CN111733814A - Working method of multistage pile pulling device with one-way locking effect - Google Patents

Abstract

The invention relates to the field of pile pulling, in particular to a working method of a multi-stage pile pulling device with a one-way locking effect, which comprises a manual clamping mechanism, a rotating mechanism, a lifting plate, a guide plate, a buffering treading mechanism, a buffering telescopic mechanism, an automatic clamping device, a pile, a pipe jacking and two one-way clamping devices, wherein the multi-stage pile pulling device with the one-way locking effect prevents workers from shaking the pile back and forth, avoids the breakage of the pile, does not need equipment for pile pulling, is convenient for the workers to pull the pile, drives the buffering telescopic mechanism and the automatic clamping arm to clamp the pile to move upwards through the buffering treading mechanism, locks the pulled pile through the one-way clamping devices, avoids the pile from sliding downwards, has a large clamping range of the automatic clamping arm, avoids frequent part replacement, is rapid in the pile pulling process, and is convenient for the workers to pull the pile quickly, and the excessive labor of workers is avoided, and the working efficiency of the workers is improved.

Description

Working method of multistage pile pulling device with one-way locking effect

Technical Field

The invention relates to the field of pile pulling, in particular to a working method of a multistage pile pulling device with a one-way locking effect.

Background

In the process of building construction or flood fighting, the timber pile is often used, and the method of conventionally pulling out the timber pile is to rock about the timber pile through the workman, pull out the timber pile again, and rock the in-process about the timber pile, often can break the timber, and pull out the timber pile through the workman, need the workman to use too much labour, cause workman fatigue, reduced workman's work efficiency.

Chinese patent application No.: CN 201810016741.7; the invention has novel concept, smart structure and strong practicability, and can achieve the effect of pulling out the wooden pile for multiple times with smaller force.

Chinese patent application No.: CN 201810016743.6; the invention discloses a device capable of repeatedly pulling out piles, which has the advantages of novel concept, ingenious structure and strong practicability, and can achieve the effect of repeatedly pulling out wooden piles with small force.

Chinese patent application No.: CN 201611080669.1; the utility model discloses a hydraulic pressure pincers formula pile driver and pile pulling method, the suit is simple, and the clamp force is strong, and safe and reliable laminates more with the stake, avoids pile pulling in-process slippage, makes the stake extract more easily, has improved efficiency, has avoided the pile body impaired, simple structure, and the processing ease is small, does not receive geographical position's restriction, construction convenience.

These three solutions have the following drawbacks:

1. the third scheme can carry out the clamp of fastening to the top of stake tightly, nevertheless can't drive the stake and rotate, and the process of just pulling up needs to go on through equipment, and the workman of not being convenient for pulls out the stake.

2. Although first scheme and second scheme can both carry out multistage the pulling up to the stake, nevertheless with the process of equipment fixing on the stake too complicated, and the stake process of pulling up is too slow, the workman of being not convenient for carries out the pulling up work fast, and the adjusting range undersize of embracing the piece on this equipment for meet the stake of diameter undersize or the stake of diameter too big and just trade the piece of embracing frequently just, and pulled up the stake and have a short smooth process down.

Disclosure of Invention

The invention aims to provide a multi-stage pile pulling device with a one-way locking effect and a working method.

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

a working method of a multi-stage pile pulling device with a one-way locking effect is characterized by comprising the following steps:

s1: fixing an axis;

when the timber pile needs to be pulled up, firstly, a positioning pin is hammered into the center of the top of the timber pile by a worker, so that the turbine and the timber pile are coaxial;

s2: fixing the top of the timber pile;

the two anti-slip pads are attached to the outer edge of the wooden pile by a worker, and the two first arc-shaped clamping plates are connected by the worker through screws and nuts, so that the tops of the wooden pile are clamped by the two anti-slip pads;

s3: loosening the timber pile;

the rotating handle is screwed by workers, so that the rotating handle drives the rotating rod to rotate, the rotating rod drives the worm to rotate, the worm is meshed with the worm, the worm drives the first rotating shaft to rotate, the first rotating shaft drives the bottom plate to rotate through the top plate and the side plate, the bottom plate drives the manual clamping mechanism to rotate, and the manual clamping mechanism drives the wooden pile to rotate;

