CN114351708B

CN114351708B - Static pressure stake machine directional traction device for construction

Info

Publication number: CN114351708B
Application number: CN202210045410.2A
Authority: CN
Inventors: 何小红
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-15
Filing date: 2022-01-15
Publication date: 2024-04-05
Anticipated expiration: 2042-01-15
Also published as: CN114351708A

Abstract

The invention relates to the field of pile presses, in particular to a static pile machine directional traction device for building construction, which comprises a pile press, a horizontal pushing mechanism, a pipe rotating mechanism, a pushing mechanism, a pipe clamping mechanism and a lifting column.

Description

Static pressure stake machine directional traction device for construction

Technical Field

The invention relates to the field of pile presses, in particular to a static pile press directional traction device for building construction.

Background

When the static pile machine extrudes the soil pile pipe, the soil pile pipe is usually required to be hoisted to the static pile machine by using a steel wire through the crane, the soil pile pipe is clamped by clamping equipment on the static pile machine, the soil pile pipe is pressed into soil by the static pile machine, and the soil pile pipe is hoisted in the mode, because the steel wire can shake in the process, the soil pile pipe can fall and smash to hurt workers in the shaking process, and the soil pile pipe is hoisted and installed, because the steel wire can shake, a large amount of installation time of workers is consumed, and the working period is prolonged.

Disclosure of Invention

The invention aims to provide a static pile machine directional traction device for building construction.

To achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a static pressure stake machine directional traction device for construction, including the pile press, still include horizontal pushing mechanism, tubular product rotary mechanism, pushing mechanism, tubular product clamping mechanism and lift post, horizontal pushing mechanism places the side at the pile press, and horizontal pushing mechanism passes through equipment fixed mounting subaerial, a be close to the pile press for driving tubular product rotary mechanism level, tubular product rotary mechanism fixed mounting is on horizontal pushing mechanism, a be used for rotatory plain soil pile pipe from the level to vertical state, be provided with the swivelling pipe that is used for rotatory on the tubular product rotary mechanism, pushing mechanism fixed mounting is on the swivelling pipe, a be used for driving the lift post and go up and down, lift post fixed mounting is on pushing mechanism, tubular product clamping mechanism fixed mounting is on the lift post, a be used for pressing from top to bottom plain soil pile pipe.

Further, the lifting column comprises a first pushing oil cylinder, a connecting pipe rack, two mounting pipes, a plurality of groups of pushing arms, a plurality of anti-slip conflict seats and connecting pipes, wherein the first pushing oil cylinder is fixedly arranged on the lifting column through an heightening frame, the connecting pipe rack is fixedly arranged at the output end of the first pushing oil cylinder, the plurality of groups of pushing arms are uniformly distributed along the length direction of the lifting column, the plurality of groups of pushing arms are fixedly arranged on the lifting column, each group of pushing arms are two, the two pushing arms are fixedly arranged on two sides of the lifting column, the input end of each pushing arm is fixedly connected with the connecting pipe rack, the two mounting pipes are positioned on two sides of the lifting column, the plurality of connecting pipes are fixedly arranged on the lifting column, the two ends of each connecting pipe are fixedly connected with the two mounting pipes, the plurality of anti-slip conflict seats are fixedly arranged at the bottom of the lifting column, the plurality of anti-slip seats are uniformly distributed along the length direction of the lifting column, the arc clamping plates are arranged on each mounting pipe, and the inner edge of the arc clamping plates are provided with anti-slip layers.

Further, every pushes up arm all includes guide holder, first connecting plate, go up push pedal, two linear bearing, first guide pillar, drive post and board of bending, guide holder fixed mounting is on the lift post, two equal fixed mounting of linear bearing is on the guide holder, two first guide pillars respectively with two linear bearing sliding connection, the top and the connecting pipe support fixed connection of every first guide pillar, the bottom and the first connecting plate fixed connection of every first guide pillar, side push subassembly fixed mounting is on first connecting plate, go up push pedal fixed mounting is on side push subassembly, and go up the push pedal and be the slope setting, two drive posts are fixed mounting respectively in the top both sides of push pedal, the outer fringe of drive post is contradicted with the inner edge of board of bending, two equal fixed mounting of board of bending are on the installation tube.

