CN220645122U - Climbing frame diagonal draw bar reinforcing structure - Google Patents

Abstract

The utility model relates to a building climbs a technical field, provides a climb a diagonal draw bar reinforced structure, including support column and connecting rod, the support column is used for being connected with the interior bearing wall of building, the support column is kept away from the one end of bearing wall is connected with the I-steel; and two ends of the connecting rod are respectively connected with the bearing wall and the supporting column. The utility model provides a climb frame diagonal draw bar reinforced structure, through setting up the connecting rod in the building inside, the connecting rod supports the support column, and the support column supports the I-steel, and the diagonal draw bar that can reduce the slope setting is located the scaffold frame inside that the I-steel top was set up, improves staff's working space in the scaffold frame, improves work efficiency.

Description

Climbing frame diagonal draw bar reinforcing structure

Technical Field

The application relates to the technical field of building climbing frames, in particular to a climbing frame diagonal draw bar reinforcing structure.

Background

The high-rise building generally adopts overhanging scaffolds, every other multi-layer I-steel overhanging beam is provided with the scaffolds, when the traditional I-steel overhanging beam is installed, I-steel is required to be paved on a floor through a shear wall, then the I-steel is fixed on the floor through reinforcing steel bars, and finally the I-steel overhanging beam is reinforced through diagonal rods or steel wires.

One end of the existing diagonal draw bar is connected with the outer wall of the building, and the other end of the diagonal draw bar is connected with the I-steel, so that the reinforcement effect of the I-steel on the floor can be achieved.

Because the length of the I-steel protruding from the outer wall of the building is short, after the scaffold on the I-steel is installed, the inclined pull rod arranged obliquely influences the working space of the scaffold after the scaffold is erected, so that the working space of workers is limited, and the working efficiency is influenced.

Disclosure of Invention

In order to facilitate the operation of workers on the scaffold, the application provides a climbing frame diagonal draw bar reinforcing structure.

The application provides a climb frame diagonal draw bar reinforced structure adopts following technical scheme:

the climbing frame diagonal draw bar reinforcing structure comprises a support column and a connecting rod, wherein the support column is used for being connected with a bearing wall in a building, and one end, far away from the bearing wall, of the support column is connected with I-steel; and two ends of the connecting rod are respectively connected with the bearing wall and the supporting column.

Through adopting foretell technical scheme, when installing diagonal draw bar, set up the opening that supplies the support column to wear to establish in building outer wall bottom, then be connected with second installation department and third installation department respectively with the both ends of support column, then be connected with first installation department and support column respectively with the both ends of connecting rod, the connecting rod is installed between bearing wall and wallboard this moment to can accomplish the firm support of diagonal draw bar to the I-steel. Through setting up the connecting rod inside the building, the connecting rod supports the support column, and the support column supports the I-steel, and the diagonal draw bar that can reduce the slope setting is located the scaffold frame inside that the I-steel top was set up, improves staff's space of action in the scaffold frame, improves work efficiency. The support column and the connecting rod are connected in a split mode, so that workers can conveniently carry and install the support column and the connecting rod.

Optionally, the connecting rod includes a first connecting rod and a second connecting rod, the first connecting rod is connected with the first mounting portion, and the second connecting rod is connected with the support column; the second connecting rod is provided with a movable groove through which the first connecting rod passes, the inner wall of the movable groove is provided with a plurality of first threaded holes, the first threaded holes are arranged along the length direction of the second connecting rod at intervals, the first connecting rod is provided with a first threaded groove, and the first threaded groove and the first threaded holes are jointly penetrated and bundled with a first bolt.

Through adopting foretell technical scheme, when the interval between first mounting panel and the second installation department changes, through the alignment that changes first thread groove and different first screw holes to use first bolt to connect, thereby can change the length of connecting rod, with the support of holding connecting rod to the support column, and then can keep the support column to the connection of connecting rod.

Optionally, a mounting portion includes mounting and installation pole, the mounting install in the loading wall, the installation pole pass through the second bolt with the mounting is connected, first screw thread portion has been seted up to the installation pole, the screw thread groove has been seted up to the head rod, the first screw thread portion of installation pole with the screw thread groove cooperatees.

