US2832559A - Adjustable brace - Google Patents

Adjustable brace Download PDF

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US2832559A
US2832559A US360033A US36003353A US2832559A US 2832559 A US2832559 A US 2832559A US 360033 A US360033 A US 360033A US 36003353 A US36003353 A US 36003353A US 2832559 A US2832559 A US 2832559A
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Prior art keywords
strut
bracket
wall slab
nut
slab
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US360033A
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Hillberg Bror
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Superior Concrete Accessories Inc
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Superior Concrete Accessories Inc
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • E04G21/24Safety or protective measures preventing damage to building parts or finishing work during construction
    • E04G21/26Strutting means for wall parts; Supports or the like, e.g. for holding in position prefabricated walls

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  • the invention relates to that type of brace which is adapted for use in connection with the construction of a concrete building, serves, after a substantially vertical wall slab is placed next to a substantially horizontal floor slab by a crane or like hoisting apparatus, to hold the wall slab in position while it is being fixedly secured in place and comprises an upper bracket having means for detachably securing it to the inner face of the wall slab at a location above the floor slab, a lower bracket having means for detachably securing it to the top surface of the floor slab at a location away from the wall slab, a rigid upwardly inclined strut extending between the brackets and having the upper end thereof pivotally connected to the upper bracket so that it and such bracket are free to tilt relatively to one another in a vertical plane, and an adjustable connection extending between the lower end of the strut and the lower bracket and adapted to shift the strut longitudinally in either direction in order that the wall slab may be tilted outwards or inwards into any desired angular position with respect .to the floor slab
  • One object of the invention is to provide an adjustable brace which is an improvement upon, and has certain inherent advantages over, previously designed braces including that which is disclosed in, and forms the subject matter of, my copending patent application Serial No. 288,839, filed by me on May 20, 1952 (now Patent No. 2,684,824, dated July 27, 1954), and is characterized by high efiiciency and strength, facility of adjustment, simplicity of design and low cost of manufacture.
  • Another object of the invention is'to provide an adjustable brace of .the type under consideration in which the lower bracket consists of a fixed U-shaped floor slab engaging part and a tiltable U-shaped part having the outer ends of its side members pivotally connected to the upper ends of the side members of the fixed part so that it is free to swing up and down about a horizontal axis and embodying in its intermediate member a centrally disposed circular hole, and the adjustable connection between the lower end of the strut and the lower bracket, consists of (1) an elongated upwardly inclined externally threaded element which extends through the hole in the intermediate member of the tiltable part of the lower bracket, is disposed in parallel relation with the strut, and hasthe upper end thereof connected fixedly to the lower end of the strut; and (2) a single nut which is mounted on the element, has an externally disposed groove in which the hole defining portion of the intermediate member of the tiltable part of the lower bracket fits, and is adapted when turned in one direction positively to shift the element and strut upwards so
  • a further object ofthe invention is to provide an adjustable brace of the last mentioned character in which ice the intermediate member of the fixed part of the lower bracket is provided with an opening to receive the shank of a lag screw for fixedly securing such part of the lower bracket to the wall slab, and the pivotal connections between the outer ends of the side members of the tiltable part and the upper ends of the side members of the fixed part of the lower bracket are so arranged with respect to the aforesaid opening for the lag screw that when the strut in connection with use of the brace is at a particular optimum acute angle with respect to the horizontal the imaginary longitudinal center line of the strut and the elongated screw threaded element substantially intersects said lag screw opening to the end that certain hereinafter described results are obtained.
  • a still further object of the invention is to provide an adjustable brace which is generally of new and improved construction, effectively and efiiciently fulfills its intended purpose and involves a simple but novel arrangement of parts.
  • Figure l is a fragmentary side elevation showing an adjustable brace embodying the invention in operative relation with a concrete wall slab and a concrete floor slab after placement of the wall slab next to the floor slab by an overhead crane;
  • Figure 2 is an enlarged transverse section taken on the line 2-2 of Figure 1 and illustrating in detail the construction and design of the straight upwardly inclined strut of the brace;
  • Figure 3 is a perspective of the fixed. U-shaped part of the lower bracket;
  • Figure 4 is a perspective of the wing nut that forms a part of the adjustable connection between the lower end of the strut and the lower bracket;
  • FIG. 5 is a fragmentary plan View of the brace
  • Figure 6 is an enlarged vertical longitudinal section of the lower bracket and the elongated screw threaded element and the nut that constitute the adjustable connection between the lower bracket and the lower end of the strut;
  • Figures 7 and 8 are sections taken, respectively, on the lines 7-7 and 8-8 of Figure 6.
  • the adjustable brace that is illustrated in the drawings constitutes the preferred form or embodiment of the invention. It is adapted for use in connection with a floor slab 1d and a wall slab 11 and serves, as described hereafter more in detail, to hold the wall slab 11 in an upright position next to the floor slab while it is being secured in place in connection with the construction or formation of a concrete building.
  • the floor slab 10 is shown as resting on a fill or foundation 12 at the site where the building is to be erected. It is contemplated that in connection with fabrication of the building a rectangular horizontally extending frame (not shown) will be placed on the fill 12. After the frame is suitably secured or anchored in place concrete in plastic form is poured into the bottom portion of the frame interior in order to form the floor slab 10. After pouring of the concrete for such slab a film or layer of non-adhesive material is applied to the top surface of the concrete. Thereafter concrete is poured into the upper portion of the frame interior in order to form the wall slab 11.
  • the wall slab After hardening or setting of the concrete for the two slabs the wall slab is suitably connected to a crane or other hoisting mechanism (not shown) and is first lifted by the aforementioned crane or other hoisting mechanism and then tilted into a substantially vertical position. After the tilting operation the wall slab is manipulated so as to position its bottom marginal portion in abutting relation with one of the side marginal portions of the floor slab, as shown in Figure 1 of the drawings.
  • the wall slab 11 is provided with an anchoring device 13 and the floor slab is provided with an anchoring device 14.
  • the anchoring device 13 comprises a nut-like member 15 and a lag screw 16 and is located at the upper portion of the wall slab when the latter is in its wall forming posi tion.
  • the nut-like member 15 is in the form of a wire helix. It is embedded in the wall slab directly inwards of the latters inner surface and embodies a plurality of L-shaped heavy wire legs 17 whereby it is maintained in firmly interlocked relation with the concrete in which it is embedded.