Further, the side pushing assembly comprises a first bottom tube, an extension plate, a guide plate, a second connecting plate, a limiting plate, two second guide posts and a collision spring, wherein the top of the first bottom tube is fixedly connected with the bottom of the first connecting plate, the extension plate is horizontally and fixedly arranged on the first bottom tube, the guide plate is fixedly arranged on the extension plate, one ends of the two second guide posts penetrate through the guide plate, guide holes for the second guide posts to penetrate through are formed in the guide plate, the second connecting plate is fixedly arranged at one ends of the two second guide posts, the limiting plate is fixedly arranged at the other ends of the two second guide posts, the upper pushing plate is fixedly arranged at the top of the second connecting plate, the two collision springs are respectively sleeved on the two second guide posts, one end of each collision spring collides with the limiting plate, and the other end of each collision spring collides with the guide plate.

Further, pushing mechanism includes second promotion oil tank, the fly leaf, two first slide rails, first slide, mounting panel and installation nozzle stub, two first slide rail respectively fixed mounting is in the both sides of swivelling tube, two first slide respectively with two first slide rail sliding connection, two mounting panels respectively fixed mounting is on two first slide, two installation nozzle stub respectively fixed mounting is in the inboard of two mounting panels, two installation nozzle stub and lifting column fixed connection, the second promotes the oil tank and passes through mounting panel fixed mounting on the swivelling tube, the output and the fly leaf fixed connection of second promotion oil tank, fly leaf fixed mounting is at the top of lifting column.

Further, the pipe rotating mechanism comprises a rotating shaft, a swivel base and a driving mechanism, the driving mechanism is fixedly arranged on the horizontal pushing mechanism, the swivel base is rotationally connected with the swivel base, and one end of the rotating pipe is fixedly arranged on the rotating shaft.

Further, the driving mechanism comprises a worm wheel, a worm, a driving motor and a base, wherein the base is fixedly arranged at the top of the horizontal pushing mechanism, the driving motor is fixedly arranged at the top of the base, the worm is fixedly arranged at the output end of the driving motor, the worm wheel is fixedly arranged at one end of the rotating shaft, and the worm wheel is meshed with the worm.

Further, horizontal pushing mechanism includes the pusher, install the push pipe, two second sliders, the second slide rail, second bottom tube and fill up the pipe, the both ends fixed mounting of every second bottom tube is at the top of two fill up the pipe, two second slide rails fixed mounting are respectively at the top of two second bottom tubes, two second sliders can gliding install on two second slide rails, install push pipe fixed mounting on two second sliders, tubular product rotary mechanism fixed mounting is at the top of installation push pipe, pusher fixed mounting is subaerial, the pusher is connected with the transmission of installation push pipe.

Further, the bottom inner side of the upper push plate is provided with a chamfer angle.

The invention has the beneficial effects that:

1. this static pressure stake machine directional traction device for construction has played three effect through using tubular product clamping mechanism, firstly, through plain soil pile pipe upward movement, make plain soil pile pipe and ground produce the distance, avoid plain soil pile pipe and the circumstances of ground collision to take place, secondly, and push up the arm and push down, just press from both sides tight to plain soil pile pipe, and then make the left and right sides at the plain soil pile pipe of beginning do not have the barrier, make plain soil pile pipe push into the below of lifting column along the clearance between horizontal pushing mechanism and the installation pipe easily, thirdly, and two push up the arm and go on being close to plain soil pile pipe simultaneously, and then carry out the center centering to plain soil pile pipe, make to be pressed from both sides tight in plain soil pile pipe intermediate position, and then avoid because plain soil pile pipe staggers a bit, just cause plain soil pile pipe unable by two push up arms to push up.

2. The soil pile pipe is clamped through the pipe clamping mechanism, the soil pile pipe is rotated through the pipe rotating mechanism, the soil pile pipe is pushed upwards through the pushing and lifting mechanism, the soil pile pipe is driven to horizontally move through the horizontal pushing mechanism, and then the soil pile pipe is installed on the static pressure pile machine without using a crane, and auxiliary installation is not needed by workers, so that the soil pile pipe is prevented from falling and injuring workers, a large amount of installation time of workers is avoided, and the working construction period is shortened.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings that are required to be used in the embodiments of the present invention will be briefly described below.