Through adopting foretell technical scheme, through changing the screw groove cooperation position of installation pole and head rod, can finely tune the position of head rod and first installation department to make the both ends of connecting rod can be connected with first installation department and support column respectively, further improve diagonal draw bar's practicality and suitability.

Optionally, the second connecting rod outer wall rotates and installs the apron, second connecting rod outer wall is provided with connecting portion, works as the apron keep away from one side of second connecting rod junction with connecting portion are connected, the apron covers in all first screw hole surfaces.

Through adopting foretell technical scheme, through setting up the apron, can cover all first screw hole surfaces, reduce the condition that the concrete got into the movable inslot through first screw hole in the work progress to keep the head rod can smoothly peg graft in the movable inslot, keep the use of connecting rod.

Optionally, the cover plate is fixed with an inserting block, and the inserting block is covered with a rubber layer; the connecting part is provided with a plugging groove for plugging the plugging block.

Through adopting foretell technical scheme, through the cooperation of spliced block with the spliced groove, can keep away from self and second connecting rod and connecting portion with the apron and fix, reduce the apron and take place the condition of free rotation on the second connecting rod for the lid door can cover in first screw hole surface, reduces the condition that the concrete dropped the movable inslot. Through setting up the rubber layer, further reduce the condition that the spliced block cooperatees with the spliced groove and makes taking place to break away from, improve the steadiness that apron and connecting portion are connected.

Optionally, an airbag is disposed on a side of the cover plate, which is close to the second connecting rod.

Through adopting foretell technical scheme, through setting up the gasbag, when the apron lid closes in first connecting plate surface, the gasbag can with second connecting rod outer wall looks butt, further reduces the condition in clearance between concrete entering apron and the second connecting rod.

Optionally, the outer wall of the first connecting rod is fixed with a guide bar, and the inner wall of the movable groove is provided with a guide groove for sliding the guide bar.

Through adopting foretell technical scheme, through the cooperation of gib block with the guide way, can reduce the condition that the head rod worn to locate the activity inslot and take place free rotation to be convenient for the alignment of first thread groove and first screw hole, and then improve the installation effectiveness of head rod and second connecting rod.

Optionally, the second connecting rod is connected with the support column through the dead lever, the dead lever has been seted up second screw thread portion, the third screw thread groove has been seted up to the second connecting rod, second screw thread portion cooperatees with the third screw thread groove.

Through adopting foretell technical scheme, through changing the screw groove cooperation position of dead lever and second connecting rod, can finely tune the position of second connecting rod and support column, further improve the suitability of diagonal draw bar installation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the connecting rod is arranged in the building, the connecting rod supports the support column, the support column supports the I-steel, the inclined pull rod which is obliquely arranged can be reduced to be positioned in the scaffold which is erected above the I-steel, the action space of staff in the scaffold is improved, and the working efficiency is improved;

2. through setting up the apron, can cover all first screw hole surfaces, reduce the condition that the concrete got into the movable inslot through first screw hole in the work progress to keep the head rod can smoothly peg graft in the movable inslot, keep the use of connecting rod.

Drawings

Fig. 1 is a schematic structural view of embodiment 1;

FIG. 2 is an enlarged view of a portion at A of FIG. 1;

FIG. 3 is a schematic installation diagram of the installation rod and the first connecting rod of embodiment 1;

FIG. 4 is a partial enlarged view at B of FIG. 1;

FIG. 5 is a partial cross-sectional view of the connecting rod of example 1;

fig. 6 is a schematic installation view of the second connecting rod and the fixing rod of embodiment 1;

fig. 7 is a schematic structural view of a fixing rod of embodiment 1;

FIG. 8 is a partial enlarged view at C of FIG. 1;

fig. 9 is a partial cross-sectional view of example 2.

