US1898736A - Building construction - Google Patents

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US1898736A
US1898736A US431353A US43135330A US1898736A US 1898736 A US1898736 A US 1898736A US 431353 A US431353 A US 431353A US 43135330 A US43135330 A US 43135330A US 1898736 A US1898736 A US 1898736A
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joists
slab
rods
construction
floor
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US431353A
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John A Melvin
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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

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  • This invention pertains to building construction and more particularly-to floor or roof construction.
  • One of the objects of thisv invention is to provide a floor or roof construction of reenforced concrete type in which the reenforcing material is applied in such away as to interfere as little as possible with the continuity of the concrete slab.
  • Another object is to provide such a construction which may be applied in a simple and expeditious manner to a structure of steel joists or girders or similar supporting members.
  • ⁇ Another object is to provide such a construction which is economical of material and simple to apply.
  • Figure 1 is a perspective view showing the arrangement of reenforcing material andthe supports therefor together with the forms for the concrete slab;
  • FIG. 2 is a ⁇ vertical cross-section of a complete ioor slab
  • Figure 3 is aperspective view slightly enlarged showing one of the bracketsvbent laterally to permit engagement with its support.
  • l designates ⁇ a joist which may be any suitable type of metallic j oist, preferably provided withI an upper chord having a well defined flange 2.
  • a series of such joists is arranged with the joists in parallel relation and spaced at uniform intervals throughout the extent of the floor..
  • Such joists are ordinarily supported f on main girders 20 which form the main framework of the building.
  • an upstanding bracket or clip 3 is provided which is attachable to the joists 1.
  • the bracket 3 is formed of sheet metal or similar material and has a laterally7 extended base 4.
  • the lower part of the basey 4 is provided with inwardly extending locking elements 5 arranged to embrace the flange 2 of the joist.V
  • the elements 5 may be made so as to be bendable so that one or more of them may be bent laterally asindicated in Figure 3 to permit engagement thereof, with the flange 2. After engagement, the bent element 5 is returned to its normal position as shown in Figure'l. In this positionv it locks 55 the bracket securely on the joist.
  • brackets 3 are assembled on each joist at spaced points ther'ealong.V
  • the supporting bars 8 are then assembled inthe perfora-tions 7 so as to extend in parallel relation with 65 the joists l.
  • Forms in the shape of sheetsor. slabs 9 of plaster board or the like areplaced l upon the .joists
  • the joists may be spaced from one another a distance equal to 'the standard width of the sheets 9 and the sheets 70 may be laid upon the joists lengthwise thereof and with their side edges abutting on topl of the joist as shown in Figure '1.
  • Reenforcingfmaterial in the form of metallic bars or meshed reenforcing fabric l0 is then placed 75' upon the Asupportin bars 8.
  • This reenforcing material is pre erably soarranged as Ytol be positioned adjacent-the lower face of the finished slab at points between the supporting y bars 8.
  • the fabric curves or dips downwardly between said supporting bars as clearly indicated in Figures 1 and 2. This arrangement puts the reenforcing material in the best position to withstandtensile stresses set up in the finished slab.
  • the vvarious elements having been assembled as described above and the forms 9 suitably reenforced against the weight of the concrete, the material is then poured upon the forms and so as to surround the bars 8 and the reenforcing materials l0.
  • the concreteI material is indicated at ll in Figure 2.
  • material as gypsum mayr be used forth@ slab 11. This material is iight, it sets quickly and Iwhen properly reenforced is suiciently strong.
  • Y l Y f It will be noted that the brackets 3 are spacedat intervals along the joists and that 00 the bars 8 are supported thereby above'the l joists and with a space therebetween.
  • brackets 3 being relatively small occupy little space and do not interrupt the continuity of-the slab which has just as great a cross-sectional area at the joists as it has at any other point.
  • this inven- .tion provides a floor or ,roof construction .which is simple to install and which provides a strong yet light floor or roof. Furthermore, the slab is continuous even at the joists.
  • the brackets 3 are simple in form and structure and can be made very cheaply by punching from sheet metal. ⁇ Accordingly, this floor can be very cheaply constructed since the materials required'to be erected are easily manipulated and require only a short time for the installation.
  • the bar 8 is embedded in the slab at the upper portion thereof while the clips 3 provide for anchoring said bar to the joist.
  • This construction therefore, provides a secure anchorage for roofs against being blown olf by a high wind.
  • this invention is particularly applicable to a simple girderand-joist construction and, with the sheets 9 laid between the joists no specially built forms are required.
  • a floor or roof construction having main girders, a plurality of joists spaced along and spanning the space between said girders, a series of individual supports upstanding from each of said joists and secured to the upper chord thereof at intervals therealong, supporting rods extending along said joists but spaced thereabove and-resting on Said supports, reenforcing material resting on and extending between said rods, and a. monolithic concrete slab carried by said joists and in which said supports, rods and re-enforcing material are embedded whereby an insulating layer of concrete is provided between the upper surface of said slab and said joists.
