CN220686045U

CN220686045U - A bored pile reinforcement structure

Info

Publication number: CN220686045U
Application number: CN202322239268.8U
Authority: CN
Inventors: 王少博; 朱江涛; 李斌利; 王金雷; 杨健; 赵旭明
Original assignee: Individual
Current assignee: Sinohydro Bureau 3 Co Ltd
Priority date: 2023-08-21
Filing date: 2023-08-21
Publication date: 2024-03-29
Anticipated expiration: 2033-08-21

Abstract

The utility model provides a bored pile reinforcing structure, which relates to the field of bored pile construction and aims to solve the problems that after the reinforcing structure is used for a long time, the fixing strength is easy to drop, and the supporting effect is influenced because the fixing strength cannot be adjusted after the fixing strength is dropped; the two reinforcing main bodies are symmetrically arranged on two sides of the cast-in-place pile, stress plates are arranged on the outer sides of the reinforcing main bodies, a pressing assembly is respectively arranged on two sides of the reinforcing main bodies, bolt insertion holes which can be in the same axis with the connecting holes are formed in two sides of the pressing assembly, and pressing grooves capable of controlling transverse displacement of the stress plates are formed in the pressing assembly. After two consolidate main part centre gripping and consolidate bored concrete pile, long-term use, after fixed strength descends, direct control bolt screws up, and the pressing subassembly passes through indent control atress board and consolidate main part lateral displacement, consolidate main part lateral displacement after, centre gripping bored concrete pile, improves the reinforcement intensity again, conveniently improves fixed strength many times, maintains simply.

Description

Bored pile reinforced structure

Technical Field

The utility model belongs to the technical field of cast-in-situ pile construction, and particularly relates to a cast-in-situ bored pile reinforcing structure.

Background

The bored pile is when carrying out engineering construction, uses means such as rig to drill in foundation earth, then places the steel reinforcement cage, concreting forms the bored pile, then supports building or other structures through the bored pile, improves supporting strength, and after the bored pile shaping, it is comparatively weak around it, needs to use reinforced structure to improve intensity, and reinforced structure uses after a long time, and fixed strength drops easily, can't adjust after the decline, influences the supporting effect, and reinforced structure fixed area is less, if bored pile bottom earth is soft, the bored pile appears slight slope easily.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a bored pile reinforcing structure, which aims to solve the problems that after the reinforcing structure is used for a long time, the fixing strength is easy to drop, and the supporting effect is affected because the fixing strength cannot be adjusted after the fixing strength is dropped.

The utility model relates to a bored pile reinforcing structure, which comprises: reinforcing the body; the two reinforcing main bodies are symmetrically arranged at two sides of the cast-in-place pile, connecting holes capable of being inserted with bolts are arranged at the bottoms of the reinforcing main bodies, nuts are arranged outside the bolts, stress plates are arranged on the outer sides of the reinforcing main bodies, a pressing assembly is respectively arranged at two sides of the reinforcing main bodies, bolt insertion holes capable of being in the same axis with the connecting holes are arranged at two sides of the pressing assembly, and pressing grooves capable of controlling the transverse displacement of the stress plates are arranged inside the pressing assembly;

the moving assembly is respectively installed on two sides of the reinforcing main body, the moving assembly is in sliding connection with the moving plate through the guide head, a supporting frame is fixed outside the moving plate, the supporting frame is welded with a clamping assembly, and the two clamping assemblies are installed above the cast-in-place pile in a clamping mode.

Optionally, two through grooves are formed in each reinforcement main body, the stress plate is inclined, after the nuts are screwed, the pressing assembly is driven to move downwards, and the stress plate and the reinforcement main bodies are controlled to move transversely and clamp by the pressing grooves; two guide round rods are fixed outside the reinforcing main body, springs are sleeved outside the round rods, outer pieces with sliding grooves are welded outside the two round rods, a moving assembly is inserted into the sliding grooves in a sliding mode, and vertically arranged clamping blocks are arranged outside the outer pieces; the outside cover of round bar is equipped with the sliding plate, and the outside and the spring contact of sliding plate are fixed with the pushing head of a cooperation logical groove installation respectively at the both ends of sliding plate, and the inside of pushing head is equipped with anti-skidding tooth, but pushing head lateral shifting.

Optionally, a groove is arranged outside the moving assembly, an elastic clamping plate which can be clamped with the clamping block is welded and fixed inside the groove, a guide head is fixed at the bottom of the moving assembly, and the guide head is slidably embedded in a top groove above the moving plate; the two sides of the moving plate are of inclined structures, the two sides of the moving plate are in sliding fit with the bottom head, and the bottom head is welded and fixed above the reinforcing main body; after the moving assembly moves downwards, the moving plate is driven to move, and the moving plate and the bottom head are in sliding contact with each other to transversely displace, so that the support frame and the clamping assembly are driven to clamp the cast-in-place pile.

