CN219931716U - Building reinforcing structure that rectifies - Google Patents

Abstract

The utility model discloses a building deviation correcting and reinforcing structure, which comprises a base, wherein a plurality of ground nails are arranged on the base, a first supporting table is arranged on one side of the base, a second supporting table is arranged on the other side of the base, a first working table is arranged between the first supporting table and the second supporting table in a sliding manner, a second working table is arranged on the first working table, a first supporting plate is hinged to the second working table, a second supporting plate is arranged on the first supporting plate in a sliding manner, the purpose of lifting the supporting structure is achieved by sliding the second supporting plate on the first supporting plate, the first working table is arranged between the first supporting table and the second supporting table in a sliding manner, and therefore after the base is fixed by the ground nails, the first working table can be subjected to position adjustment on the base and simultaneously drive the position adjustment of the second working table.

Description

Building reinforcing structure that rectifies

Technical Field

The utility model relates to the technical field of building equipment, in particular to a building deviation rectifying and reinforcing structure.

Background

The building deviation correction means that the existing building is inclined due to the deviation of the vertical position caused by a certain reason, so that the use is seriously influenced, and even the life, property and factory production safety of residents are endangered, the adopted deviation correction and strengthening measures are adopted to recover the normal use function of the building.

The patent of publication No. CN216840759U discloses a reinforcement and rectification structure of building, including foundation, wall body, still including the level set up one end butt in the mounting panel on wall body surface, fixed connection in mounting panel top and one side butt in wall body surface's supporting shoe, be located supporting shoe top and one side butt in wall body surface's backup pad, the backup pad with be equipped with between the supporting shoe and be used for adjusting the adjusting part of backup pad position, the backup pad keep away from one side of wall body be equipped with support in the supporting part of foundation upper surface, a plurality of grafting grooves have been seted up to foundation upper surface, the supporting part with the mounting panel bottom all is connected with the spliced pole and wears to locate in the grafting groove, the spliced pole with be equipped with fixed subassembly between the grafting groove.

However, the building reinforcing and correcting structure does not have the height lifting function of a supporting structure, and the equipment does not have the function of adjusting the position of the ground nail without disassembling after the ground nail is fixed.

There is a need for a building deviation correcting reinforcement structure that meets the needs of people.

Disclosure of Invention

The utility model aims to provide a building deviation rectifying and reinforcing structure, which solves the problem that the height lifting function without a supporting structure and the position adjustment of a ground nail without disassembly are provided in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a building reinforcement structure that rectifies, includes the base, install a plurality of ground nails on the base, first brace table is installed on one side of base, and the second brace table is installed to the another side of base, slidable mounting has first workstation between first brace table and the second brace table, installs the second workstation on the first workstation, articulates on the second workstation has first backup pad, slidable mounting has the second backup pad in the first backup pad.

The first workbench is slidably mounted between the first supporting table and the second supporting table, the second workbench is mounted on the first workbench, so that the floor thickness of the floor nail can be fixed, the first workbench can still be adjusted in position, the second workbench is driven to be adjusted in position, the second supporting plate is slidably mounted on the first supporting plate, and the supporting structure can be enabled to have a lifting function.

Preferably, two support rods are fixedly installed between the first support table and the second support table, the two support rods penetrate through the first workbench, a screw rod is rotatably installed between the first support table and the second support table, a motor is installed on the side face of the first support table, the power output end of the motor is connected with the screw rod, and the screw rod is located between the two support rods and penetrates through the first workbench.

The two support rods penetrate through the first workbench to limit the first workbench, so that the first workbench can slide when the screw rod rotates, and the position adjustment operation of the disassembly-free ground screw is realized.

Preferably, four first connecting pieces are installed on the second workbench, and a first telescopic rod is installed between every two first connecting pieces which correspond to each other in a rotating mode.

The first telescopic rod is rotatably arranged between the two first connecting pieces, so that the first telescopic rod has a rotating function.

Preferably, the two sides of the power output end of the first telescopic rod are rotatably provided with second connecting pieces, and the second connecting pieces are fixedly arranged on the first supporting plate.

The second connecting pieces are fixedly arranged on the first supporting plate, and the power output end of the first telescopic rod is rotatably arranged between the two second connecting pieces, so that the first supporting plate can be driven to have a folding function.

Preferably, a T-shaped sliding groove is formed in the first supporting plate, sliding blocks are slidably mounted on two sides of the T-shaped sliding groove, and the second supporting plate is mounted between the two sliding blocks.

Through seting up T type spout in first backup pad, the equal slidable mounting in both sides of T type spout has the slider, and the second backup pad is installed between two sliders to let bearing structure possess the lift function.