  • a floor or roof construction having main girders, a plurality of, joists spaced along and spanning the space between said girders, a supporting sheet resting on and extending between said joists, a series of individual supports upstanding from each of said joists and secured to the upper chord thereof at intervals therealong, supporting rods extending along said joists but spaced thereabove and resting on said supports, reenforcing material resting on and extending between said rods, and amonolithic concrete slab formed on said sheet and in which said supports, rods and rc-enforcing material are embedded whereby an insulating layer of concrete is provided between the upper surface of said slab and said joists.
  • the method comprising, placingv a plurality of joists in spaced relation to support the floor or roof, mounting on the upper chord of said joists at intervals therealong rip-- standing supports, mounting supporting rods in said supports spaced above said joists, placing re-enforcing material on said rods so as to sag between saidjoists, placing suitable concrete forms between said joists, and pouring a monolithic concrete slab on said forms so as to embed said supports, rods and re-enforcing material in order to pro-- vide a continuous insulating layer of concrete over said joists.
  • the method comprising, placing a plurality of joists in spaced relation to support the floor or roof, placing form sheets on said joists to span the spaces therebetween, mounting on the upper chord of said joists at intervals therealong upstandingsupports, mount ing supporting rods in said supports spaced above said joists, placing re-enfo'rcing mate rial on said rods so as to sag between said joists, placing suitable supports for said form sheets, and pouring a monolithic concrete slab on said sheets so as to embed said supports, rods and reenforcing material.
  • a sheet metal bracket having a base provided with a transverse slot forming a portion bendable to permanently lock said bracket to the upper chord of a metallic joist, an upright shank on said base, and an eye on said shank adapted to receive and hold a rod.
  • a floor or roof construction having main girders and a plurality of joists spanning the space between said girders, supporting rods extending along the tops of the joists, means spaced along said joists for supporting said rods at a distance above said joists; re-enforcing material supported by and extending between said rods, and a monolithic concrete slab carried by said joists in which said rods and re-enforcing material are imbedded and providing an insulating layer of concrete between the upper surface of said slab and said joists.
  • a ioor or roof construction having main girders and a plurality of joists spanning the space between said girders, support ing rods extending along the tops of the joists, means spaced along said joists for supporting said rods at a distance above said joists; re-enforcing material supported by and extending between said rods, form sheets carried by said joists, and a monolithic concrete slab on said form sheets carried by said joists in which said rods and re-enforcing material are imbedded and providing an insulating layer of concrete between the upper surface of said slab and said joists.

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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

Feb. 21, 1933. J A, MELVIN 1,898,736
BUILDING CONSTRUCTION Filed Feb. 26, 1930 Patented Feb. 2l, 1933 JOHN A MELVIN,OF sT. LOUIS, MISSOURI y BUILDING cONsTRUcTIoN Application filed February 26, 1930. Serial No. 431,353.
This invention pertains to building construction and more particularly-to floor or roof construction.
One of the objects of thisv invention is to providea floor or roof construction of reenforced concrete type in which the reenforcing material is applied in such away as to interfere as little as possible with the continuity of the concrete slab.
Another object is to provide such a construction which may be applied in a simple and expeditious manner to a structure of steel joists or girders or similar supporting members. i f
`Another object is to provide such a construction which is economical of material and simple to apply.
Further objects will appear from the following description taken in connection with the accompanying drawing, in which Figure 1 is a perspective view showing the arrangement of reenforcing material andthe supports therefor together with the forms for the concrete slab;
\ Figure 2 is a` vertical cross-section of a complete ioor slab; and
Figure 3 is aperspective view slightly enlarged showing one of the bracketsvbent laterally to permit engagement with its support. Referring to the drawing, l designates `a joist which may be any suitable type of metallic j oist, preferably provided withI an upper chord having a well defined flange 2. In the ordinary construction a series of such joists is arranged with the joists in parallel relation and spaced at uniform intervals throughout the extent of the floor.. Such joists are ordinarily supported f on main girders 20 which form the main framework of the building. In accordance with this invention, an upstanding bracket or clip 3 is provided which is attachable to the joists 1. In the embodiment of the invention illustrated in the drawing, the bracket 3 is formed of sheet metal or similar material and has a laterally7 extended base 4. The lower part of the basey 4 is provided with inwardly extending locking elements 5 arranged to embrace the flange 2 of the joist.V The elements 5 may be made so as to be bendable so that one or more of them may be bent laterally asindicated in Figure 3 to permit engagement thereof, with the flange 2. After engagement, the bent element 5 is returned to its normal position as shown in Figure'l. In this positionv it locks 55 the bracket securely on the joist. f
Rising from the base 4 is an upstanding shank 6 provided at its upper end with a head having a perforation? adapted to receive a supporting bar 8 as shown in Figure l. 60
In applying this construction, a number of brackets 3 are assembled on each joist at spaced points ther'ealong.V The supporting bars 8 are then assembled inthe perfora-tions 7 so as to extend in parallel relation with 65 the joists l. Forms in the shape of sheetsor. slabs 9 of plaster board or the like areplaced l upon the .joists The joists may be spaced from one another a distance equal to 'the standard width of the sheets 9 and the sheets 70 may be laid upon the joists lengthwise thereof and with their side edges abutting on topl of the joist as shown in Figure '1. Reenforcingfmaterial in the form of metallic bars or meshed reenforcing fabric l0 is then placed 75' upon the Asupportin bars 8. This reenforcing material is pre erably soarranged as Ytol be positioned adjacent-the lower face of the finished slab at points between the supporting y bars 8. In other words, the fabric curves or dips downwardly between said supporting bars as clearly indicated in Figures 1 and 2. This arrangement puts the reenforcing material in the best position to withstandtensile stresses set up in the finished slab.
