CN214359976U

CN214359976U - Quick pipeline hoisting tool

Info

Publication number: CN214359976U
Application number: CN202120224191.5U
Authority: CN
Inventors: 孟昭敬; 亓树文; 李娜; 张龙阁
Original assignee: Shandong Laiwu Construction Group Co ltd
Current assignee: Shandong Laiwu Construction Group Co ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2021-10-08
Anticipated expiration: 2031-01-26

Abstract

The utility model relates to a hoist and mount pipe tool fast belongs to mechanical building's field, including the base, rotate the setting and be used for supporting the rotation wheel of base and set up the lift supporting mechanism on the base and be connected the pulling rope mechanism who is used for promoting the steel pipe towards the top with lift supporting mechanism in base below, lift supporting mechanism includes the lifter of a pair of vertical setting, the lifter includes fixed pole portion and lifter portion, fixed pole portion one end and base fixed connection, the lift groove has been seted up along its length direction to the other end of fixed pole portion, the lifter portion slides and sets up at the lift inslot, lift supporting mechanism is still including the fixed subassembly that is used for fixed lifter portion position, stay cord mechanism is connected with the upper end of lifter portion. Through the operating height of adjustment lifter, can be so that the instrument in order to adapt to the operating mode of different position heights, and then improved the adaptability of instrument.

Description

Quick pipeline hoisting tool

Technical Field

The application relates to the field of construction machinery, in particular to a quick pipeline hoisting tool.

Background

In building engineering, often need be connected with the pipeline at the floor top for the floor is higher, and pipeline is in large quantity, quality is big, and the staff often need adopt manual fit scaffold to hoist in the installation, and intensity of labour is big, and is efficient.

In order to solve the above problems, in the related art: if publication number is CN208747528U, the chinese utility model patent of 16 days 04 months in 2019 of open date provides a quick hoist and mount pipeline tool, including the under casing, the under casing downside is equipped with a plurality of universal wheels, and the under casing upside is equipped with puts the tube door, is equipped with the bracket component on the under casing, and the bracket component includes first montant and the second montant that vertical direction set up, at first montant, second montant upper end all is equipped with preceding pole and diagonal pole, all is equipped with a set of winding elevating system on first montant and second montant, and the hoist and mount has the steel pipe between two sets of winding elevating system.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the pipeline often sets up the not co-altitude department at the floor, the demand of different construction height is difficult to satisfy to above-mentioned scheme, and the suitability is lower.

SUMMERY OF THE UTILITY MODEL

In order to satisfy the demand of different job heights, this application provides a hoist and mount pipe tool fast.

The application provides a pair of hoist and mount pipeline tool relates to following technical scheme:

the utility model provides a hoist pipe tool fast, includes the base, rotates the setting and is used for supporting the rotation wheel of base and set up the lift supporting mechanism on the base and be connected the pulling rope mechanism who is used for promoting the steel pipe towards the top with lift supporting mechanism in base below, lift supporting mechanism includes the lifter of a pair of vertical setting, the lifter includes fixed pole portion and lifter portion, fixed pole portion one end and base fixed connection, the lift groove has been seted up along its length direction to the other end of fixed pole portion, lifter portion slides and sets up at the lift inslot, lift supporting mechanism is still including the fixed subassembly that is used for fixed lifter portion position, stay cord mechanism is connected with the upper end of lifter portion.

Through adopting above-mentioned technical scheme, before the staff transported the steel pipe, can be earlier according to the high position of concrete construction situation adjustment lifter. During the adjustment, staff slide the lifting rod portion in the lift inslot to make the position height of lifting rod portion upper end change, treat lifting rod portion adjustment to suitable position department after, staff operates the fixed subassembly with the rigidity of lifting rod portion, stop after so that the steel pipe can be transported to suitable high position. Through the operating height of adjustment lifter, can be so that the instrument in order to adapt to the operating mode of different position heights, and then improved the adaptability of instrument.

Optionally, fixed subassembly is including location rack, location tooth piece and be used for controlling the control mounting of location tooth piece and location rack meshing or separation, and the groove is led to in the slip has all been seted up in lifter portion, the groove break-through lifter portion is led to in the slip, and the central axis that the groove is led to in the slip is on same straight line, location tooth piece slides and sets up and lead to the inslot in the slip and be connected with the control mounting, the fixed inner wall department that sets up at the lift groove of length direction along the lift groove of location rack.

