CN114351708A - Directional draw gear of static pressure stake machine for construction - Google Patents

Abstract

The invention relates to the field of pile pressing machines, in particular to a directional traction device of a static pile press for building construction, which comprises a pile pressing machine, a horizontal pushing mechanism, a pipe rotating mechanism, a pushing and lifting mechanism, a pipe clamping mechanism and a lifting column, wherein a plain soil pile pipe moves upwards to generate a distance between the plain soil pile pipe and the ground so as to avoid the condition that the plain soil pile pipe collides with the ground, the plain soil pile pipe is clamped by the pipe clamping mechanism, the plain soil pile pipe is rotated by the pipe rotating mechanism, the plain soil pile pipe is pushed upwards by the pushing and lifting mechanism, the plain soil pile pipe is driven by the horizontal pushing and lifting mechanism to move horizontally, so that the plain soil pile pipe can be installed on a static pressure without using a crane, and a worker does not need to perform auxiliary installation, and the plain soil pile pipe is prevented from falling and smashing to the worker, avoid consuming a large amount of installation time of workman for the time limit for work.

Description

Directional draw gear of static pressure stake machine for construction

Technical Field

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

Background

When carrying out extrusion plain soil stake pipe at static pressure stake machine, often need use the copper wire to hoist plain soil stake pipe to static pressure stake machine through the loop wheel machine on, the clamping equipment on the static pressure stake machine of rethread presss from both sides tight plain soil stake pipe, the static pressure stake machine of rethread is impressed plain soil stake pipe in the soil, and hoist plain soil stake pipe through this kind of mode, because the copper wire can take place to rock at this in-process, and the in-process that plain soil stake pipe rocked, often can take place to drop and injure the workman by a crashing object, and through hoist and mount plain soil stake pipe of installation, because the copper wire can take place to rock, often can consume a large amount of installation time of workman, increase the time limit for a project of work.

Disclosure of Invention

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

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a directional draw gear of static pressure stake machine for construction, including the pile driver, still include horizontal pushing mechanism, tubular product rotary mechanism, push away lift mechanism, tubular product clamping mechanism and lift post, horizontal pushing mechanism places the side at the pile driver, and horizontal pushing mechanism passes through equipment fixed mounting subaerial, be used for driving tubular product rotary mechanism and carry out the level and be close to the pile driver, tubular product rotary mechanism fixed mounting is on horizontal pushing mechanism, be used for becoming vertical state with plain soil stake pipe from horizontal rotation, be provided with the rotatory pipe that is used for rotatory on the tubular product rotary mechanism, push away lift mechanism fixed mounting on the rotatory pipe, be used for driving the lift post and go up and down, lift post fixed mounting is on push away lift mechanism, tubular product clamping mechanism fixed mounting is on the lift post, be used for pressing from both sides plain soil stake pipe.

Further, the lifting column comprises a first pushing oil cylinder, a connecting pipe frame, two mounting pipes, a plurality of groups of pushing arms, a plurality of anti-skidding abutting seats and connecting pipes, the first pushing oil cylinder is fixedly mounted on the lifting column through the heightening frame, the connecting pipe frame is fixedly mounted on 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 mounted on the lifting column, each group of pushing arms is two, the two pushing arms are fixedly mounted on two sides of the lifting column, the input end of each pushing arm is fixedly connected with the connecting pipe frame, the two mounting pipes are positioned on two sides of the lifting column, the plurality of connecting pipes are fixedly mounted on the lifting column, two ends of each connecting pipe are fixedly connected with the two mounting pipes, the plurality of anti-skidding abutting seats are fixedly mounted at the bottom of the lifting column, and the plurality of anti-skidding abutting seats are uniformly distributed along the length direction of the lifting column, all be provided with the arc splint on every installation pipe, be provided with the skid resistant course on the inner edge of arc splint.

Further, every pushes up the arm and all includes the guide holder, first connecting plate, go up the push pedal, two linear bearing, first guide pillar, transmission post and the board of bending, guide holder fixed mounting is on the lift post, two equal fixed mounting of linear bearing are 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 first connecting plate fixed connection of every first guide pillar, side thrust unit fixed mounting is on first connecting plate, go up push pedal fixed mounting on side thrust unit, and it is the slope setting to go up the push pedal, two transmission posts are fixed mounting respectively in the top both sides of last push pedal, the outer fringe of transmission post is contradicted with the inner edge of the board of bending, two equal fixed mounting of the board of bending are on the installation pipe.

