CN220352816U - Auxiliary device for static pressure pile placement of reinforced concrete anchor rod - Google Patents

Abstract

The utility model relates to the technical field of pile pressing, in particular to an auxiliary device for the positioning of a reinforced concrete anchor rod static pile, which comprises a longitudinal moving mechanism, a transverse moving mechanism, a hanging mechanism and reaction frames, wherein the four reaction frames are arranged and are rectangular; a group of longitudinal moving mechanisms are arranged between the top surfaces of the two reaction frames on the width edge; the transverse moving mechanism is arranged between the two longitudinal moving mechanisms, and the transverse moving mechanism is fixedly connected with the longitudinal moving mechanisms; the hanging mechanism is arranged at the lower side of the transverse moving mechanism and is positioned among the four counter-force frame hanging mechanisms; the vertical pile pressing device has the advantages that the hanging mechanism can flexibly move and hang through the longitudinal moving mechanism and the transverse moving mechanism, and the pile pressing device is moved out during installation, so that insufficient vertical space is released, vertical placement of precast piles is facilitated, labor burden of workers can be remarkably reduced, and construction efficiency is improved.

Description

Auxiliary device for static pressure pile placement of reinforced concrete anchor rod

Technical Field

The utility model relates to the technical field of pile pressing, in particular to an auxiliary device for static pile pressing of a reinforced concrete anchor rod.

Background

Anchor rod static pressure piles are a common foundation treatment method for increasing the bearing capacity and stability of soil. It is generally composed of the following parts: anchor rod, anchor rod sleeve, anchor rod head, anchor rod anchoring body and grouting material.

In the prior art, in the process of positioning, straightening and the like of piles, the construction is generally assisted by manpower;

however, in the reinforcement of high-rise building foundation, the bearing capacity of the required pile is relatively high, the required pile length is relatively long, the reinforcement of the high-rise building is generally constructed in a basement with limited space, and the vertical members are more, and the following problems occur under the condition of construction operation with limited space due to the relatively long pile length:

firstly, in the installation, pile pressing equipment above the reinforced concrete anchor rod static pressure pile occupies the vertical space which is insufficient, and the pile cannot be normally placed in the installation.

Secondly, the existing lifting device cannot be used conveniently, the crane cannot be used, the working efficiency is reduced in a mode of assisting construction by manpower, potential safety hazards are easily generated, and labor burden is increased.

Disclosure of Invention

The utility model aims to provide an auxiliary device for positioning a static pressure pile of a reinforced concrete anchor rod, which aims to solve the problems in the prior art.

The aim of the utility model can be achieved by the following technical scheme:

the auxiliary device for the positioning of the static pressure pile of the reinforced concrete anchor rod comprises a longitudinal moving mechanism, a transverse moving mechanism, a hanging mechanism and reaction frames, wherein the four reaction frames are arranged and are rectangular;

a group of longitudinal moving mechanisms are arranged between the top surfaces of the two reaction frames on the width edge, and the longitudinal moving mechanisms are fixedly connected with the reaction frames through bolts;

the transverse moving mechanism is arranged between the two longitudinal moving mechanisms, and the transverse moving mechanism is fixedly connected with the longitudinal moving mechanisms through bolts;

the hanging mechanism is arranged at the lower side of the transverse moving mechanism and is positioned among the four counter-force frame hanging mechanisms.

Further, the longitudinal moving mechanism comprises a first fixing plate, a first bracket, a longitudinal optical axis, a longitudinal moving platform, a longitudinal screw rod and a first handle, wherein two first fixing plates are arranged and are respectively and fixedly arranged on the top surfaces of the two reaction frames;

the first brackets are fixedly arranged on the first fixing plate and are fixedly arranged on the top surface of the first fixing plate through bolts, the longitudinal screw rods are rotatably arranged between the two first brackets, two longitudinal optical axes symmetrically arranged about the longitudinal screw rods are fixedly connected between the two first brackets, one end of each longitudinal screw rod rotates to penetrate through the first bracket at the corresponding position, and a first handle controlled by a motor is arranged at one end of each longitudinal screw rod rotating to penetrate through the first bracket;

the longitudinal moving platform is in sliding connection with the two longitudinal optical axes, and the longitudinal moving platform is in threaded connection with the longitudinal screw rod.

Further, the transverse moving mechanism comprises a second fixed plate, a second bracket, a transverse optical axis, a transverse moving platform, a transverse screw rod and a second handle, wherein the second fixed plate is fixedly arranged between the bottom surfaces of the two longitudinal moving platforms, and two ends of the second fixed plate extend to the outer side of the reaction frame;

the two ends of the bottom surface of the second fixing plate are fixedly provided with a second bracket, the transverse screw rod is rotatably arranged between the two second brackets, two transverse optical axes symmetrically arranged about the transverse screw rod are fixedly connected between the two second brackets, one end of the transverse screw rod rotates to penetrate through the second bracket at the corresponding position, and one end of the transverse screw rod rotating to penetrate through the second bracket is provided with a second handle controlled by a motor;

the transverse moving platform is connected with the two transverse optical axes in a sliding mode, and the transverse moving platform is connected with the transverse screw rod in a threaded mode.