Through adopting above-mentioned technical scheme, when adjusting the working height of lifter, can make location rack towards the inside operation of the logical groove that slides through the control mounting earlier, so that location rack and location rack alternate segregation, so that lifter portion can follow fixed rod portion and reciprocate in order to change the working height of lifter, treat the back that the working height adjustment of lifter finishes, staff's accessible location rack is leading to the groove and keeping away from the operation each other in the slip, and make location rack and location rack meshing, the height of lifter obtains fixedly. The meshing of the positioning rack and the positioning tooth block can be used for fixing the position of the lifting rod part, so that the working height of the lifting rod can be fixed. The positioning rack and the positioning tooth block are separated from each other, so that the working height of the lifting rod can be adjusted by sliding the lifting rod part by a worker.

Optionally, the side walls of the fixing rod parts close to each other are provided with side wall grooves along the length direction, the side wall groove is communicated with the lifting groove, the control fixing piece comprises a connecting rod, a pair of control springs and a tensioning rope, the connecting rod is horizontally arranged between the lifting rod parts, the end parts of the connecting rods are fixedly connected with the lifting rod part, the connecting rods are provided with communicating grooves along the length direction of the connecting rods, the pair of control springs are arranged in the communicating grooves, and the end of the control spring far away from each other is fixedly connected with the positioning tooth block, the end of the control spring close to each other is fixedly connected with the side wall of the communicating groove, the tensioning rope is arranged in the communicating groove along the length direction of the communicating groove, and the end part of the tensioning rope is fixedly connected with the positioning tooth block, and the control fixing piece further comprises a winding piece for winding the tensioning rope so that the tensioning rope pulls the positioning tooth block towards the sliding through groove.

Through adopting above-mentioned technical scheme, the structural strength of instrument can be improved on the one hand in the setting of connecting rod for the instrument can be more stable at the during operation, and on the other hand, the staff can change the position height of two lift pole portions simultaneously along the length direction sliding connection pole in side wall groove, so that the staff adjusts the height of instrument. When the working height of the lifting rod needs to be changed by a worker, the tensioning rope can be coiled by the coiling part firstly, so that the control spring is compressed, and then the positioning tooth block is separated from the positioning rack, so that the lifting rod part slides. When the staff adjusts the rolling piece and releases the rolling spring, the control spring stretches, and the positioning tooth blocks can be pushed to move towards the directions away from each other, so that the positioning tooth blocks are meshed with the positioning racks, and the position of the lifting rod part is fixed.

Optionally, the winding part is a winding screw, one end of the winding screw penetrates through the communicating groove to be in threaded connection with the connecting rod, a through hole is formed in one end of the winding screw extending into the communicating groove, and the tensioning rope penetrates through the through hole to be connected with the winding screw.

Through adopting above-mentioned technical scheme, forward rotation rolling screw can make the winding rope twine on rolling screw to make location tooth piece and location rack alternate segregation. The winding screw rod is rotated reversely, so that the tensioning rope can be loosened on the winding screw rod, and the positioning tooth block is meshed with the positioning rack.

Optionally, the rope pulling mechanism comprises a pair of front rods, a plurality of sliding wheels and a steel wire rope connected with the sliding wheels in a sliding mode, the front rods are symmetrically arranged, one end of each front rod is fixedly connected with the upper end of the corresponding lifting rod portion, one end of the steel wire rope penetrates through the corresponding sliding wheel to be connected with the steel pipe, the other end of the steel wire rope is connected with the driving motor, the driving motor is fixedly connected with the base, the output shaft of the driving motor is fixedly connected with the winding wheel through coaxial keys, and the steel wire rope is wound on the winding wheel.

Through adopting above-mentioned technical scheme, the during operation, the staff passes through the fixed steel pipe of wire rope, and later driving motor rotates to make the reel rolling wire rope, and then can make the steel pipe shift up, the setting of movable pulley can make things convenient for wire rope to slide, so that the steel pipe shifts up.

Optionally, an auxiliary rod is arranged between the fixed rod portions, and the auxiliary rod is located at the upper end of the side wall groove and fixedly connected with the fixed rod portions.

Through adopting above-mentioned technical scheme, the structural strength of fixed pole portion is improved on the one hand in the setting of auxiliary rod for the instrument is more stable at the during operation. On the other hand, the auxiliary rod is arranged at the upper end of the side wall groove, so that the transition of the connecting rod can be blocked, and the lifting rod part is further ensured to be positioned in the fixed rod part.