  • the lag screw 16 is arranged so that the threaded shank thereof is in screw threaded relation with the interior of the nut-like member 15 and its head is disposed a small distance away from the inner surface of the wall slab 11.
  • the anchoring device 14 comprises a nut-like member 18 and a lag screw 19 and is located at the central portion of the floor slab 1.0 and in substantially the same vertical plane as the anchoring device 13.
  • the nut-like member 18 is in the form of a wire helix. It is embedded in the floor slab directly beneath the top surface thereof and embodies a plurality of irregularly shaped heavy wire legs 20 whereby it is maintained in firmly interlocked relation with the concrete in which it is embedded.
  • the lag screw 19 is arranged go that the threaded shank thereof is in screw threaded relation with the interior of the nut-like member 18 and its head is disposed a small distance above the top surface of the floor slab 10. It is contemplated that the nut-like member 18 of the anchoring device 14 will be embedded in the floor slab at the time the concrete for the latter is poured and that the lag screw 19 will be connected to the nut-like member 18 after the wall slab 11 is manipulated into its upstanding position.
  • the brace is of unitary character and as its main components or parts comprises an upper wall slab engaging bracket 21, a lower floor slab engaging bracket 22, a straight upwardly inclined strut 23 between the two brackets and an adjustable connection 2 5 between the bracket 22 and the lower end of the strut 23.
  • the upper wall slab engaging bracket 21 is formed of inner surface of the wall slab 11 and has in the upper portion of one side margin thereof a horizontally extending notch 27 for receiving the head-equipped end of the shank of the lag screw 16.
  • the part 26 of the bracket 21 is connected to, and formed integrally with, the other I side margin of the part 25. It projects away from the wall slab when the bracket 21 is in its operative position and embodies in its lower portion a hole 23.
  • the lag screw 16 of the anchoring device 13 is turned so as to shift it outwards to a limited extent with respect to the nut-like member 15. Thereafter the part of the bracket 21 is placed against the inner surface of the wall slab 11 and Cal 4 is slid laterally until the head-equipped end of the shank of the lag screw 16 is seated in the notch 27. Thereafter the lag screw 16 is tightened until the bracket 21 is firmly clamped against the inner surface of the wall slab.
  • the anchoring device 13 constitutes means for detachably clamping or securing the bracket 21 against the inner surface of the wall slab.
  • the lower floor slab engaging bracket 22 consists of a fixed U-shaped part 29 and a tiltable U-shaped part 30.
  • the part 29 is formed of steel or other suitable metal and consists of a rectangular intermediate member 31 and a pair of upstanding side members 32.
  • the bottom member 31 is adapted when the bracket 23 is in its operative position to extend at right angles to the wall slab 11 and has in the end portion thereof that is farther from the wall slab a laterally extending notch 33 for receiving the head-equipped end of the lag screw 19 of the anchoring device 14.
  • the lag screw 19 is loosened to a small extent and then the intermediate member 31 of the fixed part 29 of the bracket 22, after being placed on the top surface of the floor slab 1!), is manipulated into a position next to the lag screw 19 and is then shifted laterally in order to bring the head-equipped end of the lag screw 19 into seated relation with the notch 33. Thereafter the lag screw 19 is tightened in order firmly to clamp the intermediate member 31 of the fixed part 29 against the top surface of the floor slab.
  • the anchoring device 14 constitutes means for detachably securing or clamping the fixed part 29 of the lower bracket 22 against the top surface of the floor slab 11.
  • the upstanding side members 31 of the fixed part 29 have the lower margins thereof formed integrally with the side margins of the intermediate member 31 and have the end margins that are nearer the wall slab arranged so that they are flush with the corresponding end edge of the intermediate member 31.
  • the side member 32 that is adjacent to the notch 33 is materially shorter than the other side member 32 in order fully to expose the notch.
  • the tiltable U-shaped part of the lower bracket 22 is formed of steel or other suitable metal and consists of a flat intermediate member 34 and a pair of fiat laterally spaced side members 35.
  • the intermediate member 34 is preferably square so far as external configuration is concerned and has in its central portion a hole 36.
  • the side members 35 of the tiltable part 30 are disposed in parallel relation and have certain opposed ends thereof connected by welds 38 to certain opposed side margins of the intermediate member 34.
  • the welds 38 extend at right angles to the welds 37 in order that the side members 35 serve rigidly to connect the two side by side complemental pieces of which the intermediate member 34 is composed.
  • the other or outer ends of the side members 35 fit between the ends of the side members 32 that are nearer to the wall slab 10 and are pivotally connected thereto by way of a pair of coaxial pivot pins 39.
  • the latter extend horizontally through holes 40 in the side members 32 and holes 41 in the side members 35 and have the ends thereof deformed to provide heads 42 for securing them against axial displacement with respect to the aforementioned holes.
  • the pivot pins 39 serve to support the part 30 of the lower bracket 22 so that it is capable of tilting upwards and downwards in a vertical plane at right angles to the wall slab 10.
  • the strut 23 is upwardly inclined in the direction of the wall slab 11 when the brace is in its operative position and comprises a pair of coextensive side by side but laterally spaced wooden bars 43. The latter are maintained in spaced apart relation by way of a series of equidistantly spaced wooden spacer strips 44 between the central portions of the inner or opposed side surfaces of the bars. Horizontally extending nut equipped bolts 45 extend through aligned. transverse holes 46 in the bars 43 and serve to hold the bars in connected relation.
  • the strut 23 comprises an elongated metallic plate 47. One end portion of this plate fits between the upper ends of the bars 43 and is secured in place by way of the two uppermost bolts 45.
  • a pivot element 50 extends through the holes 28 and 49 and serves so to connect the bracket 21 and the upper end of the strut as to permit the latter to tilt relatively to one another in a vertical plane.
  • the pivot element 50 is in the form of a rivet in order that it remains permanently in place.
  • the end portion of the plate 47 that is clamped between the upper ends of the wooden bars 43 of the strut has the bottom edge thereof welded to the central portion of a transversely extending metallic strip 51. As shown in Figure 5, the end portions of the strip 51 underlie the upper ends of the bars 43.
  • Two nut equipped bolts 52 extend through holes 53 in the upper ends of the bars 43 and holes 54 in the end portions of the strip 51 and serve to hold said upper ends of the bars and the end portions of the strip in clamped relation.
  • the adjustable connection 24 of the brace comprises an elongated externally threaded element 55 and a nut 56.