Further, the hanging mechanism comprises a fixed pulley, a mounting plate, a lifting hook and a driving motor;

the two sides of the bottom surface of the transverse moving platform are fixedly provided with one mounting plate, the fixed pulley is rotatably arranged between the two mounting plates,

the tail end of the lifting hook is fixedly connected with an iron chain, and one end of the iron chain, which is far away from the lifting hook, bypasses the fixed pulley and is fixedly connected with the winding shaft of the driving motor.

The utility model has the beneficial effects that: can make the handle rotate thereby drive moving platform's vertical, lateral shifting through the start-up of control motor for hanging the mechanism and can removing pile pressing equipment in the time of the installation in a flexible way, thereby release originally just not abundant vertical space, make things convenient for precast pile to go into the position perpendicularly, can show the work burden that lightens the workman, improved efficiency of construction.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to those skilled in the art that other drawings can be obtained according to these drawings without inventive effort;

FIG. 1 is a three-dimensional schematic of the overall structure of the present utility model;

FIG. 2 is a three-dimensional schematic diagram of the connection relationship among the longitudinal movement mechanism, the transverse movement mechanism and the hanging mechanism in the present utility model;

FIG. 3 is a front view of FIG. 1;

FIG. 4 is a side view of FIG. 1;

wherein, the reference numerals are as follows:

1-longitudinal moving mechanism, 101-first handle, 102-longitudinal optical axis, 103-longitudinal screw rod, 104-first bracket, 105-longitudinal moving platform, 106-first fixed plate, 2-transverse moving mechanism, 201-second handle, 202-transverse optical axis, 203-second fixed plate, 204-transverse moving platform, 205-transverse screw rod, 206-second bracket, 3-hanging mechanism, 301-lifting hook, 302-fixed pulley, 303-mounting plate and 4-reaction frame.

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.

Examples:

referring to fig. 1 to 3, in the embodiment of the present utility model, an auxiliary device for positioning a static pile of a reinforced concrete anchor rod includes a longitudinal moving mechanism 1, a transverse moving mechanism 2, a hanging mechanism 3 and reaction frames 4, wherein the reaction frames 4 are provided with four reaction frames 4 and the four reaction frames 4 are arranged in a rectangular shape;

a group of longitudinal moving mechanisms 4 are arranged between the top surfaces of the two reaction frames 4 on the width edge, and the longitudinal moving mechanisms 1 are fixedly connected with the reaction frames 4 through bolts;

the transverse moving mechanism 2 is arranged between the two longitudinal moving mechanisms 1, and the transverse moving mechanism 2 is fixedly connected with the longitudinal moving mechanisms 1 through bolts;

the hanging mechanism 3 is arranged at the lower side of the transverse moving mechanism 2, and the hanging mechanism 3 is positioned among the four counter-force frame hanging mechanisms 4.

The longitudinal moving mechanism 1 comprises a first fixing plate 106, a first bracket 104, a longitudinal optical axis 102, a longitudinal moving platform 105, a longitudinal screw rod 103 and a first handle 101, wherein two first fixing plates 106 are arranged, and the two first fixing plates 106 are respectively and fixedly arranged on the top surfaces of the two reaction frames 4;

the first fixing plate 106 is provided with a first bracket 104, the first bracket 104 is fixedly arranged on the top surface of the first fixing plate 106 through bolts, a longitudinal screw rod 103 is rotatably arranged between the two first brackets 104, two longitudinal optical axes 102 symmetrically arranged about the longitudinal screw rod 103 are fixedly connected between the two first brackets 104, one end of the longitudinal screw rod 103 rotates to penetrate through the first bracket 104 at a corresponding position, and one end of the longitudinal screw rod 103 rotates to penetrate through the first bracket 104 to be provided with a first handle 101 controlled by a motor;

the longitudinal moving platform 105 is slidably connected to the two longitudinal optical axes 102, and the longitudinal moving platform 105 is screwed to the longitudinal screw 103.

Actuation of the motor rotates the first handle 101, adjusting the position of the longitudinally movable platform 105 so that it can move longitudinally.

The transverse moving mechanism 2 comprises a second fixed plate 203, a second bracket 206, a transverse optical axis 202, a transverse moving platform 204, a transverse screw rod 205 and a second handle 201, wherein the second fixed plate 203 is fixedly arranged between the bottom surfaces of the two longitudinal moving platforms 105, and two ends of the second fixed plate 203 extend to the outer side of the reaction frame 4;

a second bracket 206 is fixedly arranged at two ends of the bottom surface of the second fixing plate 203, a transverse screw rod 205 is rotatably arranged between the two second brackets 206, two transverse optical axes 202 symmetrically arranged about the transverse screw rod 205 are fixedly connected between the two second brackets 206, one end of the transverse screw rod 205 rotates to penetrate through the second bracket 206 at the corresponding position, and a second handle 201 controlled by a motor is arranged at one end of the transverse screw rod 205 rotating to penetrate through the second bracket 206;

the lateral moving platform 204 is slidably connected to the two lateral optical axes 202, and the lateral moving platform 204 is screwed to the lateral screw rod 205.