Further, the side pushes away the subassembly and includes first bottom tube, extend the board, the baffle, the second connecting plate, the limiting plate, two second guide pillars and conflict springs, the bottom fixed connection of the top of first bottom tube and first connecting plate, it is horizontal fixed mounting on first bottom tube to extend the board, baffle fixed mounting is on extending the board, the baffle is passed to the one end of two second guide pillars, set up the guide hole that supplies the second guide pillar to pass on the baffle, second connecting plate fixed mounting is served at one of two second guide pillars, limiting plate fixed mounting is served at the other of two second guide pillars, go up push pedal fixed mounting at the top of second connecting plate, two conflict springs overlap respectively and establish on two second guide pillars, the one end and the limiting plate of every conflict spring, the other end is contradicted with the baffle.

Further, the pushing and lifting mechanism comprises a second pushing oil tank, a pushing plate, two first slide rails, first slide seats, mounting plates and mounting short pipes, wherein the two first slide rails are fixedly mounted on two sides of the rotating pipe respectively, the two first slide seats are respectively in sliding connection with the two first slide rails, the two mounting plates are respectively fixedly mounted on the two first slide seats, the two mounting short pipes are respectively fixedly mounted on the inner sides of the two mounting plates, the two mounting short pipes are fixedly connected with the lifting column, the second pushing oil tank is fixedly mounted on the rotating pipe through the mounting plates, the output end of the second pushing oil tank is fixedly connected with the pushing plate, and the pushing plate is fixedly mounted at the top of the lifting column.

Further, tubular product rotary mechanism includes pivot, swivel mount and actuating mechanism, and actuating mechanism fixed mounting is on horizontal pushing mechanism, and swivel mount fixed mounting is on horizontal pushing mechanism, and the swivel mount rotates with the swivel mount to be connected, and the one end fixed mounting of swivel pipe is in the pivot.

Further, actuating mechanism includes worm wheel, worm, driving motor and base, and base fixed mounting is at horizontal pushing mechanism's top, and driving motor fixed mounting is at the top of base, and worm fixed mounting is on driving motor's output, and worm wheel fixed mounting is served at one of pivot, and the worm wheel meshes with the worm.

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

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

The invention has the beneficial effects that:

1. this directional draw gear of static pressure stake machine for construction, played three effect through using tubular product clamping mechanism, one of them, through plain soil stake pipe upward movement, make plain soil stake pipe and ground produce the distance, the condition of avoiding plain soil stake pipe and ground to collide takes place, its two, and the push-up arm promotes downwards, just press from both sides tight plain soil stake pipe, and then make there is not the barrier in the left and right sides of the plain soil stake pipe at the very beginning, make plain soil stake pipe easily push into the below of lift post along the clearance between horizontal pushing mechanism and the installation pipe, its three, and two push-up arms carry out to be close to plain soil stake pipe simultaneously, and then carry out central centering to plain soil stake pipe, make and press from both sides tightly in plain soil stake pipe and be in the intermediate position, and then avoid because plain soil stake pipe staggers a bit, just cause plain soil stake pipe can't be pushed up by two push-up arms.

2. Clamping is carried out on the plain soil pile pipe through the pipe clamping mechanism, the plain soil pile pipe is rotated through the pipe rotating mechanism, the plain soil pile pipe is upwards pushed through the pushing and lifting mechanism, the plain soil pile pipe is driven to horizontally move through the horizontal pushing and lifting mechanism, a crane is not needed for the plain soil pile pipe, the plain soil pile pipe can be installed on a static pressure pile machine, the worker is not needed to be installed in an auxiliary mode, the plain soil pile pipe is prevented from falling and smashing the worker, a large amount of installation time of the worker is avoided being consumed, and the work period is shortened.