FIG. 1 is a first operational state diagram of the present invention;

FIG. 2 is a second working state diagram of the present invention;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a schematic perspective view of a pipe clamping mechanism;

FIG. 5 is an exploded perspective view of the tubing clamping mechanism;

FIG. 6 is a schematic view of a partial perspective of a pipe clamping mechanism;

FIG. 7 is a schematic perspective view of a side-pushing assembly;

FIG. 8 is a schematic view of a partial perspective structure of the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 8 at A;

FIG. 10 is a schematic perspective view of a tube rotation mechanism;

FIG. 11 is a schematic perspective view of a horizontal pushing mechanism;

in the figure:

1. a pile pressing machine;

2. a horizontal pushing mechanism; 2a, a pusher; 2b, installing a jacking pipe; 2c, a second sliding seat; 2d, a second sliding rail; 2e, a second bottom tube; 2f, filling up the pipe;

3. a pipe rotating mechanism; 3a, rotating the tube; 3b, a rotating shaft; 3c, rotating; 3d, worm wheel; 3e, a worm; 3f, driving a motor; 3h, a base;

4. a pushing and lifting mechanism; 4a, a second pushing oil tank; 4b, a first sliding rail; 4c, a first sliding seat; 4d, mounting plates; 4e, installing short pipes; 4f, pushing the plate;

5. a pipe clamping mechanism; 5a, a first pushing oil cylinder; 5b, connecting a pipe frame; 5c, pushing up the arm; 5c1, a guide seat; 5c2, a linear bearing; 5c3, a first guide post; 5c4, a first connection plate; 5c5, a transmission column; 5c6, bending the plate; 5c7, pushing up the plate; 5d, an anti-skid abutting seat; 5e, arc clamping plates; 5f, installing a pipe; 5h, connecting pipes; 5j, a side pushing assembly; 5j1, a first bottom tube; 5j2, extension plates; 5j3, guide plate; 5j4, a second guide post; 5j5, a second connecting plate; 5j6, limiting plates; 5j7, a contact spring;

6. lifting columns;

7. plain soil pile pipe.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced in size and do not represent the actual product dimensions.

The invention provides a technical scheme that: as shown in fig. 1, 2 and 3, the static pile machine directional traction device for building construction comprises a pile pressing machine 1, and is characterized by further comprising a horizontal pushing mechanism 2, a pipe rotating mechanism 3, a pushing and lifting mechanism 4, a pipe clamping mechanism 5 and a lifting column 6;

the horizontal pushing mechanism 2 is arranged at the side of the pile driver 1, and the horizontal pushing mechanism 2 is fixedly arranged on the ground through equipment and is used for driving the pipe rotating mechanism 3 to horizontally approach the pile driver 1;

the pipe rotating mechanism 3 is fixedly arranged on the horizontal pushing mechanism 2 and is used for rotating the plain soil pile pipe 7 from a horizontal state to a vertical state, and a rotating pipe 3a for rotating is arranged on the pipe rotating mechanism 3;

the pushing and lifting mechanism 4 is fixedly arranged on the rotary pipe 3a and used for driving the lifting column 6 to lift, and the lifting column 6 is fixedly arranged on the pushing and lifting mechanism 4;

the pipe clamping mechanism 5 is fixedly arranged on the lifting column 6 and used for clamping the plain soil pile pipe 7.

In the invention, as shown in fig. 4 and 5, in order to center and clamp the soil pile pipe 7, and pull up the soil pile pipe 7 by a certain height, the soil pile pipe 7 is prevented from colliding with the ground during rotation, and in order to prevent the pipe clamping mechanism 5 from blocking the soil pile pipe 7, the soil pile pipe 7 is difficult to be placed between two push-up arms 5c, the lifting column 6 comprises a first push cylinder 5a, a connecting pipe frame 5b, two mounting pipes 5f, a plurality of push-up arms 5c, a plurality of anti-slip contact seats 5d and connecting pipes 5h, the first push cylinder 5a is fixedly mounted on the lifting column 6 through an heightening frame, the connecting pipe frame 5b is fixedly mounted on the output end of the first push cylinder 5a, a plurality of push-up arms 5c are uniformly distributed along the length direction of the lifting column 6, the push-up arms 5c are fixedly mounted on the lifting column 6, the two push-up arms 5c are fixedly mounted on two sides of the lifting column 6, the two push-up arms 5c are fixedly mounted on the two sides of the lifting column 6, the two push-up brackets 5f are fixedly mounted on the two ends of the two arc-up brackets 5f and the two arc-shaped lifting column 5h are fixedly mounted on the two ends of the lifting column 6, the two arc-shaped clamp plates are fixedly connected with the two ends of the two arc-shaped lifting column 5f, the two arc-shaped slide contact seats are fixedly mounted on the two ends of the two arc-shaped slide support plates 5h, and the two arc-shaped slide supports are fixedly mounted on the arc-shaped slide rails are fixedly, and the slide rails are fixedly mounted on the slide rails are fixedly, and the slide rails are fixedly and are. The first pushing oil cylinder 5a is controlled by the controller to work, so that the first pushing oil cylinder 5a pushes the connecting pipe frame 5b downwards, the connecting pipe frame 5b drives the plurality of groups of pushing arms 5c to move, two pushing arms 5c on each group of pushing arms 5c move downwards, the pushing arms 5c are made to collide with the soil pile pipe 7, the interfered soil pile pipe 7 moves upwards, the soil pile pipe 7 is made to collide with the arc-shaped clamping plates 5e, and the soil pile pipe 7 is clamped;