s4: trampling and clamping;

firstly, two second arc-shaped clamping plates are moved to two sides of a timber pile by a worker, then a first pedal is stepped on by one foot of the worker, then the other foot of the worker is stepped on the second pedal, and further the rotating plate is rotated on a second rotating shaft, so that the rotating plate drives the guide sliding plate to move upwards, further the guide sliding plate drives the third guide pillar and the connecting plate to move upwards, and at the beginning, the connecting plate drives the rotating rod to move upwards, further the rotating rod drives the rotating plate to move upwards, so that the sliding plate and the guide bar slide upwards along the driven plate, further the trapezoidal push block pushes the push plate, and the second arc-shaped clamping plates on the two automatic clamping arms clamp the timber pile;

s5: stepping and moving upwards;

the rotating rod continues to move upwards, so that the second arc-shaped clamping plate drives the timber pile to move upwards;

s6: resetting the second pedal;

when a worker does not apply force to tread the second pedal, the second spring pushes the rotating plate upwards, so that the buffer telescopic mechanism is reset, preparation is made for next treading of the second pedal, and the automatic clamping arm loosens the timber pile in the resetting process of the buffer telescopic mechanism, so that the automatic clamping arm is prevented from driving the timber pile to move downwards;

s7: the lifting plate moves up and down;

when the lifting plate moves upwards, the lifting plate is made to move the triangular blocks to move upwards, the triangular blocks are made to push the triangular clamping blocks, the triangular clamping blocks compress the first spring, the triangular blocks penetrate the triangular clamping blocks, the lifting plate cannot move downwards through clamping between the triangular clamping blocks and the triangular blocks, when the lifting plate is required to descend, the two pulling plates are pulled through workers, and the two triangular clamping blocks and the triangular blocks are not clamped, so that the lifting plate can slide downwards.

The invention has the beneficial effects that: this multistage pile pulling device with one-way locking effect, press from both sides tightly the top of stake through manual clamping mechanism, the rethread workman uses rotary mechanism to drive the stake and rotates, avoid the workman to make a round trip to rock the stake, the rupture of stake has been avoided, do not need the process of equipment for pulling out the stake, the workman of being convenient for pulls out the stake, and trample the mechanism through the buffering and drive buffering telescopic machanism and automatic clamping arm and press from both sides tight the rebound to the stake, and lock the stake of pulling out through one-way chucking ware, avoid the stake gliding, and the clamping range of automatic clamping arm is big, the replacement part has been avoided frequently going on, and the stake process of pulling out is rapid, the workman of being convenient for carries out the work of pulling out the stake fast, and avoided the workman to use too much labour, workman's work efficiency has been improved.

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 schematic view of the present invention in an installed state;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a partial perspective view of the first embodiment of the present invention;

FIG. 4 is a perspective view of the manual clamping mechanism;

FIG. 5 is a partial perspective view of the second embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a perspective view of the one-way fastener;

FIG. 8 is a partial perspective view of the second embodiment of the present invention;

FIG. 9 is a third schematic view of a partial perspective structure of the present invention;

FIG. 10 is a first perspective view of the auto-clamping arm;

FIG. 11 is a schematic perspective view of the second automatic clamp arm;

FIG. 12 is a perspective view of the clamp;

in the figure:

1. a manual clamping mechanism; 1a, a first arc-shaped splint; 1a1, extension panel; 1b, a non-slip mat; 1c, a sliding plate; 1d, a limiting plate; 1e, screws; 1h, nut;

2. a rotation mechanism; 2a, a turbine; 2b, a scroll bar; 2c, a rotating rod; 2d, rotating a handle; 2e, side plates; 2f, a bottom plate; 2g, positioning pins; 2h, a top plate; 2i, a first rotating shaft; 2j, circular plate; 2k, a card seat; 2l, a support plate;

3. a lifting plate; 3a, a strip-shaped chute;

4. a guide plate; 4a, cutting; 4b, clamping the frame;

5. a one-way fastener; 5a, a triangular block; 5b, a triangular clamping block; 5c, a first guide post; 5d, a first spring; 5e, fixing plates; 5f, pulling a plate;