Optionally, the fixed rod part is connected with an auxiliary stabilizing mechanism, the auxiliary stabilizing machine comprises a pair of symmetrically arranged auxiliary supporting rods, one end of each auxiliary supporting rod is connected with the fixed rod, and the other end of each auxiliary supporting rod inclines downwards to extend to the lower part of the lifting rod and the base surface in an abutting mode.

Through adopting above-mentioned technical scheme, when the lifter position height was high, when the staff passed through the lifter pulling steel pipe, probably leaded to the instrument to empty towards pole one side, had certain potential safety hazard. During operation, worker supports one end of the auxiliary supporting rod and abuts against the base surface, the stability of tool operation can be improved, and the tool is difficult to topple over during operation.

Optionally, the auxiliary support rod comprises a connecting rod portion and a sliding rod portion, one end of the connecting rod portion is hinged to the fixed rod portion, the sliding rod portion is sleeved on the outer side of the connecting rod portion in a sliding mode along the length direction of the connecting rod portion, the auxiliary support rod is connected with a fixing piece used for fixing the sliding rod portion at the sliding position of the connecting rod portion, and the auxiliary support rod is connected with a control piece for controlling the rotating angle of the auxiliary support rod.

Through adopting above-mentioned technical scheme, the staff can move up the slide bar portion along the length direction of connecting rod portion when removing the instrument, and then makes slide bar portion and base face break away from, later fixes the relative position of slide bar portion and connecting rod portion through the mounting to the staff removes the instrument. The control member is arranged to control the working angle of the auxiliary supporting rod so that the auxiliary supporting rod can be kept in a stable inclined state during working

Optionally, the control member is a control rope, one end of the control rope is tied to the fixed rope, and the other end of the control rope is tied to the sliding rod part.

Through adopting above-mentioned technical scheme, the biggest angle of steerable auxiliary stay pivoted that sets up of control rope for auxiliary stay can play the effect of supporting tool at the during operation, and then makes the instrument can be more stable when the allocation and transportation steel pipe.

Optionally, the lower end of the sliding rod part is fixedly connected with a stabilizer bar, and the lower end of the fixed rod part is fixedly connected with a claw used for placing the stabilizer bar.

Through adopting above-mentioned technical scheme, the stabilizer bar can be used to connect two auxiliary stay poles to make auxiliary stay pole work more stable, the setting of jack catch can be used to place the stabilizer bar. After the instrument work, can remove the sliding rod portion along connecting rod portion length direction, and then make the auxiliary stay pole shorten, later, the staff places the stabilizer bar on the jack catch to make the structure of instrument compacter, in order to occupy less space.

In summary, the present application includes at least one of the following advantageous technical effects:

1. the setting of lifter: before the staff transported the steel pipe, can adjust the high position of lifter according to concrete construction situation earlier. During the adjustment, staff slide the lifting rod portion in the lift inslot to make the position height of lifting rod portion upper end change, treat lifting rod portion adjustment to suitable position department after, staff operates the fixed subassembly with the rigidity of lifting rod portion, stop after so that the steel pipe can be transported to suitable high position. By adjusting the working height of the lifting rod, the tool can adapt to working conditions with different position heights, so that the adaptability of the tool is improved;

2. setting of the control fixing piece: the setting of connecting rod can improve the structural strength of instrument on the one hand for the instrument can be more stable at the during operation, and on the other hand, the staff can change the position height of two lift pole portions simultaneously along the length direction sliding connection pole in lateral wall groove, so that the staff adjusts the height of instrument. When the working height of the lifting rod needs to be changed by a worker, the tensioning rope can be coiled by the coiling part firstly, so that the control spring is compressed, and then the positioning tooth block is separated from the positioning rack, so that the lifting rod part slides. When the staff adjusts the rolling piece and releases the rolling spring, the control spring stretches, and the positioning tooth blocks can be pushed to move towards the directions away from each other, so that the positioning tooth blocks are meshed with the positioning racks, and the position of the lifting rod part is fixed.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a partial cross-sectional view of a fixed rod portion and connecting rod in an embodiment of the present application;

fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Description of reference numerals: 100. a base; 200. a pull cord mechanism; 210. a front bar; 220. a sliding wheel; 230. a wire rope; 240. a drive motor; 300. a lifting rod; 310. a fixed rod part; 311. a lifting groove; 312. an auxiliary lever; 320. a lifting rod part; 400. a fixing assembly; 410. positioning the rack; 420. positioning a tooth block; 421. a sliding through groove; 422. accommodating grooves; 433. a sidewall groove; 500. controlling the fixing piece; 510. a connecting rod; 511. a communicating groove; 520. a control spring; 530. tensioning the rope; 540. winding a screw rod; 600. an auxiliary support bar; 610. a link section; 620. a sliding rod part; 630. fixing the bolt; 640. a stabilizer bar; 650. a claw; 660. a control cord.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