  • the element 55 is preferably in the form of a metallic tube and is connected to the lower end of the strut 23 by a metallic plate structure 57. It is disposed in parallel relation with the strut and extends loosely through the hole 36 in the intermediate member 34 of the tiltable part 30 of the lower bracket 22.
  • the metallic plate structure 57 is of unitary character and consists of a transversely extending plate 58, a longitudinally extending plate 59 and a transversely extending plate 60.
  • the transversely extending plate 58 is welded to the upper end of the externally threaded element 55 and abuts directly against the lower end surfaces of the wooden bars 43.
  • the longitudinally extending plate 59 fits between the lower ends of the bars 43 and has the lower end portion thereof welded to the central portion of the transversely extending plate 57.
  • the two lowermost bolts 45 extend through holes in the longitudinally extending plate 50 and serve to hold the plate structure 57 in connected relation with the lower ends of the wooden bars 43.
  • the transversely extending plate 60 underlies the lower ends of the bars 43 and has its central portion welded to the central portion of the lower edge of the longitudinally extending plate 59.
  • Nut equipped bolts 6. extend through holes in the lower ends of the bars 43 and holes in the end portions of the transversely extending plate 61 and coact with the two lowermost bolts 45 fixedly to connect the plate structure 57 to the lower end of the strut 31.
  • the nut 55 is formed of steel or other suitable metal and is mounted rotatably on the externally threaded element 55. It has an internal screw thread 62 in mating relation with the external thread of the element 55 and embodies an externally disposed annular groove 63 in which loosely fits the hole defining portion of the intermediate member 34 of the tiltable part 30 of the lower bracket 22.
  • the groove defining portion of the nut and the hole defining portion of the intermediate member 34 are approximately the same in thickness and coact to form a connection whereby the nut 56 is held against axial displacement with respect to the tiltable part 30 on the lower bracket 22 while at the same time it is permitted to rotate freely relatively to said tiltable part.
  • the nut 56 When the nut 56 is turned in one direction it operates positively to slide the element 55 and the strut 23 upwards and away from the lower bracket 2 and when the nut is turned in the opposite direction it operates positively to shift the element and strut downwards in the direction of the lower bracket 22.
  • the nut is provided at its upper end with a pair of integral outwardly extending diametrically opposite handles 64 whereby the nut may be manually turned in one direction or the other in order to effect longitudinal adjustment of the brace as a whole.
  • the brace In assembling the brace the complemental pieces that constitute the intermediate member 34 of the tiltable part 30 of the lower bracket are shifted together with the nut therebetween and then the welds 37 are formed between the abutting edges of the pieces in order to effect mounting of the nut with respect to the intermediate member 34. Thereafter the side members of the tiltable bracket part 39 are welded to the intermediate member 34 and are then connected pivotally to the upstanding side members 32 of the bracket part by mounting in place the pivot pins 39.
  • the brace functions to best advantage and may be most readily manipulated when in connection with use thereof the strut 23 extends at an angle of approximately 30 with respect to the horizontal as shown in Figures 1 and 6.
  • the pivot pins are so arranged with respect to the lag screw receiving notch 33 that when the strut is positioned at such acute angle the imaginary longitudinal center line of the externally threaded element and the strut 23 substantially intersects the notch.
  • the bracket 21 is connected. to the anchoring device 13 and the bracket 22 is connected to the anchoring device 14 as heretofore described.
  • the brace holds the wall slab 11 in fixed relation with the floor slab 10.
  • the nut 56 is turned so as to feed the element 55 away from the lower bracket 22. Such turning movement on the part of the nut 56 results in the strut 23 sliding upwards and effecting outward tilting of the wall slab.
  • the pivot element 5% permits the upper end of the strut to tilt relatively to the wall slab engaging bracket 21 and the tiltable part 30 of the bracket 22 permits the lower end of the strut to tilt vertically relatively to the floor slab.
  • the herein described adjustable brace effectively and efliciently fulfills its intended purpose and, due to its particular construction, may be fabricated or produced at a comparatively low cost. It is both strong and durable and may be adjusted with facility due to the specific construction and design of the adjustable connection 24 consisting of the elongated externally threaded element 55 and the single nut 56.
  • an adjustable brace adapted, after an upstanding wall slab is placed next to a substantially horizontal floor slab in connection with the construction of a concrete b the wall slab in position while it is be; c' place and comprising: an upper bracket provided with means for detachably securing it to the inner surface of the wall slab at a location above the floor slab; a lower bracket adapted to be positioned over the slab at a location away from the wall slab and embotbing a fixed U-shaped part consisting of an intermediate member and a pair of laterally spaced upstanding side members, provided with means for detachably securing its intermediate part to the top surface of the floor slab and adapted when properly secured in place by said means to have the side members thereof extend at right angles to the wall slab, and a tiltabie upwardly inclined normally inverted U-shaped part consisting of a rectangular intermediate member in the form of two flat elon gated side by side metallic pieces with the abutting side margins connected together by longitudinally extending wel
  • an adjustable brace adapted, after an upstanding wall slab is placed next to a substantially horizontal floor slab in connection with the construction of a concrete building, to hold the wall slab in position While it is being secured in place and comprising: an upper bracket provided with means for detachably securing it to the inner surface of the wall slab at a location above the floor slab; a lower bracket adapted to be positioned over the floor slab at a location away from the wall slab and embodying a fixed horizontally elongated U-shaped part consisting of a.

Description

April 29, 1958 B. HILLBERG I ADJUSTABLE BRACE.
2 Sheets-Sheet 1 Filed June 8, 1953 02' z 62y Km" Ap'ril 29, 1958 B. HILLBERG ADJUSTABLE BRACE Filed June 8, 1953 2 Sheets-Sheet 2 United States Patent ADJUSTABLE BRACE Bror Hillberg, Chicago, Ill., assignor to crete Accessories, Inc., of Illinois Superior Con- Chlcago, Ill., a corporation The present invention relates generally to adjustable braces. More particularly the invention relates to that type of brace which is adapted for use in connection with the construction of a concrete building, serves, after a substantially vertical wall slab is placed next to a substantially horizontal floor slab by a crane or like hoisting apparatus, to hold the wall slab in position while it is being fixedly secured in place and comprises an upper bracket having means for detachably securing it to the inner face of the wall slab at a location above the floor slab, a lower bracket having means for detachably securing it to the top surface of the floor slab at a location away from the wall slab, a rigid upwardly inclined strut extending between the brackets and having the upper end thereof pivotally connected to the upper bracket so that it and such bracket are free to tilt relatively to one another in a vertical plane, and an adjustable connection extending between the lower end of the strut and the lower bracket and adapted to shift the strut longitudinally in either direction in order that the wall slab may be tilted outwards or inwards into any desired angular position with respect .to the floor slab as a. preliminary to securing it in place.