6. a buffering tread mechanism; 6a, a first pedal; 6b, a second pedal; 6c, rotating the plate; 6d, a second spring; 6e, a spring seat; 6h, a second guide pillar; 6g, a second rotating shaft;

7. a buffer telescopic mechanism; 7a, a third guide pillar; 7b, a third spring; 7c, a guide sliding plate; 7d, connecting plates;

8. an automatic clamping arm; 8a, a rotating rod; 8b, a trapezoidal push block; 8c, heightening plates; 8d, rotating the plate; 8e, a clamping device; 8e1, fourth guide pillar; 8e2, a second arc splint; 8e3, push plate; 8f, conducting bars; 8g, limiting strips; 8h, a sliding plate; 8i, a driven plate;

9. piling wood;

10. and (7) jacking the 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.

Referring to fig. 1 to 12, a multi-stage pile pulling device with a one-way locking effect comprises a manual clamping mechanism 1, a rotating mechanism 2, a lifting plate 3, a guide plate 4, a buffering treading mechanism 6, a buffering telescopic mechanism 7, an automatic clamping device, a timber pile 9, a jacking pipe 10 and two one-way clamping devices 5, wherein the timber pile 9 is inserted and tightly clamped in soil, the manual clamping mechanism 1 is fixedly installed at the top of the timber pile 9, the rotating mechanism 2 is installed at the top of the manual clamping mechanism 1, the manual clamping mechanism 1 is in sliding connection with the rotating mechanism 2, the rotating mechanism 2 is fixedly installed at the bottom of the jacking pipe 10, the jacking pipe 10 is horizontally arranged, the lifting plate 3 is vertically and fixedly installed at the bottom of the jacking pipe 10, reinforcing ribs for reinforcing are arranged between the lifting plate 3 and the jacking pipe 10, the guide plate 4 is located at one side of the lifting plate 3 away from the rotating mechanism 2, and one side of the guide plate 4 is attached to, and deflector 4 and lifter plate 3 sliding connection, two one-way chucking ware 5 fixed mounting are in the top both sides of deflector 4, the both sides of lifter plate 3 are provided with a plurality of three hornblocks 5a with one-way chucking ware 5 joint respectively, a plurality of three hornblocks 5a evenly distributed along the length direction of lifter plate 3, mechanism 6 fixed mounting is trampled in the bottom of deflector 4 to the buffering, buffering telescopic machanism 7 fixed mounting is trampled on mechanism 6 to the buffering, automatic clamp fixed mounting is on buffering telescopic machanism 7, automatic clamp divide into two self-holding arms 8, two self-holding arms 8 are the symmetry along the central longitudinal section of stake 9 and set up, and buffering telescopic machanism 7 all is connected with two self-holding arms 8 transmissions.

The rotating mechanism 2 comprises a turbine 2a, a scroll rod 2b, a rotating rod 2c, a rotating handle 2d, a bottom plate 2f, a positioning pin 2g, a top plate 2h, a first rotating shaft 2i, a circular plate 2j, a clamping seat 2k, two supporting plates 2l and a side plate 2e, wherein the two supporting plates 2l are fixedly arranged at the bottom of the top pipe 10, one end of the rotating rod 2c sequentially penetrates through the two supporting plates 2l, a rotating hole for the rotating rod 2c to penetrate through is formed in each supporting plate 2l, the rotating handle 2d is fixedly arranged at the other end of the rotating rod 2c, two positioning rings are arranged on the rotating rod 2c, the inner sides of the two positioning rings are respectively attached to the outer sides of the two supporting plates 2l, the scroll rod 2b is fixedly arranged on the rotating rod 2c, the scroll rod 2b is meshed with the turbine 2a, the turbine 2a is fixedly arranged on the first rotating shaft 2i, the bottom of the first rotating shaft 2i is, the top of first pivot 2i and plectane 2j fixed connection, and cassette 2k covers and establishes on plectane 2j, and cassette 2k and push pipe 10 fixed connection, two curb plate 2e fixed mounting are in the bottom of roof 2h, and bottom plate 2f fixed mounting is in the bottom of two curb plates 2e, and curb plate 2e and manual clamping mechanism 1 sliding connection, dowel 2g and first pivot 2i coaxial line set up, and dowel 2g can be gliding the installation on bottom plate 2f from top to bottom, set up on bottom plate 2f and supply the gliding slide opening of dowel 2 g. When the timber pile 9 needs to be pulled up, firstly, the positioning pin 2g is hammered into the center of the top of the timber pile 9 by a worker, so that the turbine 2a and the timber pile 9 are coaxial, and then the rotating handle 2d is screwed by workers, so that the rotating handle 2d drives the rotating rod 2c to rotate, so that the rotating rod 2c drives the worm 2b to rotate, the worm 2b is engaged with the worm wheel 2a, thereby leading the turbine 2a to drive the first rotating shaft 2i to rotate, leading the first rotating shaft 2i to drive the bottom plate 2f to rotate through the top plate 2h and the side plate 2e, so that the bottom plate 2f drives the manual clamping mechanism 1 to rotate, the first rotating shaft 2i can be positioned on the top pipe 10 through the circular plate 2j and the clamping seat 2k, and the first rotating shaft 2i can rotate, and the rotating rod 2c is positioned through the two supporting plates 2 l.