Drawings

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

FIG. 1 is a first working 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 the tube clamping mechanism;

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

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

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

FIG. 8 is a partial perspective view 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 rotating mechanism;

FIG. 11 is a perspective view of the 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 slide; 2d, a second slide rail; 2e, a second bottom tube; 2f, a cushion pipe;

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

4. a push-up mechanism; 4a, a second pushing oil tank; 4b, a first slide rail; 4c, a first slide carriage; 4d, mounting a plate; 4e, installing short pipes; 4f, pushing the plate;

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

6. a lifting column;

7. plain soil pile pipe.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

The invention provides a technical scheme that: as shown in fig. 1, 2 and 3, a static pile machine directional traction device for building construction comprises a pile press 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 placed beside 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 used for horizontally rotating the plain soil pile pipe 7 into a vertical state, and a rotating pipe 3a used for rotating is arranged on the pipe rotating mechanism 3;

the pushing and lifting mechanism 4 is fixedly arranged on the rotating 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 present invention, as shown in fig. 4 and 5, in order to perform centering clamping on the plain soil pile tube 7 and pull up the plain soil pile tube 7 to a certain height, so as to avoid collision of the plain soil pile tube 7 with the ground during rotation, and to avoid blocking of the plain soil pile tube 7 by the tube clamping mechanism 5, so that the plain soil pile tube 7 is difficult to place between two push-up arms 5c, the lift column 6 includes a first push cylinder 5a, a connecting pipe frame 5b, two mounting pipes 5f, a plurality of sets of push-up arms 5c, a plurality of anti-slip contact seats 5d, and a connecting pipe 5h, the first push cylinder 5a is fixedly mounted on the lift column 6 through a heightening frame, the connecting pipe frame 5b is fixedly mounted on an output end of the first push cylinder 5a, a plurality of sets of push-up arms 5c are uniformly distributed along the length direction of the lift column 6, and a plurality of sets of push-up arms 5c are all fixedly mounted on the lift column 6, every group pushes up arm 5c and is two, two push up arm 5c fixed mounting are in the both sides of lift post 6, push up arm 5 c's input and connecting pipe support 5b fixed connection, two installation pipe 5f are located the both sides of lift post 6, the equal fixed mounting of a plurality of connecting pipe 5h is on lift post 6, every connecting pipe 5 h's both ends all with two installation pipe 5f fixed connection, the equal fixed mounting of a plurality of antiskid touch seat 5d is in the bottom of lift post 6, and the length direction evenly distributed of a plurality of antiskid touch seat 5d along lift post 6, all be provided with arc splint 5e on every installation pipe 5f, be provided with the skid resistant course on the inner edge of arc splint 5 e. The first pushing oil cylinder 5a is controlled by the controller to work, the first pushing oil cylinder 5a pushes the connecting pipe support 5b downwards, the connecting pipe support 5b drives a 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 enabled to collide with the plain soil pile tube 7, the collided plain soil pile tube 7 moves upwards, the plain soil pile tube 7 is further collided on the arc-shaped clamping plate 5e, and the plain soil pile tube 7 is further clamped;

the plain soil pile pipe 7 moves upwards, so that the plain soil pile pipe 7 is away from the ground, the situation that the plain soil pile pipe 7 collides with the ground is avoided, the push-up arms 5c push downwards to clamp the plain soil pile pipe 7, barriers do not exist on the left side and the right side of the plain soil pile pipe 7 at the beginning, the plain soil pile pipe 7 is easy to push into the lower portion of the lifting column 6 along the gap between the horizontal pushing mechanism 2 and the mounting pipe 5f, the two push-up arms 5c are close to the plain soil pile pipe 7 at the same time, and the plain soil pile pipe 7 is centered, the plain soil pile pipe 7 is clamped in the middle position, and the situation that the plain soil pile pipe 7 cannot be pushed up by the two push-up arms 5c due to the fact that the plain soil pile pipe 7 is staggered a little is avoided.