Compared with the prior art, the utility model has the following beneficial effects:

1. after the two reinforcing main bodies clamp the reinforced cast-in-place pile, the reinforced cast-in-place pile is used for a long time, after the fixing strength is reduced, the bolts are directly controlled to be screwed, the pressing assembly controls the transverse displacement of the stressed plate and the reinforcing main bodies through the pressing grooves, after the transverse displacement of the reinforcing main bodies, the cast-in-place pile is clamped, the reinforcing strength is improved again, the fixing strength is improved conveniently for a plurality of times, and the maintenance is simple;

2. the reinforcing main body drives the moving assembly, the supporting frame and the clamping assembly to be installed and used together, and the clamping assembly clamps the cast-in-place pile at a high position, so that the clamping area and the clamping strength are improved;

3. the movable assembly can be fixed after moving downwards, the movable plate and the bottom head are in sliding contact with each other to displace, the clamping assembly is driven to move inwards to clamp, the clamping effect on the filling pile is improved, and later-stage inclination of the filling pile is avoided.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic bottom view of the present utility model.

Fig. 3 is an exploded perspective view of the present utility model.

Fig. 4 is an exploded perspective view of the reinforcing body of the present utility model.

Fig. 5 is an exploded perspective view of the mobile assembly of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. reinforcing the body; 101. a through groove; 102. a force-bearing plate; 103. an outer member; 104. a clamping block; 105. a sliding plate; 106. a pushing head; 107. a pressing assembly; 108. pressing a groove;

2. a moving assembly; 201. an elastic clamping plate; 202. a guide head; 203. a moving plate; 204. a bottom head; 205. a top groove; 206. a support frame; 207. and a clamping assembly.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples

As shown in fig. 1 to 5:

the utility model provides a bored pile reinforcing structure, which comprises: a reinforcing body 1; the two reinforcing bodies 1 are symmetrically arranged at two sides of the cast-in-place pile, connecting holes capable of being inserted with bolts are arranged at the bottoms of the reinforcing bodies 1, the bolts are inserted to fix the reinforcing bodies 1, the reinforcing bodies 1 are controlled to clamp the cast-in-place pile, reinforcing strength is improved, nuts are arranged outside the bolts, stress plates 102 are arranged on the outer sides of the reinforcing bodies 1, one pressing assembly 107 is respectively arranged at two sides of the reinforcing bodies 1, bolt insertion holes which can be in the same axis with the connecting holes are arranged at two sides of the pressing assembly 107, pressing grooves 108 capable of controlling the transverse displacement of the stress plates 102 are arranged inside the pressing assembly 107, after the bolts are screwed, the pressing assembly 107 is driven to move together, the stress plates 102 and the reinforcing bodies 1 are controlled to transversely move through the pressing grooves 108, and clamping strength is transversely improved;

the movable assembly 2, two movable assemblies 2 are installed respectively in the both sides of two reinforcement main bodies 1, and movable assembly 2 passes through direction head 202 and movable plate 203 sliding connection, and the movable plate 203 outside is fixed with support frame 206, and support frame 206 welding has clamping assembly 207, and two clamping assembly 207 centre gripping are installed in bored concrete pile top, increase the reinforcement area, improve reinforcement strength.

Referring to fig. 4, two through slots 101 are formed in each reinforcement main body 1, so as to control the pushing head 106 to guide and displace in the reinforcement main body, the stress plate 102 is inclined, after the nuts are screwed, the pressing assembly 107 is driven to move downwards, and after the pressing slots 108 control the stress plate 102 and the reinforcement main body 1 to move transversely and clamp; two guiding round rods are fixed outside the reinforcing main body 1, springs are sleeved outside the round rods and continuously push the sliding plate 105 to transversely displace to drive the pushing head 106 to be fixed with the outer part of the cast-in-place pile in an anti-slip contact manner, outer parts 103 with sliding grooves are welded outside the two round rods, a moving assembly 2 is inserted into the sliding grooves in a sliding manner, the guiding displacement of the moving assembly 2 is controlled, vertically arranged clamping blocks 104 are arranged outside the outer parts 103 and are used for being clamped with the elastic clamping plates 201, and after the moving assembly 2 moves, the limiting fixing is carried out; the outside cover of round bar is equipped with slide plate 105, and slide plate 105's outside and spring contact, and slide plate 105's both ends are fixed with the push head 106 that a cooperation leads to the groove 101 installation respectively, and the inside guide displacement of push head 106 is equipped with anti-skidding tooth for with filling pile anti-skidding contact, push head 106 lateral shifting.