The manual clamping mechanism 1 comprises two first arc-shaped clamping plates 1a, anti-slip pads 1b, sliding plates 1c, limiting plates 1d, screws 1e and nuts 1h, wherein the two first arc-shaped clamping plates 1a and positioning pins 2g are coaxially arranged, the two anti-slip pads 1b are positioned between the two first arc-shaped clamping plates 1a, the two anti-slip pads 1b are fixedly connected with the two first arc-shaped clamping plates 1a respectively, the two sliding plates 1c are fixedly arranged at the tops of the two first arc-shaped clamping plates 1a respectively, the tops of the two sliding plates 1c penetrate through a bottom plate 2f, two sliding grooves for the two sliding plates 1c to slide are formed in the bottom plate 2f, the two limiting plates 1d are arranged at the tops of the two sliding plates 1c respectively, the two sides of each first arc-shaped clamping plate 1a are provided with extension plates 1a1, the screw end of each sliding plate 1c penetrates through the two extension plates 1a1 of the two first arc-shaped clamping plates 1a in, and two nuts 1h are engaged on the two screws 1e, respectively. When the top of stake 9 is pressed from both sides tightly as needs, through the outer fringe laminating of workman with two slipmats 1b and stake 9, the rethread workman uses screw 1e and nut 1h to couple together two first arc splint 1a, and then makes two slipmats 1b press from both sides the top of stake 9 tightly, and two slide 1c can slide in two spouts of bottom plate 2 f.

Top one side of deflector 4 is provided with cutting 4a, and has seted up bar spout 3a on the deflector 4, and bar spout 3a is vertical setting, and cutting 4a passes bar spout 3a, and the both sides of bar spout 3a and the laminating of the both sides cell wall of cutting 4a block frame 4b fixed mounting on cutting 4a, and block the laminating of frame 4 b's one side and 3 one side of lifter plate, the opposite side of lifter plate 3 and the laminating of one side of deflector 4. Through lifter plate 3 upward movement, and then make bar spout 3a along cutting 4a upward movement, play the effect of direction through cutting 4a to the up-and-down motion of lifter plate 3, play the guide effect through calorie frame 4b and deflector 4 to cutting 4 a.

Each one-way clamping device 5 comprises a triangular clamping block 5b, a fixing plate 5e, a pulling plate 5f, two first springs 5d and a first guide pillar 5c, the fixing plate 5e is fixedly installed on the guide plate 4, the triangular clamping block 5b is located on one side, close to the triangular block 5a, of the fixing plate 5e, one ends of the two first guide pillars 5c are fixedly installed on the triangular clamping block 5b, the other ends of the two first guide pillars 5c penetrate through the fixing plate 5e to be fixedly connected with the pulling plate 5f, a sliding groove for the first guide pillar 5c to slide is formed in the fixing plate 5e, the two first springs 5d are sleeved on the two first guide pillars 5c, one end of each first spring 5d is abutted to the triangular clamping block 5b, and the other end of each first spring 5d is abutted to the fixing plate 5 e. When the lifting plate 3 moves upwards, and then make the lifting plate 3 drive a plurality of three corner blocks 5a upward movement, and then make three corner blocks 5a promote three corner fixture block 5b, make three corner fixture block 5b compress first spring 5d, and then make three corner blocks 5a pass three corner fixture block 5b, through the joint between three corner fixture block 5b and three corner blocks 5a, make the lifting plate 3 can not the downstream, when needs lifting plate 3 descends, through two arm-tie 5f of workman pulling, and then make not in the joint between two three corner fixture blocks 5b and the three corner blocks 5a, make the lifting plate 3 can the gliding, play the effect of direction through fixed plate 5e to the motion of first guide pillar 5 c.