One object of the invention is to provide an adjustable brace which is an improvement upon, and has certain inherent advantages over, previously designed braces including that which is disclosed in, and forms the subject matter of, my copending patent application Serial No. 288,839, filed by me on May 20, 1952 (now Patent No. 2,684,824, dated July 27, 1954), and is characterized by high efiiciency and strength, facility of adjustment, simplicity of design and low cost of manufacture.
Another object of the invention is'to provide an adjustable brace of .the type under consideration in which the lower bracket consists of a fixed U-shaped floor slab engaging part and a tiltable U-shaped part having the outer ends of its side members pivotally connected to the upper ends of the side members of the fixed part so that it is free to swing up and down about a horizontal axis and embodying in its intermediate member a centrally disposed circular hole, and the adjustable connection between the lower end of the strut and the lower bracket, consists of (1) an elongated upwardly inclined externally threaded element which extends through the hole in the intermediate member of the tiltable part of the lower bracket, is disposed in parallel relation with the strut, and hasthe upper end thereof connected fixedly to the lower end of the strut; and (2) a single nut which is mounted on the element, has an externally disposed groove in which the hole defining portion of the intermediate member of the tiltable part of the lower bracket fits, and is adapted when turned in one direction positively to shift the element and strut upwards so as to effect outward tilting of the wall slab and when turned in the opposite direction positively to shift the element and strut downwards and thus etfect inward tilting of the wall slab.
A further object ofthe invention is to provide an adjustable brace of the last mentioned character in which ice the intermediate member of the fixed part of the lower bracket is provided with an opening to receive the shank of a lag screw for fixedly securing such part of the lower bracket to the wall slab, and the pivotal connections between the outer ends of the side members of the tiltable part and the upper ends of the side members of the fixed part of the lower bracket are so arranged with respect to the aforesaid opening for the lag screw that when the strut in connection with use of the brace is at a particular optimum acute angle with respect to the horizontal the imaginary longitudinal center line of the strut and the elongated screw threaded element substantially intersects said lag screw opening to the end that certain hereinafter described results are obtained.
A still further object of the invention is to provide an adjustable brace which is generally of new and improved construction, effectively and efiiciently fulfills its intended purpose and involves a simple but novel arrangement of parts.
Other objects of the invention and the various advantages and characteristics of the present adjustable brace will be apparent from a consideration of the following detailed description.
The invention consists in the several novel features which are hereinafter set forth and are more particularly defined by claims at the conclusion hereof.
in the drawings which accompany and form a part of this specification ordisclosure and in which like numerals of reference denote corresponding parts throughout the several views:
Figure l is a fragmentary side elevation showing an adjustable brace embodying the invention in operative relation with a concrete wall slab and a concrete floor slab after placement of the wall slab next to the floor slab by an overhead crane;
Figure 2 is an enlarged transverse section taken on the line 2-2 of Figure 1 and illustrating in detail the construction and design of the straight upwardly inclined strut of the brace;
Figure 3 is a perspective of the fixed. U-shaped part of the lower bracket;
Figure 4 is a perspective of the wing nut that forms a part of the adjustable connection between the lower end of the strut and the lower bracket;
Figure 5 is a fragmentary plan View of the brace;
Figure 6 is an enlarged vertical longitudinal section of the lower bracket and the elongated screw threaded element and the nut that constitute the adjustable connection between the lower bracket and the lower end of the strut; and
Figures 7 and 8 are sections taken, respectively, on the lines 7-7 and 8-8 of Figure 6.
The adjustable brace that is illustrated in the drawings constitutes the preferred form or embodiment of the invention. It is adapted for use in connection with a floor slab 1d and a wall slab 11 and serves, as described hereafter more in detail, to hold the wall slab 11 in an upright position next to the floor slab while it is being secured in place in connection with the construction or formation of a concrete building. The floor slab 10 is shown as resting on a fill or foundation 12 at the site where the building is to be erected. It is contemplated that in connection with fabrication of the building a rectangular horizontally extending frame (not shown) will be placed on the fill 12. After the frame is suitably secured or anchored in place concrete in plastic form is poured into the bottom portion of the frame interior in order to form the floor slab 10. After pouring of the concrete for such slab a film or layer of non-adhesive material is applied to the top surface of the concrete. Thereafter concrete is poured into the upper portion of the frame interior in order to form the wall slab 11.
After hardening or setting of the concrete for the two slabs the wall slab is suitably connected to a crane or other hoisting mechanism (not shown) and is first lifted by the aforementioned crane or other hoisting mechanism and then tilted into a substantially vertical position. After the tilting operation the wall slab is manipulated so as to position its bottom marginal portion in abutting relation with one of the side marginal portions of the floor slab, as shown in Figure 1 of the drawings. The wall slab 11 is provided with an anchoring device 13 and the floor slab is provided with an anchoring device 14. The anchoring device 13 comprises a nut-like member 15 and a lag screw 16 and is located at the upper portion of the wall slab when the latter is in its wall forming posi tion. The nut-like member 15 is in the form of a wire helix. It is embedded in the wall slab directly inwards of the latters inner surface and embodies a plurality of L-shaped heavy wire legs 17 whereby it is maintained in firmly interlocked relation with the concrete in which it is embedded. The lag screw 16 is arranged so that the threaded shank thereof is in screw threaded relation with the interior of the nut-like member 15 and its head is disposed a small distance away from the inner surface of the wall slab 11. It is contemplated that the nut-like member 15 of the anchoring device 13 will be embedded in the wall slab at the time the concrete for the latter is poured and that the lag screw 16 will be connected to the nut-like member 17 after the wall slab is manipulated into its upstanding position as hereinbefore described. The anchoring device 14 comprises a nut-like member 18 and a lag screw 19 and is located at the central portion of the floor slab 1.0 and in substantially the same vertical plane as the anchoring device 13. The nut-like member 18 is in the form of a wire helix. It is embedded in the floor slab directly beneath the top surface thereof and embodies a plurality of irregularly shaped heavy wire legs 20 whereby it is maintained in firmly interlocked relation with the concrete in which it is embedded. The lag screw 19 is arranged go that the threaded shank thereof is in screw threaded relation with the interior of the nut-like member 18 and its head is disposed a small distance above the top surface of the floor slab 10. It is contemplated that the nut-like member 18 of the anchoring device 14 will be embedded in the floor slab at the time the concrete for the latter is poured and that the lag screw 19 will be connected to the nut-like member 18 after the wall slab 11 is manipulated into its upstanding position.
