CN220644244U - Auxiliary supporting device for building engineering piles - Google Patents

Abstract

The utility model discloses an auxiliary supporting device for a building engineering pile, which relates to the technical field of building engineering piles, wherein a hollow column is fixedly arranged on a bottom plate, a lifting rod is inserted into the hollow column, a limiting component is arranged between the lifting rod and the hollow column, a bearing block is fixedly arranged at the upper end of the lifting rod, a bearing box is fixedly arranged on the side wall surface of the bearing block, and a driving component is arranged in the bearing box.

Description

Auxiliary supporting device for building engineering piles

Technical Field

The utility model relates to the technical field of building engineering piles, in particular to an auxiliary supporting device for a building engineering pile.

Background

In engineering construction, the building piles are driven into the foundation by utilizing the friction between stratum and the building piles, and then the pile caps are matched to form pile foundations, so that the subsequent construction is convenient, the pile foundations can be roughly divided into a low-bearing-platform pile foundation and a high-bearing-platform pile foundation by the contact of the pile caps with soil bodies, and the pile foundations can be used for greatly reducing the workload of construction sites and the consumption of materials, and the deformation of the pile foundations under the action of earthquake force is small, so that the stability is good, and the method is an effective measure for solving the earthquake-resistant problem of the soft foundation and the earthquake-liquefied foundation in an earthquake area, so that the method has a wider application range in general;

after the building pile is inserted into the ground, the building pile is usually fixed only by virtue of the friction force between the ground and the building pile, the fixing effect is poor, the fixing instability is easy to cause, the building pile is offset, certain potential safety hazards exist, the fixing auxiliary device of the existing building pile cannot be effectively adjusted when the building piles with different heights are faced, the fixing effect of the fixing auxiliary device on the building pile is limited, the working efficiency of the fixing auxiliary device is reduced, and meanwhile, the unreasonable fixing position can damage the building pile, so that the bearing capacity of the building pile is influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the auxiliary supporting device for the building engineering piles, which solves the technical problems that the existing auxiliary supporting device for fixing the building piles cannot be effectively adjusted when facing the building piles with different heights, so that the fixing effect of the building piles is limited, the working efficiency of the auxiliary fixing device is reduced, and meanwhile, the unreasonable fixing position can damage the building piles to influence the bearing capacity of the building piles.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a building engineering stake auxiliary stay device, includes the bottom plate, fixed mounting has hollow post on the bottom plate, the lifter is equipped with in the hollow post, be equipped with spacing subassembly between lifter and the hollow post, lifter upper end fixed mounting has the loading block, loading block lateral wall face fixed mounting has the loading box, be equipped with drive assembly in the loading box, install the grip block on the drive assembly.

Preferably, the limiting component comprises a sliding groove, the sliding groove is arranged on two side wall surfaces of the lifting rod, a box body is fixedly arranged on two side wall surfaces in the hollow column, the box body is slidably arranged in the sliding groove, first threaded holes are formed in two side wall surfaces of the hollow column, a screw rod is connected in the first threaded holes in a rotating mode and penetrates through the box body, through holes are formed in the front wall surface, the rear wall surface and the side wall surface of the box body respectively, a supporting rod is inserted in the through holes, a baffle is fixedly arranged at one end of the supporting rod in the through holes in the front wall surface and the rear wall surface of the box body, a spring is fixedly arranged between the baffle and the box body and at one end of the supporting rod in the through holes in the side wall surface of the box body, a top plate is fixedly arranged at the other end of the supporting rod, and a top block is rotatably arranged on the screw rod.

Preferably, the cross section of the stop block is in a right trapezoid structure, the cross section of the top block is in an isosceles trapezoid structure, and the inclined edge of the right trapezoid structure of the stop block is matched with the inclined edge of the isosceles trapezoid of the top block.