The embodiment of the application discloses quick hoisting pipe tool. Referring to fig. 1, the lifting and supporting device includes a base 100, a lifting and supporting mechanism disposed on the base 100, and a pulling rope mechanism 200 connected to the lifting and supporting mechanism for lifting a steel pipe upward, wherein a plurality of rotating wheels are rotatably connected to a lower portion of the base 100, so that a worker can move a tool.

The elevating support mechanism includes a pair of elevating rods 300, the elevating rods 300 are vertically disposed, and the elevating rods 300 include a fixed rod part 310 and an elevating rod part 320. One end of the fixed rod portion 310 is fixedly welded to the base 100, the other end of the fixed rod portion 310 is provided with a lifting groove 311 along the length direction of the fixed rod portion, the lifting rod portion 320 is slidably disposed in the lifting groove 311, and the side wall of the lifting rod portion 320 is slidably attached to the side wall of the lifting groove 311.

Referring to fig. 1 and 2, the elevation support mechanism further includes a fixing assembly 400 for fixing the position of the elevation bar part 320. The fixing assembly 400 includes a positioning rack 410, a positioning tooth block 420, and a control fixing member 500, and the control fixing member 500 is mainly used for controlling the engagement or disengagement of the positioning tooth block 420 and the positioning rack 410. The lifting rod part 320 is provided with a sliding through groove 421, and the sliding through groove 421 penetrates through the side wall of the lifting rod part 320. The central axes of the sliding through slots 421 are all located on the same straight line, and the central axes thereof are horizontally arranged. The positioning tooth block 420 is slidably disposed in the sliding through groove 421 and connected to the control fixing member 500, the side wall of the lifting rod 320 deviating from each other is provided with an accommodating groove 422, the positioning rack 410 is fixedly disposed on the inner wall of the lifting groove 311 along the length direction of the lifting groove 311, and the positioning rack 410 is disposed in the accommodating groove 422.

Referring to fig. 2 and 3, the side walls of the fixing rod parts 310 adjacent to each other are provided with side wall grooves 433 along the length direction thereof, and the side wall grooves 433 are communicated with the lifting groove 311. The control fixing member 500 includes a connecting rod 510, a pair of control springs 520, and a tension rope 530. The connecting rod 510 is horizontally disposed between the lifting rod parts 320, and the ends of the connecting rod 510 are all fixedly welded to the walls of the lifting rod parts 320. The connecting rod 510 is provided with a communicating groove 511 along the length direction thereof, the communicating groove 511 penetrates through the connecting rod 510, the communicating groove 511 is communicated with the sliding through groove 421, and the central axis of the communicating groove 511 and the central axis of the sliding through groove 421 are on the same straight line. Control spring 520 all sets up inside intercommunication groove 511, and the one end and the fixed welding of location tooth piece 420 that control spring 520 kept away from each other, the equal fixedly connected with annular baffle of one end that control spring 520 is close to each other, baffle and intercommunication groove 511's lateral wall fixed welding. The tension rope 530 is disposed in the communication groove 511 along the longitudinal direction of the communication groove 511, and the tension rope 530 is tied to the positioning tooth block 420 through the stopper and the control spring 520. The control fixing member 500 further includes a winding member, the winding member is a winding screw 540, the winding screw 540 is perpendicular to the connecting rod 510, and one end of the winding screw 540 penetrates through the communicating groove 511 and is in threaded connection with the connecting rod 510. A through hole is formed in one end, extending into the communicating groove 511, of the winding screw 540, the tensioning rope 530 penetrates through the through hole to be connected with the winding screw 540, and a rotating handle is fixedly welded to the other end of the winding screw 540.

Referring to fig. 1, an auxiliary rod 312 is disposed between the fixed rod portions 310, and the auxiliary rod 312 is fixedly welded to the fixed rod portions 310 at the upper end of the side wall groove 433. The auxiliary lever 312 may serve to enhance the structural strength of the tool, on the one hand, and also to block the connecting rod 510 from moving up excessively to disengage the lifting lever part 320 from the fixed lever part 310, on the other hand.