through the upward motion of plain soil stake pipe 7 for plain soil stake pipe 7 produces the distance with ground, avoid plain soil stake pipe 7 to collide with ground's condition to take place, and push up arm 5c pushes down, just press from both sides tight to plain soil stake pipe 7, and then make not have the barrier in the left and right sides of beginning plain soil stake pipe 7, make plain soil stake pipe 7 push into the below of lift post 6 along horizontal pushing mechanism 2 and the clearance between the installation pipe 5f easily, and two push up arms 5c go on being close to plain soil stake pipe 7 simultaneously, and then carry out the center centering to plain soil stake pipe 7, make to be pressed from both sides tight in plain soil stake pipe 7 intermediate position, and then avoid because plain soil stake pipe 7 staggers a bit, just cause plain soil stake pipe 7 can not be pushed up by two push up arms 5 c.

In the invention, as shown in fig. 6, in order to push down the first pushing cylinder 5a, the push-up arms 5c can center the plain soil pile pipe 7, each push-up arm 5c includes a guide seat 5c1, a first connecting plate 5c4, a push-up plate 5c7, two linear bearings 5c2, a first guide post 5c3, a transmission post 5c5 and a bending plate 5c6, the guide seat 5c1 is fixedly mounted on the lifting post 6, the two linear bearings 5c2 are fixedly mounted on the guide seat 5c1, the two first guide posts 5c3 are respectively connected with the two linear bearings 5c2 in a sliding manner, the top of each first guide post 5c3 is fixedly connected with the connecting pipe frame 5b, the bottom of each first guide post 5c3 is fixedly connected with the first connecting plate 5c4, a side push assembly 5j is fixedly mounted on the first connecting plate 5c4, the push-up plate 5c7 is fixedly mounted on the side push-up assembly 5j, the push-up plate 5c7 is obliquely arranged, the two transmission posts 5c3 are respectively fixedly mounted on the two sides of the bending plate 5c6 f, and the two transmission posts 5c7 are fixedly mounted on the two sides of the bending plate 5c6 f. Through the downward movement of the connecting pipe frame 5b, the connecting pipe frame 5b drives the two first guide posts 5c3 to slide downwards along the linear bearings 5c2, the first guide posts 5c3 drive the side pushing assemblies 5j to move downwards through the first connecting plate 5c4, the side pushing assemblies 5j drive the transmission posts 5c5 to move along the inner edges of the bending plates 5c6, at the beginning, the transmission posts 5c5 vertically slide downwards with the vertical sections of the bending plates 5c6, the upper pushing plates 5c7 vertically slide downwards, and after the transmission posts 5c5 are contacted with the inclined sections of the bending plates 5c6, as the upper pushing plates 5c7 continue to move downwards, the transmission posts 5c5 push the upper pushing plates 5c7 to move downwards towards the soil pile pipes 7 along the inclined sections, so that the side pushing assemblies 5j are stretched;

in the process of obliquely moving down the upper push plate 5c7, the end part of the upper push plate 5c7 is contacted with the middle lower part of the outer edge of the soil pile pipe 7, and as the outer edge of the soil pile pipe 7 is annular, the upper push plate 5c7 pushes and extrudes the outer edge of the soil pile pipe 7 upwards along with the continuous movement of the upper push plate 5c7, so that the soil pile pipe 7 moves upwards, and the soil pile pipe 7 is pressed at the bottom of the arc-shaped clamping plate 5 e;

and because the two push plates 5c7 move towards the soil pile pipe 7 at the same time, the soil pile pipe 7 is pushed to the most central position, and when the soil pile pipe 7 is pushed upwards, the soil pile pipe 7 is stably placed in the middle of the two push plates 5c7 because a triangular structure is formed between the two push plates 5c 7.