Reference numerals illustrate: 1. a support column; 11. a fixed rod; 12. a second threaded portion; 13. a fixing groove; 14. a fifth threaded hole; 15. a fourth threaded hole; 16. a third bolt; 17. a mounting plate; 2. a connecting rod; 21. a first connecting rod; 211. a first thread groove; 212. a second thread groove; 213. a guide bar; 22. a second connecting rod; 221. a movable groove; 222. a first threaded hole; 223. a guide groove; 224. a third thread groove; 23. a first bolt; 24. a cover plate; 25. an air bag; 3. a load-bearing wall; 31. a first mounting portion; 311. a fixing member; 312. a fixing plate; 313. a first ear plate; 314. a mounting rod; 315. a second threaded hole; 316. a third threaded hole; 317. a second bolt; 318. a first threaded portion; 32. a second mounting portion; 4. i-steel; 41. a third mounting portion; 42. a fifth bolt; 43. a second ear plate; 44. a sixth threaded hole; 45. a seventh threaded hole; 5. a connection assembly; 51. a plug block; 52. a connecting strip; 53. and a plug-in groove.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-9.

Example 1

The embodiment 1 of the application discloses a climbing frame diagonal draw bar reinforcing structure.

Referring to fig. 1, a diagonal draw bar reinforcement structure of a climbing frame comprises a support column 1 and a connecting rod 2, wherein a first installation part 31 and a second installation part 32 are installed on a bearing wall 3 in a building, a third installation part 41 is installed on an I-steel 4, the first installation part 31 is positioned above the second installation part 32, and two ends of the connecting rod 2 are respectively connected with the first installation part 31 and the support column 1; an opening is formed in the bottom of the building outer wall, one end of the support column 1 is connected with the second installation part 32, and the other end of the support column 1 penetrates through the opening to be connected with the third installation part 41.

Referring to fig. 2, the first mounting portion 31 includes a fixing member 311 and a mounting rod 314, the fixing member 311 includes a fixing plate 312 and two first ear plates 313, the fixing plate 312 is connected with the load-bearing wall 3, the two first ear plates 313 are spaced apart along a length direction of the fixing plate 312, and the mounting rod 314 is mounted between the two first ear plates 313; the two first ear plates 313 are provided with second threaded holes 315, and the mounting rod 314 is provided with third threaded holes 316; when the mounting rod 314 is mounted in the fixing groove 13, the third threaded hole 316 is opposite to the two second threaded holes 315, and the third threaded hole 316 and the second threaded holes 315 are jointly penetrated by a second bolt 317; the mounting rod 314 is provided with a first threaded portion 318 on an outer wall of a side thereof remote from the fixing plate 312.

Referring to fig. 3 and 4, the connection rod 2 includes a first connection rod 21 and a second connection rod 22, the first connection rod 21 is connected with the mounting rod 314, and the second connection rod 22 is connected with the support column 1 through the fixing rod 11; a second thread groove 212 is formed at one end of the first connecting rod 21, and the second thread groove 212 is matched with a first thread part 318 of the mounting rod 314; the outer wall of one side of the first connecting rod 21 far away from the second thread groove 212 is provided with a first thread groove 211, and the outer wall of the first connecting rod 21 is provided with an integrally formed guide strip 213.

Referring to fig. 4 and 5, a movable groove 221 is formed at one end of the second connecting rod 22, which is far away from the second thread groove 212, is movably penetrated in the movable groove 221, and a guide groove 223 for sliding the guide bar 213 is formed on the inner wall of the movable groove 221; the inner wall of the movable groove 221 is provided with a plurality of first threaded holes 222, and all the first threaded holes 222 are arranged at intervals along the length direction of the second connecting rod 22; when the first connecting rod 21 and the second connecting rod 22 are fixed, the first threaded groove 211 is opposite to one of the first threaded holes 222, and the first threaded holes 222 and the first threaded grooves 211 are internally provided with the first bolts 23 in a penetrating manner.

When the interval between the first mounting plate 17 and the second mounting portion 32 is changed, the length of the connecting rod 2 can be changed by changing the alignment of the first screw grooves 211 with different first screw holes 222 and connecting using the first bolts 23, so that both ends of the connecting rod 2 are respectively connected with the bearing wall 3 and the supporting column 1, so that the connecting rod 2 can firmly support the supporting column 1. And through the cooperation of the guide bar 213 and the guide groove 223, the condition that the first connecting rod 21 is penetrated in the movable groove 221 and rotates freely can be reduced, so that the alignment of the first thread groove 211 and the first thread hole 222 is facilitated.