The brace is of unitary character and as its main components or parts comprises an upper wall slab engaging bracket 21, a lower floor slab engaging bracket 22, a straight upwardly inclined strut 23 between the two brackets and an adjustable connection 2 5 between the bracket 22 and the lower end of the strut 23.
The upper wall slab engaging bracket 21 is formed of inner surface of the wall slab 11 and has in the upper portion of one side margin thereof a horizontally extending notch 27 for receiving the head-equipped end of the shank of the lag screw 16. The part 26 of the bracket 21 is connected to, and formed integrally with, the other I side margin of the part 25. It projects away from the wall slab when the bracket 21 is in its operative position and embodies in its lower portion a hole 23. The latter, as shown in Figure l, is disposed beneath the notch 27 in the bracket part In connection with use of the brace after the wall slab is initially manipulated into place by the crane or other hoisting mechanism, the lag screw 16 of the anchoring device 13 is turned so as to shift it outwards to a limited extent with respect to the nut-like member 15. Thereafter the part of the bracket 21 is placed against the inner surface of the wall slab 11 and Cal 4 is slid laterally until the head-equipped end of the shank of the lag screw 16 is seated in the notch 27. Thereafter the lag screw 16 is tightened until the bracket 21 is firmly clamped against the inner surface of the wall slab. The anchoring device 13 constitutes means for detachably clamping or securing the bracket 21 against the inner surface of the wall slab.
The lower floor slab engaging bracket 22 consists of a fixed U-shaped part 29 and a tiltable U-shaped part 30.
i The part 29 is formed of steel or other suitable metal and consists of a rectangular intermediate member 31 and a pair of upstanding side members 32. The bottom member 31 is adapted when the bracket 23 is in its operative position to extend at right angles to the wall slab 11 and has in the end portion thereof that is farther from the wall slab a laterally extending notch 33 for receiving the head-equipped end of the lag screw 19 of the anchoring device 14. In connection with use of the brace the lag screw 19 is loosened to a small extent and then the intermediate member 31 of the fixed part 29 of the bracket 22, after being placed on the top surface of the floor slab 1!), is manipulated into a position next to the lag screw 19 and is then shifted laterally in order to bring the head-equipped end of the lag screw 19 into seated relation with the notch 33. Thereafter the lag screw 19 is tightened in order firmly to clamp the intermediate member 31 of the fixed part 29 against the top surface of the floor slab. The anchoring device 14 constitutes means for detachably securing or clamping the fixed part 29 of the lower bracket 22 against the top surface of the floor slab 11. The upstanding side members 31 of the fixed part 29 have the lower margins thereof formed integrally with the side margins of the intermediate member 31 and have the end margins that are nearer the wall slab arranged so that they are flush with the corresponding end edge of the intermediate member 31. The side member 32 that is adjacent to the notch 33 is materially shorter than the other side member 32 in order fully to expose the notch. The tiltable U-shaped part of the lower bracket 22 is formed of steel or other suitable metal and consists of a flat intermediate member 34 and a pair of fiat laterally spaced side members 35. The intermediate member 34 is preferably square so far as external configuration is concerned and has in its central portion a hole 36. It is formed of two side by side pieces and has the abutting edges of its pieces fixedly connected together by welds 37. The side members 35 of the tiltable part 30 are disposed in parallel relation and have certain opposed ends thereof connected by welds 38 to certain opposed side margins of the intermediate member 34. Preferably the welds 38 extend at right angles to the welds 37 in order that the side members 35 serve rigidly to connect the two side by side complemental pieces of which the intermediate member 34 is composed. The other or outer ends of the side members 35 fit between the ends of the side members 32 that are nearer to the wall slab 10 and are pivotally connected thereto by way of a pair of coaxial pivot pins 39. The latter extend horizontally through holes 40 in the side members 32 and holes 41 in the side members 35 and have the ends thereof deformed to provide heads 42 for securing them against axial displacement with respect to the aforementioned holes. The pivot pins 39 serve to support the part 30 of the lower bracket 22 so that it is capable of tilting upwards and downwards in a vertical plane at right angles to the wall slab 10.
The strut 23 is upwardly inclined in the direction of the wall slab 11 when the brace is in its operative position and comprises a pair of coextensive side by side but laterally spaced wooden bars 43. The latter are maintained in spaced apart relation by way of a series of equidistantly spaced wooden spacer strips 44 between the central portions of the inner or opposed side surfaces of the bars. Horizontally extending nut equipped bolts 45 extend through aligned. transverse holes 46 in the bars 43 and serve to hold the bars in connected relation. In addition to the wooden bars 43 the strut 23 comprises an elongated metallic plate 47. One end portion of this plate fits between the upper ends of the bars 43 and is secured in place by way of the two uppermost bolts 45. The central portions of the shanks of such bolts extend through holes 48 in said one end portion of the plate 47. The other end portion of the plate projects beyond the end surfaces of the bars 43, fits against the lower portion of the part 26 of the wall slab engaging bracket 21 and is provided with a transverse circular hole 49 which is the same in size as, and registers with, the hole 28 in the bracket part 26. A pivot element 50 extends through the holes 28 and 49 and serves so to connect the bracket 21 and the upper end of the strut as to permit the latter to tilt relatively to one another in a vertical plane. Preferably the pivot element 50 is in the form of a rivet in order that it remains permanently in place. The end portion of the plate 47 that is clamped between the upper ends of the wooden bars 43 of the strut has the bottom edge thereof welded to the central portion of a transversely extending metallic strip 51. As shown in Figure 5, the end portions of the strip 51 underlie the upper ends of the bars 43. Two nut equipped bolts 52 extend through holes 53 in the upper ends of the bars 43 and holes 54 in the end portions of the strip 51 and serve to hold said upper ends of the bars and the end portions of the strip in clamped relation.