In order to improve the working stability of the tool, the tool is not easy to topple during working. The fixing rod part 310 is connected with an auxiliary stabilizing mechanism, the auxiliary stabilizing mechanism comprises a pair of symmetrically arranged auxiliary supporting rods 600, and the auxiliary supporting rods 600 comprise a connecting rod part 610 and a sliding rod part 620. Connecting rod portion 610 one end is articulated through the side that articulated ear and fixed rod portion 310 deviate from each other, and the slip pole portion 620 slip cap is established in the outside of connecting rod 510 portion, and auxiliary stay bar 600 is connected with and is used for fixed slip pole portion 620 at the mounting of connecting rod portion 610 sliding position, and the mounting is fixing bolt 630, fixing bolt 630 and slip pole portion 620 threaded connection. The auxiliary support bar 600 is further connected with a control member for controlling the rotation angle thereof, the control member is a control rope 660, one end of the control rope 660 is tied with the fixed bar part 310, and the other end is tied with the sliding bar part 620. In operation, the control cord 660 is straightened and the sliding stem 620 is held against a base surface at one end to support a tool. In order to improve the working stability of the auxiliary support rod 600, the lower end of the sliding rod part 620 is fixedly welded with the stabilizer bar 640, and the lower end of the fixed rod part 310 is fixedly connected with the claw 650 for placing the stabilizer bar 640.

The pull cord mechanism 200 includes a pair of front bars 210, a plurality of sliding wheels 220, and a pair of wire ropes 230. The front rods 210 are symmetrically arranged, and the upper end of each lifting rod part 320 is fixedly welded with one front rod 210. A pair of sliding wheels 220 are connected to each front rod 210, and the sliding wheels 220 are rotatably disposed at end positions of the front rods 210. Each pair of sliding wheels 220 is connected with a steel wire rope 230, one end of each steel wire rope 230 penetrates through the corresponding sliding wheel 220 to be connected with the corresponding steel pipe, the other end of each steel wire rope 230 is connected with a driving motor 240, the driving motor 240 is fixedly connected with the base 100, a winding wheel is fixedly connected with an output shaft of the driving motor 240 in a coaxial key mode, and the steel wire ropes 230 are wound on the winding wheel.

The implementation principle of the embodiment of the application is as follows: after the staff removed the instrument to the construction point department, the staff rotated and rotated the handle, so that winding screw 540 convoluteed taut rope 530, taut rope 530 convolutes on winding screw 540 after, control spring 520 contracts, location tooth piece 420 moved towards sliding through groove 421, and then location tooth piece 420 separated with location rack 410, later the staff changes the position height of connecting rod 510 along the length direction of lateral wall groove 433, so that the position height of lifter portion 320 changes, later the staff rotated once more and rotated the handle, so that winding screw 540 loosens taut rope 530, and then make control spring 520 can promote location tooth piece 420 towards the sliding through groove 421 outside, so that location tooth piece 420 and location rack 410 mesh. Thereafter, the worker rotates the link portion 610 and adjusts the position of the slide lever portion 620 so that the slide lever portion 620 abuts on the base surface to support the lifter bar 300.

Then, the worker connects the pair of wire ropes 230 to the steel pipe, and drives the motor 240 to rotate, so as to lift the steel pipe.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a hoist and mount pipeline tool fast, includes base (100) and rotates the setting and be used for supporting the rotatory wheel of base (100) below base (100), its characterized in that: including setting up lifting support mechanism on base (100) and being connected the pulling rope mechanism (200) that is used for promoting the steel pipe towards the top with lifting support mechanism, lifting support mechanism includes lifter (300) of a pair of vertical setting, lifter (300) are including fixed pole portion (310) and lifter portion (320), fixed pole portion (310) one end and base (100) fixed connection, and lift groove (311) have been seted up along its length direction to the other end of fixed pole portion (310), lifter portion (320) slide and set up in lift groove (311), lifting support mechanism is still including fixed subassembly (400) that are used for fixed lifter portion (320) position, the pulling rope mechanism is connected with the upper end of lifter portion (320).