Preferably, the driving assembly comprises a bidirectional screw rod, the bidirectional screw rod is rotatably arranged in the bearing box, a sliding rail is fixedly arranged on the inner side wall surface of the bearing box, a pair of moving blocks are slidably arranged in the sliding rail, a second threaded hole is formed in each moving block, the moving blocks are in meshed connection with the bidirectional screw rod through the second threaded holes, an opening is formed in the other side wall surface of the bearing box, and a connecting rod is hinged between each moving block and the clamping plate.

Preferably, a pair of guide rods are fixedly installed on the clamping plate and located on two sides of the connecting rod respectively, the guide rods penetrate through the bearing box, and limiting plates are fixedly installed on the penetrating ends of the guide rods.

Preferably, the clamping plate is in an arc-shaped plate structure.

Advantageous effects

The utility model is thatThe utility model provides an auxiliary support device for building engineering piles, which solves the technical problems that the prior auxiliary support device for fixing building piles cannot be effectively adjusted when facing building piles with different heights, so that the fixing effect of the auxiliary support device on the building piles is limited, the working efficiency of the auxiliary support device is reduced, meanwhile, unreasonable fixing positions can damage the building piles, and the bearing capacity of the building piles is influenced _。

Drawings

Fig. 1 is a schematic diagram of a front view structure of an auxiliary supporting device for a building engineering pile according to the present utility model.

Fig. 2 is a schematic structural view of a driving assembly of an auxiliary supporting device for construction piles according to the present utility model.

Fig. 3 is a schematic top view of a driving assembly of the auxiliary supporting device for construction piles according to the present utility model.

Fig. 4 is a schematic top view of a limiting assembly of the auxiliary supporting device for construction piles according to the present utility model.

Fig. 5 is a schematic diagram of a cross-sectional structure of a box body of an auxiliary supporting device for a building engineering pile according to the present utility model.

In the figure: 1. a bottom plate; 2. a hollow column; 3. a lifting rod; 4. a bearing block; 5. a carrying case; 6. a clamping plate; 7. a chute; 8. a case; 9. a screw rod; 10. a support rod; 11. a stop block; 12. a baffle; 13. a spring; 14. a top plate; 15. a top block; 16. a bidirectional screw rod; 17. a slide rail; 18. a moving block; 19. an opening; 20. a connecting rod; 21. a guide rod; 22. and a limiting plate.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the auxiliary supporting device for the building engineering pile comprises a bottom plate 1, wherein a hollow column 2 is fixedly arranged on the bottom plate 1, a lifting rod 3 is inserted into the hollow column 2, a limiting component is arranged between the lifting rod 3 and the hollow column 2, a bearing block 4 is fixedly arranged at the upper end of the lifting rod 3, a bearing box 5 is fixedly arranged on the side wall surface of the bearing block 4, a driving component is arranged in the bearing box 5, and a clamping plate 6 is arranged on the driving component;

the bottom plate 1 is fixed on a supporting plane through the bottom plate 1 and an external bolt, the lifting rod 3 is pulled at the moment, the lifting rod 3 moves in the hollow column 2, the height of the clamping plate 6 is adjusted, the lifting rod is applicable to building piles with any height, the lifting rod 3 is limited through the limiting assembly, the clamping plate 6 is driven to clamp the building piles through the driving assembly, and the lifting rod is applicable to building piles with any diameter.

The embodiment is further configured in that the limiting component comprises a chute 7, the chute 7 is formed on two side wall surfaces of the lifting rod 3, a box body 8 is fixedly installed on two side wall surfaces in the hollow column 2, the box body 8 is slidably installed in the chute 7, first threaded holes are formed on two side wall surfaces of the hollow column, a screw rod 9 is internally connected with the first threaded holes in a rotating mode, the screw rod 9 penetrates through the box body 8, through holes are respectively formed in the front wall surface, the rear wall surface and the side wall surface of the box body 8, a supporting rod 10 is inserted into the through holes, a baffle 11 is fixedly installed at one end of the supporting rod 10 in the through holes in the front wall surface and the rear wall surface of the box body 8, a baffle 12 is fixedly installed at one end of the supporting rod 10 in the through holes in the side wall surface of the box body 8, a spring 13 is fixedly installed between the baffle 12 and the baffle 11 and the box body 8, the spring 13 is sleeved on the supporting rod 10, a top plate 14 is fixedly installed at the other end of the supporting rod 10, and a top block 15 is rotatably installed on the screw rod 9;