The buffering treading mechanism 6 comprises a first treading plate 6a, a second treading plate 6b, a rotating plate 6c, a second spring 6d, a spring seat 6e, a second rotating shaft 6g and a second guide post 6h, wherein the first treading plate 6a is fixedly arranged at the bottom of the guide plate 4, a reinforcing rib is arranged at the joint between the first treading plate 6a and the guide plate 4, one side of the rotating plate 6c penetrates through the guide plate 4, an avoiding gap for the rotating plate 6c to penetrate through is formed in the guide plate 4, the second rotating shaft 6g can be rotatably arranged in the middle of the rotating plate 6c, the second rotating shaft 6g is positioned in the avoiding gap, two ends of the second rotating shaft 6g are fixedly connected with the guide plate 4, a buffering telescopic mechanism 7 is fixedly arranged at one end of the rotating plate 6c, the second treading plate 6b is fixedly arranged at the other end of the rotating plate 6c, the spring seat 6e is fixedly arranged at the top of the first treading plate 6a, bottom fixed mounting of second guide pillar 6h is in the inboard bottom of spring holder 6e, and second guide pillar 6h is vertical setting, and second spring 6d cover is established on second guide pillar 6h, and the bottom of second spring 6d and the inboard bottom fixed connection of spring holder 6e, and the top of second spring 6d is contradicted with the bottom of changeing board 6c, and changeing board 6c is passed at the top of second guide pillar 6h, changes and offers the bar that supplies second guide pillar 6h to wear on the board 6c and dodges the breach. The first pedal 6a is treaded by one foot of the worker, the second pedal 6b is treaded by the other foot of the worker, so that the second pedal 6b drives the buffer telescopic mechanism 7 to move upwards, the buffer telescopic mechanism 7 drives the automatic clamping arm 8 to clamp the timber pile 9, and the buffer telescopic mechanism 7 drives the timber pile 9 to move upwards, when the worker does not press the second pedal 6b with a force, the second spring 6d pushes the rotation plate 6c upward, further resetting the buffer telescopic mechanism 7 to prepare for the next stepping on the second pedal 6b, and loosening the timber pile 9 by the automatic clamping arm 8 in the resetting process of the buffer telescopic mechanism 7, and then avoid self-holding arm 8 to drive stake 9 to move down, play the effect of direction and location to second spring 6d through second guide pillar 6h and spring holder 6 e.

The buffer telescopic mechanism 7 comprises a guide sliding plate 7c, a connecting plate 7d, two third guide pillars 7a and third springs 7b, the guide sliding plate 7c is fixedly installed at the bottom of one end of the rotating plate 6c, one ends of the two third guide pillars 7a penetrate through the guide sliding plate 7c, two sliding holes for the two third guide pillars 7a to penetrate through are formed in the guide sliding plate 7c, a limiting circular plate is fixedly arranged at one end of each third guide pillar 7a, the other ends of the two third guide pillars 7a are fixedly connected with the connecting plate 7d, the two third springs 7b are respectively sleeved on the two third guide pillars 7a, one end of each third spring 7b is abutted against the guide sliding plate 7c, the other end of each third spring 7b is abutted against the connecting plate 7d, and two automatic clamping arms 8 are respectively and fixedly installed at two ends of the connecting plate 7 d. Upwards rotate through commentaries on classics board 6c, and then make commentaries on classics board 6c drive and lead slide 7c and upwards move, and then make and lead slide 7c to drive third guide pillar 7a and connecting plate 7d and upwards move, and then make connecting plate 7d drive two self-holding arms 8 and carry out self-holding to stake 9, and make connecting plate 7d drive two self-holding arms 8 and upwards move, the in-process of upward movement again, connecting plate 7d will drive third guide pillar 7a and slide on leading slide 7c, and then make and lead slide 7c and compress third spring 7b, it plays the effect of buffering to make third spring 7 b.