Preferably, two third connecting pieces corresponding to each other are installed on the first workbench, a second telescopic rod is installed between the two third connecting pieces in a rotating mode, a fourth connecting piece is installed on two sides of a power output end of the second telescopic rod in a rotating mode, and the fourth connecting piece is fixedly installed on the second supporting plate.

The second telescopic rod is rotatably arranged between the two third connecting pieces, so that the second telescopic rod can rotate, the second telescopic rod is fixedly arranged on the second supporting plate through the fourth connecting pieces, the power output end of the second telescopic rod is rotatably arranged between the two fourth connecting pieces, and the second supporting plate can be driven to slide and rise when the second telescopic rod stretches out.

Preferably, a notch is formed above the first supporting plate, and the notch is located below the two fourth connecting pieces.

The notch is formed above the first supporting plate, so that the second supporting plate can retract into the first supporting plate when not in use.

The beneficial effects of the utility model are as follows:

according to the utility model, the second support plate is slidably arranged on the first support plate, so that the lifting purpose of the support structure is achieved.

According to the utility model, the first workbench is slidably arranged between the first supporting table and the second supporting table, and the second workbench is arranged on the first workbench, so that after the base is fixed by the ground nails, the first workbench can be subjected to position adjustment on the base, and meanwhile, the position adjustment of the second workbench is driven.

Drawings

FIG. 1 is a schematic structural diagram of a building deviation correcting and reinforcing structure according to the present utility model;

FIG. 2 is a schematic top sectional view of a structure for rectifying and reinforcing a building according to the present utility model;

FIG. 3 is a schematic side view of a structure of a building deviation rectifying and reinforcing structure according to the present utility model;

fig. 4 is a schematic rear view cross-section of a deviation rectifying and reinforcing structure for a building according to the present utility model.

In the figure: 1. a base; 2. ground nails; 3. a first support table; 4. a second support table; 5. a first work table; 6. a second work table; 7. a first support plate; 8. a second support plate; 9. a support rod; 10. a screw; 11. a motor; 12. a first connector; 13. a first telescopic rod; 14. a second connector; 15. a T-shaped chute; 16. a slide block; 17. a third connecting member; 18. a second telescopic rod; 19. a fourth connecting member; 20. and (5) a notch.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-4, a building deviation rectifying and reinforcing structure comprises a base 1, wherein a plurality of ground nails 2 are installed on the base 1, a first supporting table 3 is installed on one side of the base 1, a second supporting table 4 is installed on the other side of the base 1, a first workbench 5 is installed between the first supporting table 3 and the second supporting table 4 in a sliding mode, a second workbench 6 is installed on the first workbench 5, a first supporting plate 7 is hinged to the second workbench 6, and a second supporting plate 8 is installed on the first supporting plate 7 in a sliding mode.

Through installing a plurality of ground nails 2 on base 1 to can fix base 1, through installing first brace table 3 and second brace table 4 on base 1, first workstation 5 slidable mounting is between first brace table 3 and second brace table 4, thereby can let first workstation 5 possess and exempt from to tear open ground nail 2 under the fixed condition of base 1 and carry out the position adjustment, through installing second workstation 6 on first workstation 5, thereby can drive the position adjustment of second workstation 6 simultaneously, through slidable mounting second backup pad 8 on first backup pad 7, thereby can let bearing structure possess the raising and lowering functions.

Referring to fig. 1 to 3, in the present utility model, two support rods 9 are fixedly installed between a first support table 3 and a second support table 4, both support rods 9 pass through a first work table 5, a screw 10 is rotatably installed between the first support table 3 and the second support table 4, a motor 11 is installed at a side surface of the first support table 3, a power output end of the motor 11 is connected with the screw 10, and the screw 10 is located between the two support rods 9 and passes through the first work table 5.

Through two bracing pieces 9 of fixed mounting between first brace table 3 and second brace table 4, two bracing pieces 9 all pass first workstation 5 to can support fixedly first workstation 5, rotate between first brace table 3 and the second brace table 4 simultaneously and install screw rod 10, screw rod 10 passes first workstation 5, and motor 11's power take off end is connected with screw rod 10, thereby can drive screw rod 10 through motor 11 and rotate, thereby drive first workstation 5 and carry out position adjustment.

Referring to fig. 1 and 3, in the present utility model, four first connectors 12 are mounted on the second table 6, and a first telescopic rod 13 is rotatably mounted between each two first connectors 12 corresponding to each other.

By installing four first connecting pieces 12 on the second workbench 6, a first telescopic rod 13 is rotatably installed between every two first connecting pieces 12 corresponding to each other, so that the first telescopic rod 13 has a rotation adjusting function.