The adjustable connection 24 of the brace comprises an elongated externally threaded element 55 and a nut 56. The element 55 is preferably in the form of a metallic tube and is connected to the lower end of the strut 23 by a metallic plate structure 57. It is disposed in parallel relation with the strut and extends loosely through the hole 36 in the intermediate member 34 of the tiltable part 30 of the lower bracket 22. The metallic plate structure 57 is of unitary character and consists of a transversely extending plate 58, a longitudinally extending plate 59 and a transversely extending plate 60. The transversely extending plate 58 is welded to the upper end of the externally threaded element 55 and abuts directly against the lower end surfaces of the wooden bars 43. The longitudinally extending plate 59 fits between the lower ends of the bars 43 and has the lower end portion thereof welded to the central portion of the transversely extending plate 57. The two lowermost bolts 45 extend through holes in the longitudinally extending plate 50 and serve to hold the plate structure 57 in connected relation with the lower ends of the wooden bars 43. The transversely extending plate 60 underlies the lower ends of the bars 43 and has its central portion welded to the central portion of the lower edge of the longitudinally extending plate 59. Nut equipped bolts 6. extend through holes in the lower ends of the bars 43 and holes in the end portions of the transversely extending plate 61 and coact with the two lowermost bolts 45 fixedly to connect the plate structure 57 to the lower end of the strut 31. The nut 55 is formed of steel or other suitable metal and is mounted rotatably on the externally threaded element 55. It has an internal screw thread 62 in mating relation with the external thread of the element 55 and embodies an externally disposed annular groove 63 in which loosely fits the hole defining portion of the intermediate member 34 of the tiltable part 30 of the lower bracket 22. The groove defining portion of the nut and the hole defining portion of the intermediate member 34 are approximately the same in thickness and coact to form a connection whereby the nut 56 is held against axial displacement with respect to the tiltable part 30 on the lower bracket 22 while at the same time it is permitted to rotate freely relatively to said tiltable part. When the nut 56 is turned in one direction it operates positively to slide the element 55 and the strut 23 upwards and away from the lower bracket 2 and when the nut is turned in the opposite direction it operates positively to shift the element and strut downwards in the direction of the lower bracket 22. The nut is provided at its upper end with a pair of integral outwardly extending diametrically opposite handles 64 whereby the nut may be manually turned in one direction or the other in order to effect longitudinal adjustment of the brace as a whole. In assembling the brace the complemental pieces that constitute the intermediate member 34 of the tiltable part 30 of the lower bracket are shifted together with the nut therebetween and then the welds 37 are formed between the abutting edges of the pieces in order to effect mounting of the nut with respect to the intermediate member 34. Thereafter the side members of the tiltable bracket part 39 are welded to the intermediate member 34 and are then connected pivotally to the upstanding side members 32 of the bracket part by mounting in place the pivot pins 39. In practice it has been found that the brace functions to best advantage and may be most readily manipulated when in connection with use thereof the strut 23 extends at an angle of approximately 30 with respect to the horizontal as shown in Figures 1 and 6. The pivot pins are so arranged with respect to the lag screw receiving notch 33 that when the strut is positioned at such acute angle the imaginary longitudinal center line of the externally threaded element and the strut 23 substantially intersects the notch. As a result of this the force (tension or compression) to which the fixed U-shaped part 2i of the lower bracket 22 is subjected when in connection with use of the brace: the strut is at its aforementioned optimum acute angle with respect to the horizontal is applied directly to the head of the lag screw 19 and hence is so neutralized that it does not exert or apply such tilting moment to the fixed U-shaped part 29 as to cause it to fracture the lag screw and thus become dislodged from its proper anchored position on the floor slab 10.
When, after manipulation of the wall slab 11 into the position shown in Figure 1 of the drawings, it is desired to use the brace the bracket 21 is connected. to the anchoring device 13 and the bracket 22 is connected to the anchoring device 14 as heretofore described. As soon as the lag screws 16 and 19 are tightened the brace holds the wall slab 11 in fixed relation with the floor slab 10. If it is desired, as a preliminary to permanently securing the wall slab in place, to tilt the wall slab outwards, the nut 56 is turned so as to feed the element 55 away from the lower bracket 22. Such turning movement on the part of the nut 56 results in the strut 23 sliding upwards and effecting outward tilting of the wall slab. As soon as the wall slab is tilted outwards to the desired extent turning of the nut 56 is stopped in order positively but releasably to lock the strut in place. In the event it is desired to tilt or swing the wall slab inwards the nut 56 is reversely turned. Such turning movement on the part of the nut 56 results in the strut 23 sliding downwards and eifect'ing inward tilting of the wall slab. As soon as the wall slab is tilted inwards to the desired extent rotation on the part of the nut 56 is stopped so that it serves securely but releasably to lock the strut against further longitudinal displacement or movement. In connection with sliding movement of the strut by turning of the nut 56 the pivot element 5% permits the upper end of the strut to tilt relatively to the wall slab engaging bracket 21 and the tiltable part 30 of the bracket 22 permits the lower end of the strut to tilt vertically relatively to the floor slab.
The herein described adjustable brace effectively and efliciently fulfills its intended purpose and, due to its particular construction, may be fabricated or produced at a comparatively low cost. It is both strong and durable and may be adjusted with facility due to the specific construction and design of the adjustable connection 24 consisting of the elongated externally threaded element 55 and the single nut 56.
The invention is not to be understood as restricted to the details set forth since these may be modified with in the scope of the appended claims without departing from the spirit and scope of the invention.
Having thus described the invention what I claim as new and desire to secure by Letters Patent is:
1. As a new article of manufacture, an adjustable brace adapted, after an upstanding wall slab is placed next to a substantially horizontal floor slab in connection with the construction of a concrete b the wall slab in position while it is be; c' place and comprising: an upper bracket provided with means for detachably securing it to the inner surface of the wall slab at a location above the floor slab; a lower bracket adapted to be positioned over the slab at a location away from the wall slab and embotbing a fixed U-shaped part consisting of an intermediate member and a pair of laterally spaced upstanding side members, provided with means for detachably securing its intermediate part to the top surface of the floor slab and adapted when properly secured in place by said means to have the side members thereof extend at right angles to the wall slab, and a tiltabie upwardly inclined normally inverted U-shaped part consisting of a rectangular intermediate member in the form of two flat elon gated side by side metallic pieces with the abutting side margins connected together by longitudinally extending welds and a pair of separately formed laterally spaced metallic side members with certain ends thereof in abutting relation with the end margins of the two-piece intermediate member and connected fixedly thereto by longitudinally extending welds at right angles to the first mentioned welds, provided in its intermediate member with a circular hole one-half of which is formed in the abutting side margin of one of the two pieces and the other half of which is formed in the abutting side margin of the other piece, and having the other ends of the side members thereof positioned in lapped and parallel relation with the side members of the fixed part and pivotally connected tiereto so that it is free to swing about a horizontal axis towards and away from the wall slab; a rigid upwardly inclined strut extending between the two brackets and having the upper end thereof pivotally connected to the upper bracket so that it and said upper bracket are free to tilt relatively to one another in a vertical plane; and an adjustable connection extending between the lower bracket and the lower end of the strut and embodying an elongated upwardly inclined externally threaded element extending loosely through the aforesaid hole into the space between the side members of said tiltable part, disposed in parallel relation with the strut, and having the upper end thereof connected fixedly to the lower end of said strut, and a single one piece nut mounted rotatably on the element, provided with an external annular groove of substantially the same thickness as the intermediate member of said tiltablc part, having the portion thereof that defines said groove in interlocked and closely fitting relation with, but r0- tatable relatively to, the hole defining portion of the inter mediate member of said tiltable part, and adapted when turned. in one direction positively to shift the element and strut longitudinally in one direction with'respect to the lower bracket and when turned in the opposite direction positively to shift said element and strut longitudinally in the opposite direction with respect to the lower bracket.