The vvarious elements having been assembled as described above and the forms 9 suitably reenforced against the weight of the concrete, the material is then poured upon the forms and so as to surround the bars 8 and the reenforcing materials l0. The concreteI material is indicated at ll inFigure 2. In order to make the construction as light as possible such material as gypsum mayr be used forth@ slab 11. This material is iight, it sets quickly and Iwhen properly reenforced is suiciently strong. Y l Y f It will be noted that the brackets 3 are spacedat intervals along the joists and that 00 the bars 8 are supported thereby above'the l joists and with a space therebetween. Consequently when the slab is poured, the concrete material will flow freely through all the spaces so as to form a continuous slab over the `whole floor. The brackets 3 being relatively small occupy little space and do not interrupt the continuity of-the slab which has just as great a cross-sectional area at the joists as it has at any other point.
When the concrete material has set, the forms 9 are left in place to provide a finish for the ceiling below. Y a
It will be seen, therefore, that this inven- .tion provides a floor or ,roof construction .which is simple to install and which provides a strong yet light floor or roof. Furthermore, the slab is continuous even at the joists. The brackets 3 are simple in form and structure and can be made very cheaply by punching from sheet metal.` Accordingly, this floor can be very cheaply constructed since the materials required'to be erected are easily manipulated and require only a short time for the installation.
It will be noted also that the bar 8 is embedded in the slab at the upper portion thereof while the clips 3 provide for anchoring said bar to the joist. This construction, therefore, provides a secure anchorage for roofs against being blown olf by a high wind.
v An important eifect of this construction is that the concrete slab provides a practically continuous sheet of high insulating quality unbroken by any considerable volume of metal imbedded therein. The advantage of this is found in the complete absence of mois- Y ture condensation on the insidesurface of a roof, for instance, such as is often found in constructions having a substantial volume of metal, such as the web of a beam or joist, extending through the slab so as to provide heat conduction therethrough.
It will also be noted that this invention is particularly applicable to a simple girderand-joist construction and, with the sheets 9 laid between the joists no specially built forms are required.
While this invention has been described as a complete structure it will be understood, of course, that certain individual features or sub-combinations thereof may be useful of themselves without reference to other fea tures. It is understood, therefore, that such individual features or sub-combinations yare c'ontemplatedfby this invention and are within the scope of the appended claims.
vIt is obvious that various changes may be vmade in details of construction, within the scope of the appended claims, without departing from the spirit of this invention. It is, therefore, to be understood, that this invention is not to be limited to the specific construction shown and/ or described.
Having thus described the invention, what is claimed isf: a
l. In a floor or roof construction having main girders, a plurality of joists spaced along and spanning the space between said girders, a series of individual supports upstanding from each of said joists and secured to the upper chord thereof at intervals therealong, supporting rods extending along said joists but spaced thereabove and-resting on Said supports, reenforcing material resting on and extending between said rods, and a. monolithic concrete slab carried by said joists and in which said supports, rods and re-enforcing material are embedded whereby an insulating layer of concrete is provided between the upper surface of said slab and said joists. j i y 2. In a floor or roof construction having main girders, a plurality of, joists spaced along and spanning the space between said girders, a supporting sheet resting on and extending between said joists, a series of individual supports upstanding from each of said joists and secured to the upper chord thereof at intervals therealong, supporting rods extending along said joists but spaced thereabove and resting on said supports, reenforcing material resting on and extending between said rods, and amonolithic concrete slab formed on said sheet and in which said supports, rods and rc-enforcing material are embedded whereby an insulating layer of concrete is provided between the upper surface of said slab and said joists.