The motor is started, the second handle 201 is rotated, the position of the transverse moving platform 204 is adjusted, the transverse moving platform 204 can longitudinally move to the outer side of the reaction frame 4, and the functional requirements of flexible movement and vertical space release are met.

The hanging mechanism 3 comprises a fixed pulley 302, a mounting plate 303, a lifting hook 301 and a driving motor;

a mounting plate 303 is fixedly arranged at two sides of the bottom surface of the transverse moving platform 204, a fixed pulley 302 is rotatably arranged between the two mounting plates 303,

the tail end of the lifting hook 301 is fixedly connected with an iron chain, and one end of the iron chain, which is far away from the lifting hook 301, bypasses the fixed pulley 302 and is fixedly connected with a winding shaft of the driving motor.

The driving motor is started, so that the iron chain can be lifted and lowered to drive the lifting hook 301 to a proper position for hanging.

Working principle:

by controlling the transverse moving platform 204 and the longitudinal moving platform 105, the hanging mechanism 3 can flexibly move in the space, the pile pressing device and the reinforced concrete pile are flexibly lifted, the pile pressing device can be lifted out to release the vertical space in the installation process, and then the reinforced concrete pile is vertically lifted into place.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (4)

1. The auxiliary device for the positioning of the static pressure pile of the reinforced concrete anchor rod is characterized by comprising a longitudinal moving mechanism (1), a transverse moving mechanism (2), a hanging mechanism (3) and reaction frames (4), wherein the four reaction frames (4) are arranged and the four reaction frames (4) are arranged in a rectangular shape;

a group of longitudinal moving mechanisms (1) are arranged between the top surfaces of the two reaction frames (4) on the width edge, and the longitudinal moving mechanisms (1) are fixedly connected with the reaction frames (4) through bolts;

the transverse moving mechanism (2) is arranged between the two longitudinal moving mechanisms (1), and the transverse moving mechanism (2) is fixedly connected with the longitudinal moving mechanisms (1) through bolts;

the hanging mechanism (3) is arranged at the lower side of the transverse moving mechanism (2), and the hanging mechanism (3) is positioned among the four reaction frames (4).

2. The auxiliary device for the static pressure pile placement of the reinforced concrete anchor rod according to claim 1, wherein the longitudinal moving mechanism (1) comprises a first fixing plate (106), a first bracket (104), a longitudinal optical axis (102), a longitudinal moving platform (105), a longitudinal screw rod (103) and a first handle (101), two first fixing plates (106) are arranged, and the two first fixing plates (106) are fixedly arranged on the top surfaces of two reaction frames (4) respectively;

the first fixing plate (106) is provided with the first support (104), the first support (104) is fixedly arranged on the top surface of the first fixing plate (106) through bolts, the longitudinal screw rods (103) are rotatably arranged between the two first supports (104), two longitudinal optical axes (102) symmetrically arranged about the longitudinal screw rods (103) are fixedly connected between the two first supports (104), one end of the longitudinal screw rods (103) rotates to penetrate through the first support (104) at the corresponding position, and one end of the longitudinal screw rods (103) rotates to penetrate through the first support (104) to be provided with a first handle (101) controlled by a motor;

the longitudinal moving platform (105) is in sliding connection with the two longitudinal optical axes (102), and the longitudinal moving platform (105) is in threaded connection with the longitudinal screw rod (103).

3. The auxiliary device for the static pressure pile placement of the reinforced concrete anchor rod according to claim 2, wherein the transverse moving mechanism (2) comprises a second fixed plate (203), a second bracket (206), a transverse optical axis (202), a transverse moving platform (204), a transverse screw rod (205) and a second handle (201), the second fixed plate (203) is fixedly arranged between the bottom surfaces of the two longitudinal moving platforms (105), and two ends of the second fixed plate (203) extend to the outer side of the reaction frame (4);

the two ends of the bottom surface of the second fixing plate (203) are fixedly provided with a second bracket (206), the transverse screw rod (205) is rotatably arranged between the two second brackets (206), two transverse optical axes (202) symmetrically arranged about the transverse screw rod (205) are fixedly connected between the two second brackets (206), one end of the transverse screw rod (205) rotates to penetrate through the second bracket (206) at the corresponding position, and one end of the transverse screw rod (205) rotates to penetrate through the second bracket (206) to be provided with a second handle (201) controlled by a motor;

the transverse moving platform (204) is in sliding connection with the two transverse optical axes (202), and the transverse moving platform (204) is in threaded connection with the transverse screw rod (205).

4. An auxiliary device for positioning a static pressure pile of a reinforced concrete anchor rod according to claim 3, wherein the hanging mechanism (3) comprises a fixed pulley (302), a mounting plate (303), a lifting hook (301) and a driving motor;

the two sides of the bottom surface of the transverse moving platform (204) are fixedly provided with one mounting plate (303), the fixed pulley (302) is rotatably arranged between the two mounting plates (303),

the tail end of the lifting hook (301) is fixedly connected with an iron chain, and one end, far away from the lifting hook (301), of the iron chain bypasses the fixed pulley (302) and is fixedly connected with a winding shaft of the driving motor.