2. As a new article of manufacture, an adjustable brace adapted, after an upstanding wall slab is placed next to a substantially horizontal floor slab in connection with the construction of a concrete building, to hold the wall slab in position While it is being secured in place and comprising: an upper bracket provided with means for detachably securing it to the inner surface of the wall slab at a location above the floor slab; a lower bracket adapted to be positioned over the floor slab at a location away from the wall slab and embodying a fixed horizontally elongated U-shaped part consisting of a. flat intermediate member and a pair of laterally spaced upstanding side members, adapted when properly positioned to have its side members extend at right angles to the wall slab, and provided in the end portion of the intermediate member that is farther from the wall slab with an opening for receiving a lag screw for detachably securing said intermediate member to the top surface of the floor slab, and a tiltable upwardly inclined U cd part consisting of an intermediate member and a p r of laterally spaced side members with certain ends thereof fixedly connected to the last mentioned intermediate member, provided in the central portion of its intermediate member with a circular hole, and having the other ends of the side members thereof positioned in lapped and parallel relation with the side members of the fixed part and pivotally connected to the end portions of the last mentioned side members that are nearer the wall slab by horizontal pins so that it is free to swing about a horizontal axis towards and away from the wall slab; a rigid upwardly inclined strut extending between the two brackets and having the upper end thereof pivotally connected to the upper bracket so that it and said upper bracket are free to tilt relatively to one another in a vertical plane, and an adjustable connection extending between the lower bracket and the lower end of the strut and embodying an elongated upwardly inclined externally threaded element extending loosely through the aforesaid hole into the space between the side members of the tiltable part, disposed in parallel relation with the strut, and having the upper end thereof connected fixedly to the lower end of said strut, and single nut mounted rotatably on the element, provided with an external annular groove of substantially the same thickness as the intermediate member of said tiltable part, having the portion thereof that defines said groove in interlocked and close fitting relation with, but rotatable relatively to, the hole defining portion of the intermediate member of said tiltable part, and adapted when turned in one direction positively to shift the element and strut longitudinally in one direction with respect to the lower bracket and when turned in the opposite direction positively to shift said element and strut longitudinally in the opposite direction with respect to the lower bracket, said strut being adapted when in connection with use of the brace the upper and lower brackets are connected to their respective slabs at certain locations to assume an optimum working position wherein it extends at approximately an angle of 30 with respect to the horizontal, said horizontal pins being so positioned with respect to the lag screw receiving opening in the intermediate member of the fixed part of the lower bracket that when the strut is in its aforesaid optimum working position the imaginary longitudinal center line of the element and strut substantially intersects said opening.
References Cited in the file of this patent UNITED STATES PATENTS.
US360033A 1953-06-08 1953-06-08 Adjustable brace Expired - Lifetime US2832559A (en)

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Cited By (25)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3229950A (en) * 1964-04-17 1966-01-18 Richmond Screw Anchor Co Inc Brace
US3798856A (en) * 1972-05-24 1974-03-26 W Gloskowski Tilt-up wall panel brace assembly
US3817006A (en) * 1972-10-27 1974-06-18 Bracing Syst Inc Apparatus for supporting masonry walls against wind damage during construction
US5622354A (en) * 1995-12-14 1997-04-22 Chagnot; Brian Post plumbing device
US5853163A (en) * 1995-12-14 1998-12-29 Chagnot; Brian Post plumbing device
US6065254A (en) * 1999-03-19 2000-05-23 Lanka; Richard Adjustable, foldable support brace
ES2178525A1 (en) * 1998-09-01 2002-12-16 Ontiveros Jose Munoz Multipurpose hinged support.
US6539677B1 (en) 2001-05-18 2003-04-01 Richard I. Lanka Form brace with adjustable face
US20030189154A1 (en) * 2002-04-08 2003-10-09 Richard Lanka Vehicle bracing apparatus and method for use
US6637363B2 (en) * 2000-10-12 2003-10-28 Ronald T. Schmitt Adjustable boat windshield support brace
US20040049994A1 (en) * 2002-07-02 2004-03-18 Hazenstab Robert E. Brace boot
US6752570B2 (en) 2002-04-08 2004-06-22 Richard Lanka Shoring system apparatus and method for shoring
US20060175369A1 (en) * 2005-01-26 2006-08-10 Vermette Laurier J Support for mounting a bicycle rack on a frame
US20060207215A1 (en) * 2005-03-15 2006-09-21 Bruno Stephen M Retractable brace
US20070175174A1 (en) * 2005-03-15 2007-08-02 Bruno Stephen M Retractable brace
WO2007131261A1 (en) * 2006-05-11 2007-11-22 Cps Investment Holdings Pty Ltd Building brace
US20080216433A1 (en) * 2007-03-09 2008-09-11 Bogue Richard A Masonry block wall bracing wall anchor
ITMI20091567A1 (en) * 2009-09-14 2011-03-15 Demuro S R L STRUCTURE OF RETENTION PARTICULARLY FOR PREFABRICATED WALLS IN CONCRETE.