In the present invention, as shown in fig. 6, the bottom end inner side of the push plate 5c7 is provided with a chamfer. Through setting up the chamfer for the contact position of push pedal 5c7 and plain soil stake pipe 7 changes downwards, makes two push pedal 5c7 can be better clip plain soil stake pipe 7.

In the invention, as shown in fig. 7, in order to construct a horizontal moving space for the upper push plate 5c7 when the upper push plate 5c7 moves obliquely downward, the side push assembly 5j includes a first bottom tube 5j1, an extension plate 5j2, a guide plate 5j3, a second connecting plate 5j5, a limiting plate 5j6, two second guide posts 5j4 and an abutting spring 5j7, the top of the first bottom tube 5j1 is fixedly connected with the bottom of the first connecting plate 5c4, the extension plate 5j2 is horizontally and fixedly mounted on the first bottom tube 5j1, the guide plate 5j3 is fixedly mounted on the extension plate 5j2, one end of the two second guide posts 5j4 passes through the guide plate 5j3, a guide hole for the second guide post 5j4 to pass through is formed in the guide plate 5j3, the second connecting plate 5j5 is fixedly mounted on one end of the two second guide posts 5j4, the limiting plate 5j6 is fixedly mounted on the other end of the two second guide posts 5j4, the upper push plate 5c7 is fixedly mounted on the other end of the second guide post 5j7 and abuts against the other end of the guide plate 5j 7. Through the downward movement of the first connecting plate 5c4, the first connecting plate 5c4 drives the upward pushing plate 5c7 to move downwards through the first bottom tube 5j1, the extending plate 5j2 and the guide plate 5j3, when the upward pushing plate 5c7 moves obliquely downwards, the upward pushing plate 5c7 pulls the second connecting plate 5j5 to move, the second connecting plate 5j5 pulls the limiting plate 5j6 to move through the two second guide posts 5j4, and then the two abutting springs 5j7 are compressed, so that the moving space for the upward pushing plate 5c7 is reserved, and when the upward pushing plate 5c7 moves upwards, the abutting springs 5j7 can push the upward pushing plate 5c7 to reset.

In one embodiment of the present invention, as shown in fig. 8 and 9, in order to push the lifting column 6 upwards to move, the pushing mechanism 4 includes a second pushing oil tank 4a, a pushing plate 4f, two first sliding rails 4b, a first sliding seat 4c, a mounting plate 4d and a mounting short tube 4e, wherein the two first sliding rails 4b are respectively and fixedly installed at two sides of the rotating tube 3a, the two first sliding seats 4c are respectively and slidably connected with the two first sliding rails 4b, the two mounting plates 4d are respectively and fixedly installed on the two first sliding seats 4c, the two mounting short tubes 4e are respectively and fixedly installed at the inner sides of the two mounting plates 4d, the two mounting short tubes 4e are fixedly connected with the lifting column 6, the second pushing oil tank 4a is fixedly installed on the rotating tube 3a through the mounting plate, the output end of the second pushing oil tank 4a is fixedly connected with the pushing plate 4f, and the pushing plate 4f is fixedly installed at the top of the lifting column 6. When the soil pile pipe 7 rotates to be in a vertical state, the second pushing oil tank 4a works, the second pushing oil tank 4a pushes the pushing plate 4f forwards to move, the pushing plate 4f drives the lifting column 6 to move, the lifting column 6 drives the first sliding seat 4c to slide through the short installation pipe 4e and the installation plate 4d, the first sliding seat 4c slides along the first sliding rail 4b, vertical upward movement of the lifting column 6 is achieved, and the bottom end of the soil pile pipe 7 rises to exceed a preset position to be placed.