8. In the art of floor or roof construction, the method comprising, placingv a plurality of joists in spaced relation to support the floor or roof, mounting on the upper chord of said joists at intervals therealong rip-- standing supports, mounting supporting rods in said supports spaced above said joists, placing re-enforcing material on said rods so as to sag between saidjoists, placing suitable concrete forms between said joists, and pouring a monolithic concrete slab on said forms so as to embed said supports, rods and re-enforcing material in order to pro-- vide a continuous insulating layer of concrete over said joists. Y
4. In the art of floor or roof construction, the method comprising, placing a plurality of joists in spaced relation to support the floor or roof, placing form sheets on said joists to span the spaces therebetween, mounting on the upper chord of said joists at intervals therealong upstandingsupports, mount ing supporting rods in said supports spaced above said joists, placing re-enfo'rcing mate rial on said rods so as to sag between said joists, placing suitable supports for said form sheets, and pouring a monolithic concrete slab on said sheets so as to embed said supports, rods and reenforcing material.
5. In a floor or roof construction vof the character described, -a sheet metal bracket having a base provided with a transverse slot forming a portion bendable to permanently lock said bracket to the upper chord of a metallic joist, an upright shank on said base, and an eye on said shank adapted to receive and hold a rod.
6. In a floor or roof construction having main girders and a plurality of joists spanning the space between said girders, supporting rods extending along the tops of the joists, means spaced along said joists for supporting said rods at a distance above said joists; re-enforcing material supported by and extending between said rods, and a monolithic concrete slab carried by said joists in which said rods and re-enforcing material are imbedded and providing an insulating layer of concrete between the upper surface of said slab and said joists.
7. In a ioor or roof construction having main girders and a plurality of joists spanning the space between said girders, support ing rods extending along the tops of the joists, means spaced along said joists for supporting said rods at a distance above said joists; re-enforcing material supported by and extending between said rods, form sheets carried by said joists, and a monolithic concrete slab on said form sheets carried by said joists in which said rods and re-enforcing material are imbedded and providing an insulating layer of concrete between the upper surface of said slab and said joists.
In testimony whereof I aiiix my signature this 2O day of February, 1930.
JOHN A. MELVIN.
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3307304A (en) * 1964-06-02 1967-03-07 Edward S Klausner Composite structural systems
US3381429A (en) * 1964-08-10 1968-05-07 Rich Michael Wall systems
US3574982A (en) * 1967-12-19 1971-04-13 Waagner Biro Ag Installation for one or more stacks
US4056908A (en) * 1975-08-07 1977-11-08 Mcmanus Ira J Composite concrete slab and steel joist construction
US5209032A (en) * 1991-10-28 1993-05-11 Laumeister Thomas D Assembly for preventing pigeons from entering the space between a pair of adjacent I-beams of a bridge
US5220761A (en) * 1989-10-25 1993-06-22 Selby David A Composite concrete on cold formed steel section floor system
US20110203217A1 (en) * 2010-02-19 2011-08-25 Nucor Corporation Weldless Building Structures
US9004835B2 (en) 2010-02-19 2015-04-14 Nucor Corporation Weldless building structures
US10788066B2 (en) 2016-05-02 2020-09-29 Nucor Corporation Double threaded standoff fastener

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3307304A (en) * 1964-06-02 1967-03-07 Edward S Klausner Composite structural systems
US3381429A (en) * 1964-08-10 1968-05-07 Rich Michael Wall systems
US3574982A (en) * 1967-12-19 1971-04-13 Waagner Biro Ag Installation for one or more stacks
US4056908A (en) * 1975-08-07 1977-11-08 Mcmanus Ira J Composite concrete slab and steel joist construction
US5220761A (en) * 1989-10-25 1993-06-22 Selby David A Composite concrete on cold formed steel section floor system
US5209032A (en) * 1991-10-28 1993-05-11 Laumeister Thomas D Assembly for preventing pigeons from entering the space between a pair of adjacent I-beams of a bridge
US20110203217A1 (en) * 2010-02-19 2011-08-25 Nucor Corporation Weldless Building Structures
US8529178B2 (en) 2010-02-19 2013-09-10 Nucor Corporation Weldless building structures
US8636456B2 (en) 2010-02-19 2014-01-28 Nucor Corporation Weldless building structures
US9004835B2 (en) 2010-02-19 2015-04-14 Nucor Corporation Weldless building structures
US9267527B2 (en) 2010-02-19 2016-02-23 Nucor Corporation Weldless building structures
US10788066B2 (en) 2016-05-02 2020-09-29 Nucor Corporation Double threaded standoff fastener
US11815123B2 (en) 2016-05-02 2023-11-14 Nucor Corporation Double threaded standoff fastener

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