2. The tool for quickly hoisting the pipeline according to claim 1, wherein: fixed subassembly (400) are including location rack (410), location tooth piece (420) and be used for controlling control mounting (500) that location tooth piece (420) and location rack (410) meshing or separation, the logical groove (421) have all been seted up in the pole portion that goes up and down (320), the lateral wall of logical groove (421) break-over pole portion (320) that slides, and the central axis that the logical groove (421) that slides is on same straight line, location tooth piece (420) slide to set up in the logical groove (421) that slides and be connected with control mounting (500), location rack (410) are along the fixed inner wall department that sets up in the lift groove (311) of length direction of lift groove (311).

3. The tool for quickly hoisting the pipeline as claimed in claim 2, wherein: the side walls, close to each other, of the fixed rod parts (310) are provided with side wall grooves (433) along the length direction of the side walls, the side wall grooves (433) are communicated with the lifting grooves (311), the control fixing part (500) comprises a connecting rod (510), a pair of control springs (520) and a tensioning rope (530), the connecting rod (510) is horizontally arranged between the lifting rod parts (320), the end parts of the connecting rod (510) are fixedly connected with the lifting rod parts (320), the connecting rod (510) is provided with a communication groove (511) along the length direction of the connecting rod, the pair of control springs (520) are arranged inside the communication groove (511), one ends, far away from each other, of the control springs (520) are fixedly connected with the positioning tooth block (420), one ends, close to each other, of the control springs (520) are fixedly connected with the side walls of the communication groove (511), and the tensioning rope (530) is arranged inside the communication groove (511) along the length direction of the communication groove (511), and the end parts of the tensioning ropes (530) are fixedly connected with the positioning tooth blocks (420), and the control fixing part (500) further comprises a winding part for winding the tensioning ropes (530) so that the tensioning ropes (530) pull the positioning tooth blocks (420) towards the sliding through grooves (421).

4. The tool for quickly hoisting the pipeline according to claim 3, wherein: the winding piece is a winding screw rod (540), one end of the winding screw rod (540) penetrates through the communicating groove (511) to be connected with the connecting rod (510) in a threaded mode, a through hole is formed in one end, extending into the communicating groove (511), of the winding screw rod (540), and the tensioning rope (530) penetrates through the through hole to be connected with the winding screw rod (540).

5. The tool for quickly hoisting the pipeline according to claim 4, wherein: the pulling rope mechanism (200) comprises a pair of front rods (210), a plurality of sliding wheels (220) rotatably arranged on the front rods (210), and a steel wire rope (230) connected with the sliding wheels (220) in a sliding manner, the front rods (210) are symmetrically arranged, one end of each front rod (210) is fixedly connected with the upper end of each lifting rod part (320), one end of each steel wire rope (230) penetrates through the corresponding sliding wheel (220) to be connected with a steel pipe, the other end of each steel wire rope is connected with a driving motor (240), the driving motors (240) are fixedly connected with the base (100), the output shafts of the driving motors (240) are fixedly connected with winding wheels, and the steel wire ropes (230) are wound on the winding wheels.

6. The tool for quickly hoisting the pipeline according to claim 5, wherein: an auxiliary rod (312) is arranged between the fixed rod parts (310), and the auxiliary rod (312) is positioned at the upper end of the side wall groove (433) and is fixedly connected with the fixed rod parts (310).

7. The tool for quickly hoisting the pipeline according to claim 6, wherein: fixed pole portion (310) are connected with supplementary stabilizing mean, supplementary stabilizer includes auxiliary stay pole (600) that a pair of symmetry set up, auxiliary stay pole (600) one end is connected with the dead lever, and other end slope downwardly extending to the below and the base face butt of lift bar.

8. The tool for quickly hoisting the pipeline according to claim 7, wherein: auxiliary stay pole (600) include connecting rod portion (610) and slip pole portion (620), and connecting rod portion (610) one end is articulated with fixed pole portion (310), and slip pole portion (620) are established in connecting rod portion (610) outside along connecting rod portion (610) length direction slip cap, and auxiliary stay pole (600) are connected with and are used for fixed slip pole portion (620) at connecting rod portion (610) sliding position's mounting, and auxiliary stay pole (600) are connected with the control of its turned angle of control.

9. The quick pipe hoisting tool of claim 8, wherein: the control element is a control rope (660), one end of the control rope (660) is tied with the fixed rope, and the other end of the control rope (660) is tied with the sliding rod part (620).

10. The quick pipe hoisting tool of claim 9, wherein: the lower extreme fixedly connected with stabilizer bar (640) of slip pole portion (620), and fixed pole portion (310) lower extreme fixedly connected with is used for placing jack catch (650) of stabilizer bar (640).