Referring to fig. 6, the second connecting rod 22 is provided with a third bolt 16 groove, the outer wall of the fixing rod 11 is provided with a second screw portion 12, and the second screw portion 12 is engaged with the third screw groove 224. Through the cooperation of second screw thread portion 12 and third screw thread groove 224, the cooperation of first screw thread portion 318 and second screw thread groove 212, can finely tune the position of head rod 21 and installation pole 314 and the position of second connecting rod 22 and dead lever 11 for behind head rod 21 and the bearing wall 3 connection, second connecting rod 22 and support column 1 connection, first screw hole 222 and first screw thread groove 211 can align, further improve diagonal draw bar suitability.

Referring to fig. 7, a fixing groove 13 for installing a fixing rod 11 is formed in the upper surface of the support column 1, a fourth threaded hole 15 is formed in the fixing rod 11, fifth threaded holes 14 are formed in opposite side walls of the fixing groove 13, when the fixing rod 11 is installed in the fixing groove 13, two ends of the fourth threaded hole 15 are respectively opposite to the two fifth threaded holes 14, and a third bolt 16 is jointly arranged in the fourth threaded hole 15 and the fifth threaded holes 14 in a penetrating mode.

Referring to fig. 1, the second mounting portion 32 includes a fourth bolt, and a mounting hole is formed at an end of the support column 1, and the fourth bolt is inserted into the mounting hole and fixed to the load-bearing wall 3, so that the field support column 1 and the load-bearing wall 3 can be fixed.

Referring to fig. 8, the third mounting portion 41 includes a fifth bolt 42 and two second ear plates 43, and a mounting plate 17 is fixed to one end of the support column 1 away from the load-bearing wall 3, and an extension direction of the mounting plate 17 is perpendicular to an extension direction of the support column 1; the two second lug plates 43 are arranged on the I-steel 4 at intervals, the mounting plate 17 is inserted between the two lug plates, the two second lug plates 43 are provided with sixth threaded holes 44, and the mounting plate 17 is provided with seventh threaded holes 45; when the mounting plate 17 is inserted between the two ear plates, the seventh screw hole 45 and the sixth screw hole 44 are disposed opposite to each other, and the fifth bolt 42 is inserted between the seventh screw hole 45 and the sixth screw hole 44.

The implementation principle of embodiment 1 of the present application is:

when the diagonal draw bar is installed, an opening for the support column 1 to penetrate is formed in the bottom of the outer wall of the building, then two ends of the support column 1 are respectively connected with the second installation part 32 and the third installation part 41, then two ends of the connecting rod 2 are respectively connected with the first installation part 31 and the support column 1, and at the moment, the connecting rod 2 is installed between the bearing wall 3 and the wallboard, so that the diagonal draw bar can stably support the I-steel 4. Through setting up connecting rod 2 inside the building, connecting rod 2 supports support column 1, and support column 1 supports I-steel 4, and the diagonal draw bar that can reduce the slope setting is located the scaffold frame inside that I-steel 4 top was set up, improves staff's working space in the scaffold frame, improves work efficiency.

Example 2

The embodiment 2 of the application discloses a climbing frame diagonal draw bar reinforcing structure.

Referring to fig. 9, embodiment 2 differs from embodiment 1 in that: the outer wall of the second connecting rod 22 is rotatably provided with a cover plate 24, one side of the cover plate 24 is provided with an arc surface, and one end, far away from the junction of the cover plate 24 and the second connecting rod 22, of the cover plate is fixed with the second connecting rod 22 through a connecting component 5; when the cover plate 24 is fixed to the second connecting rod 22 through the connecting assembly 5, the cover plate 24 covers all the surfaces of the first threaded holes 222, and an air bag 25 is disposed on one side of the cover plate 24, which is close to the second connecting rod 22, and the air bag 25 abuts against the surface of the second connecting rod 22. By providing the cover plate 24, the first screw hole 222 can be covered, the condition that the concrete falls into the movable groove 221 and solidifies in the construction process is reduced, and the smoothness of sliding of the first connecting rod 21 in the movable groove 221 is maintained. And by providing the air bag 25, the possibility that the dust concrete enters the inner wall of the movable groove 221 through the gap between the cover plate 24 and the surface of the second connecting rod 22 is further reduced.