US20160076262A1 (en) * 2014-09-12 2016-03-17 Probrace Systems Limited Concrete formwork brace and method of bracing concrete formwork
US20190301152A1 (en) * 2018-03-27 2019-10-03 Midwest Concrete & Masonry Supply, Inc. Ground anchor bracket with simulated slab support for concrete wall braces
US11091923B2 (en) 2018-06-05 2021-08-17 Meadow Burke, Llc Brace for a precast concrete panel
USD947651S1 (en) 2018-06-05 2022-04-05 Meadow Burke, Llc Pre-cast panel wall brace
US20220111798A1 (en) * 2020-10-12 2022-04-14 Curt Manufacturing, Llc Side Mount Truck Bed Tool Box With Adjustable Side Mount Legs
US11492797B2 (en) 2020-03-05 2022-11-08 Meadow Burke, Llc Connector for precast concrete structures
US11686111B2 (en) 2019-05-06 2023-06-27 Ccs Contractor Equipment & Supply, Llc Modular pipe brace assembly

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1465065A (en) * 1921-11-29 1923-08-14 M J Ford Mfg Company Adjusting device
US1582767A (en) * 1925-10-06 1926-04-27 Loop Leonard Polish-rod support
US1702251A (en) * 1926-09-23 1929-02-19 Edmund B Dowd Temporary support
US2403512A (en) * 1944-01-21 1946-07-09 American Steel Foundries Slack adjuster
US2411900A (en) * 1944-07-05 1946-12-03 Edgar C Seward Cargo stop
US2470396A (en) * 1944-11-14 1949-05-17 Joseph D Guerette Spur shore
US2532168A (en) * 1948-06-12 1950-11-28 Frank J Jakoubek Mine roof and timbering jack
US2684824A (en) * 1952-05-20 1954-07-27 Superior Concrete Accessories Adjustable brace

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1465065A (en) * 1921-11-29 1923-08-14 M J Ford Mfg Company Adjusting device
US1582767A (en) * 1925-10-06 1926-04-27 Loop Leonard Polish-rod support
US1702251A (en) * 1926-09-23 1929-02-19 Edmund B Dowd Temporary support
US2403512A (en) * 1944-01-21 1946-07-09 American Steel Foundries Slack adjuster
US2411900A (en) * 1944-07-05 1946-12-03 Edgar C Seward Cargo stop
US2470396A (en) * 1944-11-14 1949-05-17 Joseph D Guerette Spur shore
US2532168A (en) * 1948-06-12 1950-11-28 Frank J Jakoubek Mine roof and timbering jack
US2684824A (en) * 1952-05-20 1954-07-27 Superior Concrete Accessories Adjustable brace

Cited By (31)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3229950A (en) * 1964-04-17 1966-01-18 Richmond Screw Anchor Co Inc Brace
US3798856A (en) * 1972-05-24 1974-03-26 W Gloskowski Tilt-up wall panel brace assembly
US3817006A (en) * 1972-10-27 1974-06-18 Bracing Syst Inc Apparatus for supporting masonry walls against wind damage during construction
US5622354A (en) * 1995-12-14 1997-04-22 Chagnot; Brian Post plumbing device
US5853163A (en) * 1995-12-14 1998-12-29 Chagnot; Brian Post plumbing device
ES2178525A1 (en) * 1998-09-01 2002-12-16 Ontiveros Jose Munoz Multipurpose hinged support.
US6065254A (en) * 1999-03-19 2000-05-23 Lanka; Richard Adjustable, foldable support brace
US6637363B2 (en) * 2000-10-12 2003-10-28 Ronald T. Schmitt Adjustable boat windshield support brace
US6539677B1 (en) 2001-05-18 2003-04-01 Richard I. Lanka Form brace with adjustable face
US20030189154A1 (en) * 2002-04-08 2003-10-09 Richard Lanka Vehicle bracing apparatus and method for use
US6752570B2 (en) 2002-04-08 2004-06-22 Richard Lanka Shoring system apparatus and method for shoring
US6776383B2 (en) * 2002-04-08 2004-08-17 Richard Lanka Vehicle bracing apparatus and method for use
US20040049994A1 (en) * 2002-07-02 2004-03-18 Hazenstab Robert E. Brace boot
US7621493B2 (en) * 2005-01-26 2009-11-24 Vermette Laurier J Support for mounting a bicycle rack on a frame
US20060175369A1 (en) * 2005-01-26 2006-08-10 Vermette Laurier J Support for mounting a bicycle rack on a frame
US20060207215A1 (en) * 2005-03-15 2006-09-21 Bruno Stephen M Retractable brace
US20070175174A1 (en) * 2005-03-15 2007-08-02 Bruno Stephen M Retractable brace
WO2007131261A1 (en) * 2006-05-11 2007-11-22 Cps Investment Holdings Pty Ltd Building brace
US20080216433A1 (en) * 2007-03-09 2008-09-11 Bogue Richard A Masonry block wall bracing wall anchor
US7698861B2 (en) 2007-03-09 2010-04-20 Bogue Richard A Masonry block wall bracing wall anchor
ITMI20091567A1 (en) * 2009-09-14 2011-03-15 Demuro S R L STRUCTURE OF RETENTION PARTICULARLY FOR PREFABRICATED WALLS IN CONCRETE.
US20160076262A1 (en) * 2014-09-12 2016-03-17 Probrace Systems Limited Concrete formwork brace and method of bracing concrete formwork
US20190301152A1 (en) * 2018-03-27 2019-10-03 Midwest Concrete & Masonry Supply, Inc. Ground anchor bracket with simulated slab support for concrete wall braces
US11066824B2 (en) * 2018-03-27 2021-07-20 Ccs Contractor Equipment & Supply, Llc Ground anchor bracket with simulated slab support for concrete wall braces
US20210340751A1 (en) * 2018-03-27 2021-11-04 Ccs Contractor Equipment & Supply, Inc. Ground anchor bracket with simulated slab support for concrete wall braces
US11091923B2 (en) 2018-06-05 2021-08-17 Meadow Burke, Llc Brace for a precast concrete panel
USD947651S1 (en) 2018-06-05 2022-04-05 Meadow Burke, Llc Pre-cast panel wall brace
US11686111B2 (en) 2019-05-06 2023-06-27 Ccs Contractor Equipment & Supply, Llc Modular pipe brace assembly
US11492797B2 (en) 2020-03-05 2022-11-08 Meadow Burke, Llc Connector for precast concrete structures
US20220111798A1 (en) * 2020-10-12 2022-04-14 Curt Manufacturing, Llc Side Mount Truck Bed Tool Box With Adjustable Side Mount Legs
US11738692B2 (en) * 2020-10-12 2023-08-29 Curt Manufacturing, Llc Side mount truck bed tool box with adjustable side mount legs

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