Referring to fig. 5, a groove is formed in the outside of the moving assembly 2, an elastic clamping plate 201 capable of being clamped with the clamping block 104 is welded and fixed in the groove, after the moving assembly 2 moves downwards and is adjusted, a guide head 202 is fixed at the bottom of the moving assembly 2, the guide head 202 is slidably embedded in a top groove 205 above the moving plate 203, and the moving plate 203 is driven to slide in a guiding manner; the two sides of the moving plate 203 are of inclined structures, the two sides of the moving plate 203 are in sliding fit with the bottom head 204, and the bottom head 204 is welded and fixed above the reinforcing main body 1; after the moving assembly 2 moves downwards, the moving plate 203 is driven to move, the moving plate 203 and the bottom head 204 are in sliding contact and laterally displace, the support frame 206 and the clamping assembly 207 are driven to clamp the cast-in-place pile, and the clamping effect is improved.

Embodiment two: if the pressing assembly 107 is not installed during fixing, the use cost can be reduced.

When in use, the utility model is characterized in that: after the cast-in-place pile is formed, the control bolts are fixedly connected with the ground, the control bolts are inserted into the connecting holes of the reinforcing main body 1 and simultaneously inserted into the bolt insertion holes, then the nuts are controlled to be screwed, the nuts drive the pressing assemblies 107 to move downwards, the stress plates 102 are controlled to move transversely through the pressing grooves 108, the two reinforcing main bodies 1 are driven to move transversely to clamp the cast-in-place pile, clamping and reinforcing strength are improved, meanwhile, the springs continuously push the sliding plates 105 and the pushing heads 106, the pushing heads 106 are fixed with the cast-in-place pile in an anti-slip contact manner through anti-slip teeth, then the moving assemblies 2 are pressed downwards to move, after moving, the elastic clamping plates 201 are clamped with the clamping blocks 104, meanwhile, the guide heads 202 are driven to move together, the moving plates 203 are controlled to move downwards, two sides of the moving plates 203 are in sliding contact with the bottom heads 204, and the supporting frames 206 and the clamping assemblies 207 are driven to move downwards, and simultaneously, the clamping area and the clamping strength are increased.

Claims

1. A bored pile reinforcing structure, comprising:

a reinforcing body (1); the two reinforcing main bodies (1) are symmetrically arranged at two sides of the cast-in-place pile, connecting holes capable of being inserted with bolts are arranged at the bottoms of the reinforcing main bodies (1), and nuts are arranged outside the bolts, the cast-in-place pile is characterized in that stress plates (102) are arranged on the outer sides of the reinforcing main bodies (1), a pressing assembly (107) is respectively arranged at two sides of the reinforcing main bodies (1), bolt insertion holes capable of being in the same axis with the connecting holes are arranged at two sides of the pressing assembly (107), and pressing grooves (108) capable of controlling the transverse displacement of the stress plates (102) are arranged inside the pressing assembly (107);

the movable assembly (2), two the movable assembly (2) are installed respectively in two the both sides of strengthening main part (1), and movable assembly (2) are through direction head (202) and movable plate (203) sliding connection, and movable plate (203) outside is fixed with support frame (206), and support frame (206) welding has clamping assembly (207), and two clamping assembly (207) centre gripping are installed in bored concrete pile top.

2. A bored pile reinforcing structure as set forth in claim 1, characterized in that two through grooves (101) are provided in each reinforcing body (1), the stress plate (102) is inclined, and after the nuts are tightened, the pressing assembly (107) is driven to move downwards, and the pressing grooves (108) control the stress plate (102) and the reinforcing body (1) to move and clamp laterally.

3. A bored pile reinforcing structure as set forth in claim 1, characterized in that the exterior of the reinforcing body (1) is fixed with two guiding round bars, the exterior of the round bars is sleeved with springs, the exterior of the two round bars is welded with an outer piece (103) with a chute, the interior of the chute is slidably inserted with a moving assembly (2), and the exterior of the outer piece (103) is provided with vertically arranged clamping blocks (104).

4. A bored pile reinforcing structure as set forth in claim 3, characterized in that the outside of the round bar is sleeved with a sliding plate (105), the outside of the sliding plate (105) is in contact with the spring, both ends of the sliding plate (105) are respectively fixed with a pushing head (106) which is installed in cooperation with the through groove (101), the inside of the pushing head (106) is provided with anti-slip teeth, and the pushing head (106) can move transversely.

5. A bored pile reinforcing structure as set forth in claim 1, characterized in that the outside of the moving assembly (2) is provided with a groove, an elastic clamping plate (201) capable of being clamped with the clamping block (104) is welded and fixed in the groove, a guide head (202) is fixed at the bottom of the moving assembly (2), and the guide head (202) is slidably embedded in a top groove (205) above the moving plate (203).

6. The bored pile reinforcing structure as set forth in claim 1, wherein both sides of the moving plate (203) are of an inclined structure, both sides of the moving plate (203) are slidably attached to the bottom head (204), and the bottom head (204) is welded and fixed above the reinforcing body (1).

7. A bored pile reinforcing structure according to claim 6, wherein the moving assembly (2) moves downwards to drive the moving plate (203) to move, and the moving plate (203) moves horizontally in sliding contact with the bottom head (204) to drive the supporting frame (206) and the clamping assembly (207) to clamp the bored pile.