The connecting assembly 5 comprises a plug block 51 and a connecting strip 52, the plug block 51 is fixed on the cover plate 24, and the outer wall of the plug block 51 is wrapped with a rubber layer; the connecting strip 52 is made of steel and the same material as the first connecting rod 21 and the second connecting rod 22, and the connecting strip 52 is fixed with the second connecting rod 22 in a spot welding mode; the connecting strip 52 is provided with a plugging groove 53 for plugging the plugging block 51.

The cooperation of grafting piece 51 and grafting groove 53 can be kept away from the one end of self and the junction of second connecting rod 22 and second connecting rod 22 mutually fixed with apron 24, reduces apron 24 and takes place the free rotation's condition, makes it can firmly cover in first screw hole 222 surface. And through setting up the rubber layer, grafting piece 51 adopts interference fit's mode grafting in grafting groove 53, further improves the steadiness that apron 24 and connecting strip 52 are connected.

The foregoing is a preferred embodiment of the present application, and is not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a climb frame diagonal draw bar reinforced structure which characterized in that: the support column (1) is used for being connected with a bearing wall (3) in a building, and one end, far away from the bearing wall (3), of the support column (1) is connected with I-steel (4); the two ends of the connecting rod (2) are respectively connected with the bearing wall (3) and the supporting column (1).

2. The climbing frame diagonal draw bar reinforcing structure according to claim 1, wherein: the connecting rod (2) comprises a first connecting rod (21) and a second connecting rod (22), the first connecting rod (21) is connected with the bearing wall (3), and the second connecting rod (22) is connected with the supporting column (1); the second connecting rod (22) is provided with a movable groove (221) for the first connecting rod (21) to penetrate through, a plurality of first threaded holes (222) are formed in the inner wall of the movable groove (221), the first threaded holes (222) are formed in the second connecting rod (22) at intervals in the length direction, the first connecting rod (21) is provided with first threaded grooves (211), and the first threaded grooves (211) and the first threaded holes (222) are jointly penetrated by first bolts (23).

3. The climbing frame diagonal draw bar reinforcing structure according to claim 2, wherein: the utility model discloses a connecting rod, including connecting rod (21), connecting rod (21) are connected with load-bearing wall (3) through first installation department (31), first installation department (31) include mounting (311) and installation pole (314), mounting (311) install in load-bearing wall (3), installation pole (314) pass through second bolt (317) with mounting (311) are connected, first screw thread portion (318) have been seted up to installation pole (314), second screw thread groove (212) have been seted up to connecting rod (21), first screw thread portion (318) of installation pole (314) with second screw thread groove (212) cooperate.

4. The climbing frame diagonal draw bar reinforcing structure according to claim 2, wherein: a cover plate (24) is rotatably arranged on the outer wall of the second connecting rod (22), and one side of the cover plate (24) is fixed with the second connecting rod (22) through a connecting component (5); when the cover plate (24) is fixed with the second connecting rod (22), the cover plate (24) covers the surfaces of all the first threaded holes (222).

5. The climbing frame diagonal draw bar reinforcing structure according to claim 4, wherein: the connecting assembly (5) comprises a plug-in block (51) and a connecting strip (52), the plug-in block (51) is fixed on the cover plate (24), and the plug-in block (51) is covered with a rubber layer; the connecting strip (52) is fixed on the second connecting rod (22), and the connecting strip (52) is provided with a plugging groove (53) for plugging the plugging block (51).

6. The climbing frame diagonal draw bar reinforcing structure according to claim 4, wherein: an air bag (25) is arranged on one side of the cover plate (24) close to the second connecting rod (22).

7. The climbing frame diagonal draw bar reinforcing structure according to claim 2, wherein: the outer wall of the first connecting rod (21) is fixedly provided with a guide strip (213), and the inner wall of the movable groove (221) is provided with a guide groove (223) for sliding the guide strip (213).

8. The climbing frame diagonal draw bar reinforcing structure according to claim 2, wherein: the second connecting rod (22) is connected with the support column (1) through the fixing rod (11), the second threaded portion (12) is arranged on the fixing rod (11), the third threaded groove (224) is arranged on the second connecting rod (22), and the second threaded portion (12) is matched with the third threaded groove (224).