In the present invention, as shown in fig. 6, in order that the push-up arms 5c can perform centering push-up on the soil pile tube 7 when the first push cylinder 5a pushes down, 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 driving post 5c5 and a bending plate 5c6, the guide seat 5c1 is fixedly installed on the lifting post 6, the two linear bearings 5c2 are fixedly installed on the guide seat 5c1, the two first guide posts 5c3 are respectively slidably connected with the two linear bearings 5c2, 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, the side push assembly 5j is fixedly installed on the first connecting plate 5c4, the push-up plate 5c7 is fixedly installed on the side push plate 5j, and the push plate 7 is inclined, the two transmission columns 5c5 are respectively and fixedly installed on two sides of the top of the upper push plate 5c7, the outer edge of the transmission column 5c5 is abutted against the inner edge of the bent plate 5c6, and the two bent plates 5c6 are both fixedly installed on the installation tube 5 f. By moving the connecting pipe frame 5b downwards, the connecting pipe frame 5b drives the two first guide pillars 5c3 to slide downwards along the linear bearings 5c2, so that the first guide pillars 5c3 drive the side push assembly 5j to move downwards through the first connecting plate 5c4, so that the side push assembly 5j drives the transmission column 5c5 to move along the inner edge of the bending plate 5c6, at the beginning, the transmission column 5c5 slides downwards vertically with the vertical section of the bending plate 5c6, the upper push plate 5c7 also slides downwards vertically, and after the transmission column 5c5 contacts with the inclined section of the bending plate 5c6, because the upper push plate 5c7 still moves downwards, the transmission column 5c5 pushes the upper push plate 5c7 along the inclined section to move downwards and slantly towards the plain soil pile pipe 7, so that the side push assembly 5j is stretched;

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

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

In the present invention, as shown in fig. 6, the inner side of the bottom end of the push-up plate 5c7 is provided with a chamfer. By arranging the chamfer angle, the contact position of the push-up plate 5c7 and the plain soil pile pipe 7 is changed downwards, so that the two push-up plates 5c7 can better clamp the plain soil pile pipe 7.

In the present invention, as shown in fig. 7, in order to provide a space for the upper push plate 5c7 to move horizontally 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 stopper plate 5j6, two second guide posts 5j4 and an abutting spring 5j7, the top of the first bottom tube 5j1 is fixedly connected to 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 5j 9, the guide hole for the second guide post 5j4 to pass through is formed on the guide plate 5j3, the second connecting plate 5j5 is fixedly mounted on one end of the two second guide posts 4, the guide post 865 j6 is fixedly mounted on the top of the second connecting plate 5, 5 is fixedly mounted on the stopper plate 8745 j7 c 5j 365 j 16, the two abutting springs 5j7 are respectively sleeved on the two second guide posts 5j4, one end of each abutting spring 5j7 abuts against the limiting plate 5j6, and the other end abuts against the guide plate 5j 3. By moving the first connecting plate 5c4 downwards, the first connecting plate 5c4 passes through the first bottom tube 5j1, the extending plate 5j2 and the guide plate 5j3 to drive the push-up plate 5c7 to move downwards, when the push-up plate 5c7 moves downwards in an inclined manner, the push-up plate 5c7 pulls the second connecting plate 5j5 to move, the second connecting plate 5j5 pulls the limit plate 5j6 to move through the two second guide posts 5j4, and then the two interference springs 5j7 are compressed, so that a space enough for the movement of the push-up plate 5c7 is reserved for the movement of the push-up plate 5c7, and when the push-up plate 5c7 moves upwards, the interference spring 5j7 can push the push-up 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 for movement, the pushing and lifting mechanism 4 comprises a second pushing oil tank 4a, a pushing plate 4f, two first sliding rails 4b, first slide 4c, mounting panel 4d and installation nozzle stub 4e, two first slide 4b are fixed mounting respectively in the both sides of rotatory pipe 3a, two first slide 4c respectively with two first slide 4b sliding connection, two mounting panel 4d are fixed mounting respectively on two first slides 4c, two installation nozzle stub 4e are fixed mounting respectively in the inboard of two mounting panels 4d, two installation nozzle stub 4e and lift post 6 fixed connection, the second promotes oil tank 4a and passes through mounting panel fixed mounting on rotatory pipe 3a, the second promotes oil tank 4 a's output and slurcam 4f fixed connection, slurcam 4f fixed mounting is at the top of lift post 6. When plain soil stake pipe 7 rotates for vertical state, promote oil tank 4a through the second and carry out work, make the second promote oil tank 4a promote slurcam 4f forward and move, and then make slurcam 4f drive lift post 6 and move, make lift post 6 drive first slide 4c through installation nozzle stub 4e and mounting panel 4d and slide, and then make first slide 4c slide along first slide rail 4b, and then realize the vertical rebound of lift post 6, make the bottom of plain soil stake pipe 7 rise and exceed the preset position that needs to place.

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 engaged with the worm 3 e. Control driving motor 3f through the controller and carry out work, will make driving motor 3f drive worm 3e and rotate for worm 3e drives worm wheel 3d and rotates, and worm wheel 3d will drive pivot 3b and rotate.