when lifter 3 moves in the hollow rod, box 8 and spout 7 play the direction limiting displacement to lifter 3, rotate lead screw 9, lead screw 9 feeds along first screw hole route, and then make lead screw 9 promote kicking block 15, kicking block 15 promotes dog 11 and baffle 12, and then makes dog 11 and baffle 12 promote branch 10, and then makes spring 13 atress compress, and branch 10 promotes roof 14 for roof 14 extrudees spout 7 internal face, carries out spacingly with lifter 3.

The embodiment is further configured in that the cross section of the block 11 is in a right trapezoid structure, the cross section of the top block 15 is in an isosceles trapezoid structure, and the inclined side of the right trapezoid structure of the block 11 is matched with the inclined side of the isosceles trapezoid of the top block 15.

The driving assembly further comprises a bidirectional screw rod 16, the bidirectional screw rod 16 is rotatably installed in the bearing box 5, a sliding rail 17 is fixedly installed on the inner side wall surface of the bearing box 5, a pair of moving blocks 18 are slidably installed in the sliding rail 17, a second threaded hole is formed in one pair of the moving blocks 18, the moving blocks 18 are in meshed connection with the bidirectional screw rod 16 through the second threaded hole, an opening 19 is formed in the other side wall surface of the bearing box 5, and a connecting rod 20 is hinged between the moving blocks 18 and the clamping plate 6;

the bidirectional screw rod 16 is rotated, the bidirectional screw rod 16 is meshed with the moving block 18 through the second threaded hole, so that the bidirectional screw rod 16 has a driving effect on the moving block 18, the moving block 18 moves along a path of the sliding rail 17, the moving block 18 moves in opposite directions to squeeze the connecting rod 20, and the connecting rod 20 performs closing movement to push the clamping plate 6.

The embodiment is further configured in that a pair of guide rods 21 are fixedly installed on the clamping plate 6 and located at two sides of the connecting rod 20, the guide rods 21 penetrate through the bearing box 5, and limiting plates 22 are fixedly installed on the penetrating ends of the guide rods 21;

the clamping plate 6 is moved in the horizontal direction under the action of the guide bar 21 during movement, and the limit plate 22 prevents the guide bar 21 from moving out of the carrying case 5 in transition.

The embodiment is further provided that the clamping plate 6 is in an arc-shaped plate structure;

the clamping plate 6 is of an arc-shaped plate structure, so that the clamping plate 6 can conform to the outer wall surface of the building pile cylinder.

The detailed connection means are known in the art, and the following mainly describes the working principle and process, and the specific work is as follows.

Examples: according to the attached drawings, the bottom plate 1 is fixed on a supporting plane through the bottom plate 1 and an external bolt, the lifting rod 3 is pulled at the moment, the lifting rod 3 moves in the hollow column 2, the height of the clamping plate 6 is adjusted, the lifting rod 3 is suitable for building piles with any height, when the lifting rod 3 moves in the hollow rod, the box body 8 and the sliding groove 7 play a guiding limiting role on the lifting rod 3, the screw rod 9 is rotated, the screw rod 9 is fed along a first threaded hole path, the screw rod 9 is further enabled to push the top block 15, the top block 15 is enabled to push the stop block 11 and the baffle 12, the stop block 11 and the baffle 12 are further enabled to push the supporting rod 10, the spring 13 is further enabled to be stressed to compress, the supporting rod 10 is enabled to push the top plate 14, the top plate 14 to squeeze the inner wall surface of the sliding groove 7, the lifting rod 3 is limited, the bidirectional screw rod 16 is rotated, the bidirectional screw rod 16 is meshed with the moving block 18 through a second threaded hole, the bidirectional screw rod 16 has a driving role on the moving block 18, the moving block 18 moves along a sliding rail 17 path, the moving block 18 moves in opposite directions, the connecting rods 20, 20 and 20 are further enabled to push the clamping plate 6 to move in a closing motion along the sliding rail 17, the sliding rod 21 moves the sliding rod 21 in the direction of the sliding rail 21, the sliding rod 21 moves along the guide rail 21, the sliding rod 21 is further is suitable for clamping the diameter of the building piles, and the moving pile is further prevented from moving along the diameter of the sliding guide pile, and the moving pile is further enabled to move along the diameter of the sliding guide rail 21, and the bearing pile is suitable for the diameter of the supporting pile, and the supporting pile is suitable for being fixed, and the diameter and the moving and the pile is suitable for being moved and the diameter and the supporting and the pile.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (6)