Each automatic clamping arm 8 comprises a rotating rod 8a, a trapezoidal push block 8b, a rotating plate 8d, a clamping device 8e, a driven plate 8i, two heightening plates 8c, two sliding plates 8h and a limiting strip 8g, one end of the rotating rod 8a is fixedly arranged at one end of a connecting plate 7d, the other end of the rotating rod 8a is rotatably connected with the middle part of the rotating plate 8d, the two sliding plates 8h are fixedly arranged on the rotating plate 8d, the two sliding plates 8h are positioned at one side of the rotating plate 8d far away from the rotating rod 8a, the two sliding plates 8h are both internally and fixedly provided with two guide strips 8f, the two guide strips 8f are vertically and symmetrically arranged, the driven plate 8i is inserted between the two guide strips 8f, the two sides of the driven plate 8i are attached to the inner sides of the two guide strips 8f, the two limiting strips 8g are respectively and fixedly arranged at the upper end and the lower end of the driven plate 8i, the clamping device 8e is slidably arranged on the driven, a trapezoidal ejector pad 8b for promoting binding clasp 8e is located and changes board 8d and keep away from one side of bull stick 8a, and trapezoidal ejector pad 8b and two increase board 8c fixed connection, two increase board 8c fixed mounting on changeing board 8 d. Firstly, two clamping devices 8e are moved to two sides of a timber pile 9 by a worker, the two clamping devices are moved upwards through a connecting plate 7d, the connecting plate 7d is made to drive a rotating rod 8a to move upwards, the rotating rod 8a is made to drive a rotating plate 8d to move upwards, a sliding plate 8h and a guide strip 8f are made to slide upwards along a driven plate 8i, a trapezoidal pushing block 8b is made to push the clamping devices 8e, the clamping devices 8e on two automatic clamping arms 8 clamp the timber pile 9, the rotating rod 8a continues to move upwards, the clamping devices 8e are made to drive the timber pile 9 to move upwards, and the surface of the timber pile 9 is rough.

The clamp 8e comprises a second arc-shaped clamping plate 8e2, a pushing plate 8e3 and two fourth guide posts 8e1, one ends of the two fourth guide posts 8e1 are fixedly connected with the second arc-shaped clamping plate 8e2, the other ends of the two fourth guide posts 8e1 penetrate through a driven plate 8i to be fixedly connected with a pushing plate 8e3, sliding holes for the two fourth guide posts 8e1 to penetrate through are formed in the driven plate 8i, and the bottom of the pushing plate 8e3 is chamfered. The trapezoid pushing block 8b pushes the pushing plate 8e3, so that the pushing plate 8e3 drives the fourth guide post 8e1 to move, and then the fourth guide post 8e1 pushes the second arc-shaped clamping plate 8e2, so that the second arc-shaped clamping plate 8e2 clamps the wood pile 9.

A working method of a multi-stage pile pulling device with a one-way locking effect is characterized by comprising the following steps:

s1: fixing an axis;

when the timber pile 9 needs to be pulled up, firstly, a positioning pin 2g is hammered into the center of the top of the timber pile 9 by a worker, so that the turbine 2a and the timber pile 9 are coaxial;

s2: fixing the top of the timber pile;

the two anti-slip pads 1b are attached to the outer edge of the timber pile 9 by a worker, and the two first arc-shaped clamping plates 1a are connected by the worker through screws 1e and nuts 1h, so that the tops of the timber pile 9 are clamped by the two anti-slip pads 1 b;

s3: loosening the timber pile;

a worker twists the rotating handle 2d, so that the rotating handle 2d drives the rotating rod 2c to rotate, the rotating rod 2c drives the worm 2b to rotate, the worm 2b is meshed with the worm 2a, the worm 2a drives the first rotating shaft 2i to rotate, the first rotating shaft 2i drives the bottom plate 2f to rotate through the top plate 2h and the side plate 2e, the bottom plate 2f drives the manual clamping mechanism 1 to rotate, and the manual clamping mechanism 1 drives the wooden pile 9 to rotate;

s4: trampling and clamping;