In the present invention, as shown in fig. 10, in order to rotate the rotary pipe 3a from the horizontal to the vertical state and further rotate the soil-filled pile pipe 7 from the horizontal to the vertical state, the pipe rotating mechanism 3 includes a rotating shaft 3b, a swivel base 3c and a driving mechanism, the driving mechanism is fixedly installed on the horizontal pushing mechanism 2, the swivel base 3c is rotatably connected with the swivel base 3c, and one end of the rotary pipe 3a is fixedly installed on the rotating shaft 3 b. Work is carried out through actuating mechanism, will make actuating mechanism drive pivot 3b rotate along swivel mount 3c for pivot 3b drives swivel tube 3a and rotates, makes swivel tube 3a rotate into vertical state from the level.

In one embodiment of the present invention, as shown in fig. 11, in order to horizontally push the plain soil pile pipe 7 to move, the horizontal pushing mechanism 2 includes a pusher 2a, an installation top pipe 2b, two second sliding seats 2c, second sliding rails 2d, second bottom pipes 2e and cushion pipes 2f, two ends of each second bottom pipe 2e are fixedly installed at the tops of the two cushion pipes 2f, the two second sliding rails 2d are respectively fixedly installed at the tops of the two second bottom pipes 2e, the two second sliding seats 2c are slidably installed on the two second sliding rails 2d, the installation top pipe 2b is fixedly installed on the two second sliding seats 2c, a pipe rotating mechanism 3 is fixedly installed at the top of the installation top pipe 2b, the pusher 2a is fixedly installed on the ground, and the pusher 2a is in transmission connection with the installation top pipe 2 b. Work is carried out through pusher jack 2a for pusher jack 2a drives installation push pipe 2b and moves, and then makes installation push pipe 2b drive two second slides 2c and slide along two second slide rails 2d, and then makes plain soil pile pipe 7 remove the downthehole of placing of pile pressing machine 1.

The working principle is as follows: when the plain soil pile tube 7 needs to be placed into the pile pressing machine 1, firstly, a worker uses equipment to push the plain soil pile tube 7 on the ground into the gap between the horizontal pushing mechanism 2 and the installation tube 5f, so that the plain soil pile tube 7 moves below the lifting column 6;

the controller controls the first pushing oil cylinder 5a 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 arms 5c to move;

by moving the connecting pipe frame 5b downwards, the connecting pipe frame 5b drives the two first guide pillars 5c3 to slide downwards along the linear bearings 5c2, so that the first guide pillars 5c3 drive the side push assembly 5j to move downwards through the first connecting plate 5c4, so that the side push assembly 5j drives the transmission column 5c5 to move along the inner edge of the bending plate 5c6, at the beginning, the transmission column 5c5 slides downwards vertically with the vertical section of the bending plate 5c6, the upper push plate 5c7 also slides downwards vertically, and after the transmission column 5c5 contacts with the inclined section of the bending plate 5c6, because the upper push plate 5c7 still moves downwards, the transmission column 5c5 pushes the upper push plate 5c7 along the inclined section to move downwards and slantly towards the plain soil pile pipe 7, so that the side push assembly 5j is stretched;

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

after the plain soil pile tube 7 is clamped, the driving motor 3f is controlled to work through the controller, 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 rotary seat 3c, the rotating shaft 3b drives the rotating tube 3a to rotate, and the rotating tube 3a rotates from a horizontal state to a vertical state;

when the plain 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 installation short pipe 4e and the installation plate 4d, the first sliding seat 4c slides along the first sliding rail 4b, and the lifting column 6 vertically moves upwards, so that the bottom end of the plain soil pile pipe 7 rises to exceed a preset position to be placed;

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

Claims (9)

1. A directional traction device of a static pressure pile machine 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 placed beside 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 plain soil pile pipe (7) into 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 rotating 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 is used for clamping the plain soil pile pipe (7).