1. The utility model provides a building engineering stake auxiliary stay device, includes bottom plate (1), its characterized in that, fixed mounting has hollow post (2) on bottom plate (1), lifter (3) are equipped with in hollow post (2), be equipped with spacing subassembly between lifter (3) and hollow post (2), lifter (3) upper end fixed mounting has carrier block (4), carrier block (4) lateral wall face fixed mounting has carrier box (5), be equipped with drive assembly in carrier box (5), install grip block (6) on the drive assembly.

2. The auxiliary supporting device for the building engineering pile according to claim 1, wherein the limiting component comprises a sliding groove (7), the sliding groove (7) is formed in two side wall surfaces of a lifting rod (3), a box body (8) is fixedly installed on one end of the supporting rod (10) in the two side wall surfaces of the hollow column (2), the box body (8) is slidably installed in the sliding groove (7), first threaded holes are formed in two side wall surfaces of the hollow column, a screw rod (9) is fixedly connected in the first threaded holes in a penetrating mode, the screw rod (9) penetrates through the box body (8), through holes are formed in the front wall surface and the rear wall surface of the box body (8) and in the side wall surface of the box body respectively, a supporting rod (10) is fixedly installed in one end of the supporting rod (10) in the through holes in the front wall surface and the rear wall surface of the box body (8), a baffle (12) is fixedly installed on one end of the supporting rod (10) in the through holes in the box body (8), a spring (13) is fixedly installed between the baffle (12) and the supporting rod (11) and the box body (8), and a top plate (14) is fixedly installed on one end of the supporting rod (10), and a top plate (14) is installed on the other top plate (14).

3. The auxiliary supporting device for the constructional engineering pile according to claim 2, wherein the cross section of the stop block (11) is in a right trapezoid structure, the cross section of the top block (15) is in an isosceles trapezoid structure, and the inclined side of the right trapezoid structure of the stop block (11) is matched with the inclined side of the isosceles trapezoid of the top block (15).

4. The auxiliary supporting device for the building engineering pile according to claim 1, wherein the driving assembly comprises a bidirectional screw rod (16), the bidirectional screw rod (16) is rotatably installed in the bearing box (5), a sliding rail (17) is fixedly installed on the inner side wall surface of the bearing box (5), a pair of moving blocks (18) are slidably installed in the sliding rail (17), a second threaded hole is formed in the pair of moving blocks (18), the moving blocks (18) are meshed with the bidirectional screw rod (16) through the second threaded hole, an opening (19) is formed in the other side wall surface of the bearing box (5), and a connecting rod (20) is hinged between the moving blocks (18) and the clamping plate (6).

5. The auxiliary supporting device for the building engineering pile according to claim 4, wherein a pair of guide rods (21) are fixedly installed on the clamping plate (6) and located on two sides of the connecting rod (20), the guide rods (21) penetrate through the bearing box (5), and limiting plates (22) are fixedly installed on penetrating ends of the guide rods (21).

6. A construction pile auxiliary supporting device according to claim 1, characterised in that the clamping plate (6) is of arcuate construction.