firstly, two second arc-shaped clamping plates 8e2 are moved to two sides of a timber pile 9 by a worker, then the worker treads a first pedal 6a by one foot, and then treads a second pedal 6b by the other foot, so that a rotating plate 6c rotates on a second rotating shaft 6g, the rotating plate 6c drives a guide sliding plate 7c to move upwards, so that the guide sliding plate 7c drives a third guide post 7a and a connecting plate 7d to move upwards, and at the beginning, the connecting plate 7d drives a rotating rod 8a to move upwards, so that the rotating rod 8a drives the rotating plate 8d to move upwards, so that the sliding plate 8h and a guide strip 8f slide upwards along a driven plate 8i, and further a trapezoid pushing block 8b pushes a pushing plate 8e3, so that the second arc-shaped clamping plates 8e2 on two automatic clamping arms 8 clamp the timber pile 9;

s5: stepping and moving upwards;

the rotating rod 8a continues to move upwards, so that the second arc-shaped clamping plate 8e2 drives the timber pile 9 to move upwards;

s6: resetting the second pedal;

when a worker does not apply force to step on the second pedal 6b, the second spring 6d upwards pushes the rotating plate 6c, so that the buffer telescopic mechanism 7 is reset, preparation is made for stepping on the second pedal 6b next time, and the automatic clamping arm 8 loosens the timber pile 9 in the resetting process of the buffer telescopic mechanism 7, so that the automatic clamping arm 8 is prevented from driving the timber pile 9 to move downwards;

s7: the lifting plate moves up and down;

when the lifter plate 3 upwards moves, and then make the lifter plate 3 drive a plurality of three hornblocks 5a upward movement, and then make three hornblocks 5a promote three angle fixture block 5b, make three angle fixture block 5b compress first spring 5d, and then make three hornblocks 5a pass three angle fixture block 5b, through the joint between three angle fixture block 5b and three angle blocks 5a, make the lifter plate 3 can not the downstream, when needs lifter plate 3 descends, through two arm-tie 5f of workman pulling, and then make not in the joint between two three angle fixture block 5b and the three angle blocks 5a, make the lifter plate 3 can glide.

The working principle is as follows: when the timber pile 9 needs to be pulled out, firstly, a positioning pin 2g is hammered into the top center position of the timber pile 9 by a worker, so that the turbine 2a and the timber pile 9 are coaxial, the two anti-slip pads 1b are attached to the outer edge of the timber pile 9 by the worker, then the two first arc-shaped clamping plates 1a are connected by the worker through screws 1e and nuts 1h, so that the two anti-slip pads 1b clamp the top of the timber pile 9, then the worker twists the rotating handle 2d, so that the rotating handle 2d drives the rotating rod 2c to rotate, so that the rotating rod 2c drives the turbine rod 2b to rotate, so that the turbine 2a drives the first rotating shaft 2i to rotate, so that the first rotating shaft 2i drives the bottom plate 2f to rotate through the top plate 2h and the side plate 2e, and the bottom plate 2f drives the manual clamping mechanism 1 to rotate, further loosening the timber pile 9, firstly moving two second arc-shaped clamping plates 8e2 to two sides of the timber pile 9 by a worker, then treading the first pedal 6a by one foot of the worker, then treading the second pedal 6b by the other foot of the worker, further rotating the rotating plate 6c on the second rotating shaft 6g, so that the rotating plate 6c drives the guide sliding plate 7c to move upwards, further the guide sliding plate 7c drives the third guide post 7a and the connecting plate 7d to move upwards, immediately starting, further the connecting plate 7d drives the rotating rod 8a to move upwards, further the rotating rod 8a drives the rotating plate 8d to move upwards, further the sliding plate 8h and the guide strip 8f slide upwards along the driven plate 8i, further the trapezoid pushing block 8b pushes the pushing plate 8e3, and further the second arc-shaped clamping plates 8e2 on the two automatic clamping arms 8 clamp the timber pile 9, upwards moving the lifting plate 3, further pushing the triangular blocks 5a to push the triangular clamping blocks 5b to compress the first springs 5d, further enabling the triangular clamping blocks 5b to pass through the triangular clamping blocks 5b, further enabling the triangular blocks 5a to pass through the triangular clamping blocks 5b, through the joint between triangle fixture block 5b and the triangle piece 5a for lifter plate 3 can not the downstream, when needs lifter plate 3 to descend, through two arm-tie 5f of workman pulling, and then makes not at the joint between two triangle fixture block 5b and the triangle piece 5a, makes lifter plate 3 can the gliding. In addition, the pile pulling device can be further designed with a device for adjusting the height so as to adapt to pile pulling requirements of different heights.