Referring to fig. 1 and 3, in the present utility model, the second connection member 14 is rotatably installed at both sides of the power output end of the first telescopic link 13, and the second connection member 14 is fixedly installed on the first support plate 7.

The second connecting pieces 14 are rotatably installed on two sides of the power output end of the first telescopic rod 13, and the second connecting pieces 14 are fixedly installed on the first supporting plate 7, so that the first supporting plate 7 can be folded when the first telescopic rod 13 is contracted, the first supporting plate 7 can be unfolded when the first telescopic rod is extended, and the first supporting plate 7 is supported.

Referring to fig. 1 and 3-4, in the present utility model, a T-shaped chute 15 is formed on a first support plate 7, two sides of the T-shaped chute 15 are slidably provided with sliders 16, and a second support plate 8 is installed between the two sliders 16.

By providing the T-shaped chute 15 on the first support plate 7, the two sides of the T-shaped chute 15 are both slidably provided with the sliding blocks 16, and the second support plate 8 is mounted between the two sliding blocks 16, so that the second support plate 8 can slide and lift on the first support plate 7.

Referring to fig. 1 and 3, in the present utility model, two third connecting members 17 corresponding to each other are installed on the first table 5, a second telescopic rod 18 is rotatably installed between the two third connecting members 17, fourth connecting members 19 are rotatably installed at both sides of a power output end of the second telescopic rod 18, and the fourth connecting members 19 are fixedly installed on the second supporting plate 8.

Through installing two third connecting pieces 17 that correspond each other on first workstation 5, rotate between two third connecting pieces 17 and install second telescopic link 18 to let second telescopic link 18 possess the rotation regulation function, all rotate through the both sides of the power take off of second telescopic link 18 and install fourth connecting piece 19, fourth connecting piece 19 fixed mounting is on second backup pad 8, thereby can drive second backup pad 8 through the flexible of second telescopic link 18 and go up and down to work on first backup pad 7.

Referring to fig. 1 and 3-4, in the present utility model, a notch 20 is formed above the first supporting plate 7, and the notch 20 is located below the two fourth connecting pieces 19.

By providing the notch 20 above the first support plate 7 and the notch 20 below the two fourth connecting pieces 19, the second support plate 8 can be retracted unhindered into the first support plate 7 when lowered.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (7)

1. The utility model provides a building reinforcement structure that rectifies, includes base (1), its characterized in that: install a plurality of ground nails (2) on base (1), first brace table (3) are installed on one side of base (1), second brace table (4) are installed on the another side of base (1), slidable mounting has first workstation (5) between first brace table (3) and second brace table (4), installs second workstation (6) on first workstation (5), articulates on second workstation (6) has first backup pad (7), slidable mounting has second backup pad (8) on first backup pad (7).

2. The building deviation rectifying and reinforcing structure according to claim 1, wherein: two supporting rods (9) are fixedly installed between the first supporting table (3) and the second supporting table (4), the two supporting rods (9) penetrate through the first workbench (5), a screw rod (10) is rotatably installed between the first supporting table (3) and the second supporting table (4), a motor (11) is installed on the side face of the first supporting table (3), the power output end of the motor (11) is connected with the screw rod (10), and the screw rod (10) is located between the two supporting rods (9) and penetrates through the first workbench (5).

3. The building deviation rectifying and reinforcing structure according to claim 1, wherein: four first connecting pieces (12) are arranged on the second workbench (6), and a first telescopic rod (13) is rotatably arranged between every two first connecting pieces (12) which correspond to each other.

4. A building deviation rectifying and reinforcing structure according to claim 3, characterized in that: the two sides of the power output end of the first telescopic rod (13) are rotatably provided with second connecting pieces (14), and the second connecting pieces (14) are fixedly arranged on the first supporting plate (7).

5. The building deviation rectifying and reinforcing structure according to claim 1, wherein: the T-shaped sliding groove (15) is formed in the first supporting plate (7), sliding blocks (16) are slidably mounted on two sides of the T-shaped sliding groove (15), and the second supporting plate (8) is mounted between the two sliding blocks (16).

6. The building deviation rectifying and reinforcing structure according to claim 1, wherein: two third connecting pieces (17) corresponding to each other are installed on the first workbench (5), a second telescopic rod (18) is installed between the two third connecting pieces (17) in a rotating mode, a fourth connecting piece (19) is installed on two sides of a power output end of the second telescopic rod (18) in a rotating mode, and the fourth connecting piece (19) is fixedly installed on the second supporting plate (8).

7. The building deviation rectifying and reinforcing structure according to claim 1, wherein: a notch (20) is formed above the first supporting plate (7), and the notch (20) is positioned below the two fourth connecting pieces (19).