In one embodiment of the present invention, as shown in fig. 10, in order to drive the rotating shaft 3b to rotate, the driving mechanism includes a worm wheel 3d, a worm 3e, a driving motor 3f and a base 3h, the base 3h is fixedly installed on the top of the horizontal pushing mechanism 2, the driving motor 3f is fixedly installed on the top of the base 3h, the worm 3e is fixedly installed on the output end of the driving motor 3f, the worm wheel 3d is fixedly installed on one end of the rotating shaft 3b, and the worm wheel 3d is meshed with the worm 3 e. The driving motor 3f is controlled by the controller to work, so that the driving motor 3f drives the worm 3e to rotate, the worm 3e drives the worm wheel 3d to rotate, and the worm wheel 3d drives the rotating shaft 3b to rotate.

In the invention, as shown in fig. 10, in order to rotate the rotary pipe 3a from a horizontal state to a vertical state and further rotate the soil pile pipe 7 from the horizontal state to the vertical state, the pipe rotating mechanism 3 comprises a rotating shaft 3b, a swivel base 3c and a driving mechanism, the driving mechanism is fixedly arranged on the horizontal pushing mechanism 2, the swivel base 3c is rotationally connected with the swivel base 3c, and one end of the rotary pipe 3a is fixedly arranged on the rotating shaft 3 b. Through actuating mechanism work, will make actuating mechanism drive pivot 3b rotate along swivel mount 3c for pivot 3b drives rotatory pipe 3a and rotates, makes rotatory pipe 3a rotate from the level to vertical state.

In one embodiment of the present invention, as shown in fig. 11, in order to horizontally push the plain soil pile pipe 7, the horizontal pushing mechanism 2 includes a pusher 2a, a mounting top pipe 2b, two second sliding seats 2c, second sliding rails 2d, second bottom pipes 2e and a cushion pipe 2f, two ends of each second bottom pipe 2e are fixedly mounted on top of the two cushion pipes 2f, the two second sliding rails 2d are respectively fixedly mounted on top of the two second bottom pipes 2e, the two second sliding seats 2c are slidably mounted on the two second sliding rails 2d, the mounting top pipe 2b is fixedly mounted on the two second sliding seats 2c, the pipe rotating mechanism 3 is fixedly mounted on top of the mounting top pipe 2b, the pusher 2a is fixedly mounted on the ground, and the pusher 2a is in driving connection with the mounting top pipe 2 b. Through the pusher 2a work for the pusher 2a drives installation push pipe 2b and moves, and then makes installation push pipe 2b drive two second slide 2c and slide along two second slide rail 2d, and then makes plain soil pile pipe 7 remove in the hole of placing of pile press 1.

Working principle: when the plain soil pile pipe 7 is required to be placed in the pile press 1, firstly pushing the plain soil pile pipe 7 on the ground along a gap between the horizontal pushing mechanism 2 and the mounting pipe 5f by using equipment by workers, so that the plain soil pile pipe 7 moves below the lifting column 6;

the first pushing oil cylinder 5a is controlled by the controller to work, so that the first pushing oil cylinder 5a pushes the connecting pipe frame 5b downwards, and the connecting pipe frame 5b drives a plurality of groups of pushing-up arms 5c to move;

through the downward movement of the connecting pipe frame 5b, the connecting pipe frame 5b drives the two first guide posts 5c3 to slide downwards along the linear bearings 5c2, the first guide posts 5c3 drive the side pushing assemblies 5j to move downwards through the first connecting plate 5c4, the side pushing assemblies 5j drive the transmission posts 5c5 to move along the inner edges of the bending plates 5c6, at the beginning, the transmission posts 5c5 vertically slide downwards with the vertical sections of the bending plates 5c6, the upper pushing plates 5c7 vertically slide downwards, and after the transmission posts 5c5 are contacted with the inclined sections of the bending plates 5c6, as the upper pushing plates 5c7 continue to move downwards, the transmission posts 5c5 push the upper pushing plates 5c7 to move downwards towards the soil pile pipes 7 along the inclined sections, so that the side pushing assemblies 5j are stretched;

after the plain soil pile pipe 7 is clamped, the driving motor 3f is controlled by the controller to work, the driving motor 3f drives the worm 3e to rotate, the worm 3e drives the worm wheel 3d to rotate, the worm wheel 3d drives the rotating shaft 3b to rotate, the rotating shaft 3b rotates along the swivel mount 3c, the rotating shaft 3b drives the rotating pipe 3a to rotate, and the rotating pipe 3a rotates from a horizontal state to a vertical state;