2. The directional traction device of the static pressure pile machine for building construction according to claim 1 is characterized in that the lifting column (6) comprises a first pushing cylinder (5 a), a connecting pipe frame (5 b), two mounting pipes (5 f), a plurality of groups of pushing arms (5 c), a plurality of anti-skidding abutting seats (5 d) and a connecting pipe (5 h), the first pushing cylinder (5 a) is fixedly mounted on the lifting column (6) through a heightening frame, the connecting pipe frame (5 b) is fixedly mounted on the output end of the first pushing cylinder (5 a), the plurality of groups of pushing arms (5 c) are uniformly distributed along the length direction of the lifting column (6), the plurality of groups of pushing arms (5 c) are fixedly mounted on the lifting column (6), each group of pushing arms (5 c) is two, the two pushing arms (5 c) are fixedly mounted on two sides of the lifting column (6), the input end of the pushing arms (5 c) is fixedly connected with the connecting pipe frame (5 b), two installation pipe (5 f) are located the both sides of lift post (6), the equal fixed mounting of a plurality of connecting pipe (5 h) is on lift post (6), the both ends of every connecting pipe (5 h) all with two installation pipe (5 f) fixed connection, the equal fixed mounting in the bottom of lift post (6) of a plurality of antiskid butt touch seat (5 d), and the length direction evenly distributed of a plurality of antiskid butt touch seat (5 d) along lift post (6), all be provided with arc splint (5 e) on every installation pipe (5 f), be provided with the skid resistant course on the inner edge of arc splint (5 e).

3. The static pile machine directional traction device for building construction according to claim 2, wherein 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 pillar (5 c 3), a transmission column (5 c 5) and a bending plate (5 c 6), the guide seat (5 c 1) is fixedly installed on the lifting column (6), the two linear bearings (5 c 2) are fixedly installed on the guide seat (5 c 1), the two first guide pillars (5 c 3) are respectively connected with the two linear bearings (5 c 2) in a sliding manner, the top of each first guide pillar (5 c 3) is fixedly connected with the connecting pipe frame (5 b), the bottom of each first guide pillar (5 c 3) is fixedly connected with the first connecting plate (5 c 4), and the side push assembly (5 j) is fixedly installed on the first connecting plate (4), go up push pedal (5 c 7) fixed mounting on side pushes away subassembly (5 j), and go up push pedal (5 c 7) and be the slope setting, two transmission post (5 c 5) fixed mounting respectively are in the top both sides of last push pedal (5 c 7), the outer fringe of transmission post (5 c 5) is contradicted with the inner edge of the board (5 c 6) of bending, two equal fixed mounting of the board (5 c 6) of bending are on installation pipe (5 f).

4. The static pile machine directional traction device for building construction according to claim 3, wherein the side push component (5 j) comprises a first bottom tube (5 j 1), an extension plate (5 j 2), a guide plate (5 j 3), a second connecting plate (5 j 5), a limit plate (5 j 6), two second guide pillars (5 j 4) and an interference spring (5 j 7), the top of the first bottom tube (5 j 1) is fixedly connected with the bottom of the first connecting plate (5 c 4), the extension plate (5 j 2) is horizontally and fixedly installed on the first bottom tube (5 j 1), the guide plate (5 j 3) is fixedly installed on the extension plate (5 j 2), one end of the two second guide pillars (5 j 4) passes through the guide plate (5 j 3), the guide plate (5 j 3) is provided with a guide hole for the second guide pillar (5 j 4) to pass through, the second connecting plate (5 j 5) is fixedly installed on one end of the two second guide pillars (5 j 4), the limiting plate (5 j 6) is fixedly arranged at the other end of the two second guide posts (5 j 4), the upper push plate (5 c 7) is fixedly arranged at the top of the second connecting plate (5 j 5), the two abutting springs (5 j 7) are respectively sleeved on the two second guide posts (5 j 4), one end of each abutting spring (5 j 7) abuts against the limiting plate (5 j 6), and the other end of each abutting spring abuts against the guide plate (5 j 3).

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

6. The directional traction device of the static pressure pile machine for building construction according to claim 1 is characterized in that the pipe rotating mechanism (3) comprises a rotating shaft (3 b), a rotary seat (3 c) and a driving mechanism, the driving mechanism is fixedly installed on the horizontal pushing mechanism (2), the rotary seat (3 c) is rotatably connected with the rotary seat (3 c), and one end of the rotating pipe (3 a) is fixedly installed on the rotating shaft (3 b).

7. The directional traction device of the static pile machine for building construction according to claim 6 is characterized in that 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).

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

9. The static pile machine directional traction device for building construction according to claim 3 is characterized in that the inner side of the bottom end of the push-up plate (5 c 7) is provided with a chamfer.

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