-05-07 | 1966-04-26 | Bennett W Burns | Connection for abutting wood members |
US4905440A (en) * | 1988-01-14 | 1990-03-06 | Schilger Herbert K | Composite column or beam for building construction |
US6560938B1 (en) * | 1999-10-18 | 2003-05-13 | John Powers, Jr. | Box lintel |
US8056291B1 (en) * | 2007-10-12 | 2011-11-15 | The Steel Networks, Inc. | Concrete and light gauge cold formed steel building structure with beam and floor extending over a load bearing stud wall and method of forming |
US8074958B1 (en) | 2007-02-22 | 2011-12-13 | John Hoy | Lintel form for concrete and block constructions |
US20190127966A1 (en) * | 2017-11-01 | 2019-05-02 | Marlon Howard Stewart | Permanent forms for composite construction columns and beams and method of building construction |
US11459755B2 (en) * | 2019-07-16 | 2022-10-04 | Invent To Build Inc. | Concrete fillable steel joist |
-
1937
- 1937-12-18 US US180512A patent/US2218705A/en not_active Expired - Lifetime
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3216157A (en) * | 1961-06-28 | 1965-11-09 | George S Pinter | Concrete structure and process for making same |
US3247635A (en) * | 1962-05-07 | 1966-04-26 | Bennett W Burns | Connection for abutting wood members |
US4905440A (en) * | 1988-01-14 | 1990-03-06 | Schilger Herbert K | Composite column or beam for building construction |
US6560938B1 (en) * | 1999-10-18 | 2003-05-13 | John Powers, Jr. | Box lintel |
US8074958B1 (en) | 2007-02-22 | 2011-12-13 | John Hoy | Lintel form for concrete and block constructions |
US8056291B1 (en) * | 2007-10-12 | 2011-11-15 | The Steel Networks, Inc. | Concrete and light gauge cold formed steel building structure with beam and floor extending over a load bearing stud wall and method of forming |
US20190127966A1 (en) * | 2017-11-01 | 2019-05-02 | Marlon Howard Stewart | Permanent forms for composite construction columns and beams and method of building construction |
US11459755B2 (en) * | 2019-07-16 | 2022-10-04 | Invent To Build Inc. | Concrete fillable steel joist |
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