when the soil pile pipe 7 rotates to be in a vertical state, the controller controls the second pushing oil tank 4a to work, so that the second pushing oil tank 4a pushes the pushing plate 4f forwards to move, the pushing plate 4f drives the lifting column 6 to move, the lifting column 6 drives the first sliding seat 4c to slide through the short installation pipe 4e and the installation plate 4d, the first sliding seat 4c slides along the first sliding rail 4b, the vertical upward movement of the lifting column 6 is realized, and the bottom end of the soil pile pipe 7 rises to exceed a preset position to be placed;

the controller controls the pusher 2a to work, so that the pusher 2a drives the installation jacking pipe 2b to move, the installation jacking pipe 2b drives the two second sliding seats 2c to slide along the two second sliding rails 2d, the soil pile pipe 7 is further enabled to move to the position above the placement hole of the pile pressing machine 1, and the soil pile pipe 7 is clamped and moves downwards through clamping equipment on the pile pressing machine 1.

Claims

1. The static pressure pile machine directional traction device for building construction comprises a pile pressing machine (1) and is characterized by further comprising a horizontal pushing mechanism (2), a pipe rotating mechanism (3), a pushing mechanism (4), a pipe clamping mechanism (5) and a lifting column (6);

the horizontal pushing mechanism (2) is arranged at the side of the pile pressing machine (1), and the horizontal pushing mechanism (2) is fixedly arranged on the ground through equipment and is used for driving the pipe rotating mechanism (3) to horizontally approach the pile pressing machine (1);

the pipe rotating mechanism (3) is fixedly arranged on the horizontal pushing mechanism (2) and is used for horizontally rotating the soil pile pipe (7) to a vertical state, and a rotating pipe (3 a) for rotating is arranged on the pipe rotating mechanism (3);

the pushing and lifting mechanism (4) is fixedly arranged on the rotary pipe (3 a) and used for driving the lifting column (6) to lift, and the lifting column (6) is fixedly arranged on the pushing and lifting mechanism (4);

the pipe clamping mechanism (5) is fixedly arranged on the lifting column (6) and used for clamping the plain soil pile pipe (7);

lifting column (6) including first pushing cylinder (5 a), connecting pipe support (5 b), two installation pipe (5 f), push away arm (5 c) in a plurality of group, a plurality of anti-skidding conflict seat (5 d) and connecting pipe (5 h), first pushing cylinder (5 a) are through increasing frame fixed mounting on lifting column (6), connecting pipe support (5 b) fixed mounting is on the output of first pushing cylinder (5 a), push away arm (5 c) evenly distributed along the length direction of lifting column (6) in a plurality of groups, and push away arm (5 c) in a plurality of groups all fixed mounting on lifting column (6), push away arm (5 c) in every group are two, push away arm (5 c) fixed mounting in both sides of lifting column (6) in two, push away arm (5 c) input and connecting pipe support (5 b) fixed connection, two installation pipe (5 f) are located lifting column (6) both sides, a plurality of (5 h) equal fixed mounting is on lifting column (6), every group pushes away arm (5 c) along the length direction of lifting column (6) evenly distributed along lifting column (6), a plurality of each anti-skidding seat (5 f) are all fixed mounting in two, a plurality of anti-skidding seat (5 d) are all fixed connection pipe (5 d) are located along lifting column (6), an anti-slip layer is arranged on the inner edge of the arc-shaped clamping plate (5 e);

each push-up arm (5 c) comprises a guide seat (5 c 1), a first connecting plate (5 c 4), a push-up plate (5 c 7), two linear bearings (5 c 2), a first guide post (5 c 3), a transmission post (5 c 5) and a bending plate (5 c 6), wherein the guide seat (5 c 1) is fixedly arranged on a lifting post (6), the two linear bearings (5 c 2) are fixedly arranged on the guide seat (5 c 1), the two first guide posts (5 c 3) are respectively connected with the two linear bearings (5 c 2) in a sliding manner, the top of each first guide post (5 c 3) is fixedly connected with a connecting pipe frame (5 b), the bottom of each first guide post (5 c 3) is fixedly connected with the first connecting plate (5 c 4), the side pushing assembly (5 j) is fixedly arranged on the first connecting plate (5 c 4), the push-up plate (5 c 7) is fixedly arranged on the side pushing assembly (5 j), the push-up plate (5 c 7) is obliquely arranged, the two transmission posts (5 c 7) are respectively fixedly arranged on the two outer edges of the two transmission posts (5 c) which are fixedly arranged on the two bending plates (5 f) of the upper side edges (5 c) of the push-up plate (5 c;