Claims (7)

1. A working method of a multi-stage pile pulling device with a one-way locking effect is characterized by comprising the following steps:

s1: fixing an axis;

when the timber pile (9) needs to be pulled up, firstly, the positioning pin (2 g) is hammered into the top center position of the timber pile (9) by a worker, and then the turbine (2 a) is coaxial with the timber pile (9).

2. The method of operation of claim 1, further comprising the steps of:

s2: fixing the top of the timber pile;

the outer edges of the two anti-skid pads (1 b) and the wooden pile (9) are attached through a worker, the two first arc-shaped clamping plates (1 a) are connected through the worker by using screws (1 e) and nuts (1 h), and then the tops of the wooden pile (9) are clamped by the two anti-skid pads (1 b).

3. The method of operation of claim 2, further comprising the steps of:

s3: loosening the timber pile;

twist through the workman and move turning handle (2 d), and then make turning handle (2 d) drive turning lever (2 c) and rotate, and then make turning lever (2 c) drive worm (2 b) and rotate, make meshing between worm (2 b) and turbine (2 a), and then make turbine (2 a) drive first pivot (2 i) and rotate, make first pivot (2 i) drive bottom plate (2 f) through roof (2 h) and curb plate (2 e) and rotate, and then make bottom plate (2 f) drive manual clamping mechanism (1) and rotate, and then make manual clamping mechanism (1) drive stake (9) and rotate.

4. The method of operation of claim 3, further comprising the steps of:

s4: trampling and clamping;

firstly, two second arc-shaped clamping plates (8 e 2) are moved to two sides of a timber pile (9) by a worker, then the worker treads a first pedal (6 a) by one foot, and then treads a second pedal (6 b) by the other foot, so that a rotating plate (6 c) rotates on a second rotating shaft (6 g), the rotating plate (6 c) drives a guide sliding plate (7 c) to move upwards, the guide sliding plate (7 c) drives a third guide post (7 a) and a connecting plate (7 d) to move upwards, at the beginning, the connecting plate (7 d) drives a rotating rod (8 a) to move upwards, the rotating rod (8 a) drives the rotating plate (8 d) to move upwards, the sliding plate (8 h) and a guide strip (8 f) slide upwards along a driven plate (8 i), and then a trapezoidal push block (8 b) pushes a pushing plate (8 e 3), so that the second arc-shaped clamping plates (8 e 2) on the two automatic clamping arms (8) clamp the wooden pile (9).

5. The method of operation of claim 4, further comprising the steps of:

s5: stepping and moving upwards;

the rotating rod (8 a) continues to move upwards, so that the second arc-shaped clamping plate (8 e 2) drives the wooden pile (9) to move upwards.

6. The method of operation of claim 5, further comprising the steps of:

s6: resetting the second pedal;

when the worker does not trample the second pedal (6 b) in the application of force, the second spring (6 d) upwards pushes up and rotates the board (6 c), and then makes buffering telescopic machanism (7) reset, prepares for trampling second pedal (6 b) next time, and buffering telescopic machanism (7) carry out the in-process self-holding arm (8) that resets and loosen stake (9), and then avoid self-holding arm (8) to drive stake (9) and move downwards.

7. The method of operation of claim 6, further comprising the steps of: the lifting plate moves up and down;

when lifter plate (3) upward movement, and then make lifter plate (3) drive a plurality of three hornblocks (5 a) upward movement, and then make three hornblocks (5 a) promote three hornblocks (5 b), make three hornblocks (5 b) compress first spring (5 d), and then make three hornblocks (5 a) pass three hornblocks (5 b), through the joint between three hornblocks (5 b) and three hornblocks (5 a), make lifter plate (3) can not the downstream, when needs lifter plate (3) descend, through two arm-tie (5 f) of workman pulling, and then make not at the joint between two three hornblocks (5 b) and three hornblocks (5 a), make lifter plate (3) can slide down.

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