side push assembly (5 j) are including first bottom tube (5 j 1), extension board (5 j 2), baffle (5 j 3), second connecting plate (5 j 5), limiting plate (5 j 6), two second guide pillar (5 j 4) and conflict spring (5 j 7), the top of first bottom tube (5 j 1) is with the bottom fixed connection of first connecting plate (5 c 4), extension board (5 j 2) are horizontal fixed mounting on first bottom tube (5 j 1), baffle (5 j 3) fixed mounting is on extension board (5 j 2), the guide hole that supplies second guide pillar (5 j 4) to pass is passed to one end of two second guide pillar (5 j 4) on baffle (5 j 3), second connecting plate (5 j 5) fixed mounting is on the one end of two second guide pillar (5 j 4), limiting plate (5 j 6) fixed mounting is on the other end of two second guide pillar (5 j 4), upward push pedal (5 c 7) fixed mounting is on the two ends of two second guide pillar (5 j 4), the guide pillar (5 j 4) are contradicted with two end of two guide pillar (5 j 4) respectively, the guide pillar (5 j 3) are contradicted with two guide pillar (5 j 4).

2. The static pile machine directional traction device for building construction according to claim 1, wherein the pushing and lifting mechanism (4) comprises a second pushing oil tank (4 a), a pushing plate (4 f), two first sliding rails (4 b), a first sliding seat (4 c), a mounting plate (4 d) and a mounting short pipe (4 e), the two first sliding rails (4 b) are respectively and fixedly mounted on two sides of a rotating pipe (3 a), the two first sliding seats (4 c) are respectively and slidingly connected with the two first sliding rails (4 b), the two mounting plates (4 d) are respectively and fixedly mounted on the two first sliding seats (4 c), the two mounting short pipes (4 e) are respectively and fixedly mounted on the inner sides of the two mounting plates (4 d), the two mounting short pipes (4 e) are fixedly connected with a lifting column (6), the second pushing oil tank (4 a) is fixedly mounted on the rotating pipe (3 a) through the mounting plate, and the output end of the second pushing oil tank (4 a) is fixedly connected with the pushing plate (4 f), and the pushing plate (4 f) is fixedly mounted on the top of the lifting column (6).

3. The static pile machine directional traction device for building construction according to claim 1, wherein the pipe rotating mechanism (3) comprises a rotating shaft (3 b), a rotating seat (3 c) and a driving mechanism, the driving mechanism is fixedly arranged on the horizontal pushing mechanism (2), the rotating seat (3 c) is rotationally connected with the rotating seat (3 c), and one end of the rotating pipe (3 a) is fixedly arranged on the rotating shaft (3 b).

4. The static pile machine directional traction device for building construction according to claim 3, wherein the driving mechanism comprises a worm wheel (3 d), a worm (3 e), a driving motor (3 f) and a base (3 h), the base (3 h) is fixedly arranged at the top of the horizontal pushing mechanism (2), the driving motor (3 f) is fixedly arranged at the top of the base (3 h), the worm (3 e) is fixedly arranged at the output end of the driving motor (3 f), the worm wheel (3 d) is fixedly arranged at one end of the rotating shaft (3 b), and the worm wheel (3 d) is meshed with the worm (3 e).

5. The static pile machine directional traction device for building construction according to claim 1 is characterized in that the horizontal pushing mechanism (2) comprises a pusher (2 a), a mounting jacking pipe (2 b), two second sliding seats (2 c), second sliding rails (2 d), second bottom pipes (2 e) and cushion pipes (2 f), two ends of each second bottom pipe (2 e) are fixedly arranged at the tops of the two cushion pipes (2 f), the two second sliding rails (2 d) are respectively fixedly arranged at the tops of the two second bottom pipes (2 e), the two second sliding seats (2 c) are slidably arranged on the two second sliding rails (2 d), the mounting jacking pipe (2 b) is fixedly arranged on the two second sliding seats (2 c), the pipe rotating mechanism (3) is fixedly arranged at the top of the mounting jacking pipe (2 b), the pusher (2 a) is fixedly arranged on the ground, and the pusher (2 a) is in transmission connection with the mounting jacking pipe (2 b).

6. The static pile machine directional traction device for building construction according to claim 1, wherein a chamfer angle is arranged on the inner side of the bottom end of the upper pushing plate (5 c 7).