CN116722486A - Auxiliary device is laid to electric power pipeline engineering - Google Patents

Abstract

The invention discloses an auxiliary device for laying electric power pipeline engineering, and belongs to the technical field of pipeline laying. The utility model provides an auxiliary device is laid to electric power pipeline engineering, includes moving tool, mobile device and connecting block, install on the moving tool and change and visit positioner, it is connected with and detains positioner to change to visit positioner lower extreme, detain positioner internal connection fixed part, the fixed part upper end is connected with fixing device. According to the invention, the detention positioning device is driven into the ground to be paved by the rotary detection positioning device in the process of paving the road survey road section in advance through the moving tool, so that the detention positioning device is pre-buried in advance, the auxiliary positioning is facilitated when the ground is paved by digging later, the accuracy of positioning the pipeline is improved, and after the ground is paved by the pipeline, the detention positioning device provides a connection base for the fixing device through connecting the fixing part, so that the fixing effect on the power pipeline paving is realized, and the stability of the buried power pipeline is improved.

Description

Auxiliary device is laid to electric power pipeline engineering

Technical Field

The invention relates to the technical field of pipeline laying, in particular to an auxiliary device for laying electric pipeline engineering.

Background

Electrical plumbing is a conduit system constructed for the purpose of delivering electrical power, typically for the purpose of delivering electrical cables or wires from a power plant, substation or other point of supply to a customer or consumer, either buried underground or laid overhead. In the laying process of the electric pipeline engineering, various auxiliary devices are sometimes utilized to support and assist construction so as to improve efficiency and ensure quality.

The laying road section can be surveyed in advance when laying the electric power pipeline engineering, and the laying route is designed according to the electric power requirement and the survey result, at present, usually after the laying route is confirmed, the staff makes marks in advance on the ground, thereby playing the effect of auxiliary positioning, but the marks can only outline the route scope, at the stage of laying the electric power pipeline underground, the concrete position of the pipeline underground still needs to be adjusted and determined again, and the fixing work of the pipeline is done according to the repositioning, the electric power pipeline laying performed in the mode is not accurate enough for the concrete position positioning of the pipeline, and the whole set of positioning work and fixing work has more steps.

Disclosure of Invention

The invention aims to provide an auxiliary device for laying electric pipeline engineering, which is used for solving the problems in the background technology: the laying road section can be surveyed in advance when laying the electric power pipeline engineering, and the laying route is designed according to the electric power requirement and the survey result, at present, usually after the laying route is confirmed, the staff makes marks in advance on the ground, thereby playing the effect of auxiliary positioning, but the marks can only outline the route scope, at the stage of laying the electric power pipeline underground, the concrete position of the pipeline underground still needs to be adjusted and determined again, and the fixing work of the pipeline is done according to the repositioning, the electric power pipeline laying performed in the mode is not accurate enough for the concrete position positioning of the pipeline, and the whole set of positioning work and fixing work has more steps.

The utility model provides an auxiliary device is laid to electric power pipeline engineering, includes moving tool, mobile device and connecting block, moving tool sets up subaerial laying, just moving tool is last to install and changes and visit positioner, it is provided with driving box, transmission structure and hydraulic stem to change and visit positioner lower extreme, it is connected with and detains positioner to change, it has the hexagon inner chamber to detain positioner, limit groove has all been seted up on every face of hexagon inner chamber upper end, just hexagon inner chamber bottom fixed connection mobile device, mobile device is provided with reset spring and infrared display, just limit groove connects fixed part, fixed part sets up the connecting block lower extreme, just connecting block upper end swing joint has fixing device.

Preferably, the moving tool comprises a moving support frame and a steering moving wheel, the bottom surface of the moving support frame is connected with the steering moving wheel, the moving support frame comprises a moving handle and a supporting plate, a hollow connecting pipeline is arranged at the middle position of the supporting plate of the moving support frame, the rotating detection positioning device can travel along a planning route through the moving tool, the accuracy of laying and positioning of the electric power pipeline is improved, the detention positioning device is guaranteed to be vertical to the ground and deep downwards by utilizing the hollow connecting pipeline, and meanwhile, the stability of the rotating detection positioning device during drilling is enhanced.

Preferably, the rotating and detecting positioning device comprises a connecting frame connected to the upper surface of the moving tool and a hydraulic rod connected with the detention positioning device, the driving box is fixedly installed in the middle of the connecting frame, the bottom end of the driving box is movably connected with the upper end of the hydraulic rod, the upper end of the hydraulic rod is connected with the transmission structure, the bottom end of the hydraulic rod is provided with a hexagonal connector, the upper end of the hydraulic rod is a hydraulic telescopic cavity, the hydraulic telescopic cavity at the upper end of the hydraulic rod penetrates through the driving box and is connected with a rotating motor, the hydraulic rod is controlled to synchronously rotate through the rotating motor and the transmission structure, the rotating speeds are kept consistent, and accordingly the detention positioning device connected with the hexagonal connector at the bottom end of the hydraulic rod has the same drilling depth.

Preferably, the detention positioner includes set screw, hexagon inner chamber and spacing groove, set screw periphery is provided with the screw, just set screw is inside to be seted up the hexagon inner chamber, the spacing groove sets up hexagon inner chamber upper end is through leaving detention positioner underground, as the locating mark of pipeline laying after the excavation, effectively improves the accuracy of pipeline laying after the excavation.

Preferably, the movable device comprises a hexagonal column and a reset spring connected inside the retention positioning device, a connecting round hole is formed in the upper end of the hexagonal column, the infrared display is installed in the connecting round hole, the bottom of the hexagonal column is connected with the reset spring, infrared light emitted by the infrared display is used for helping workers to determine an excavating path when excavating a pipeline laying route, excavating efficiency is improved, and meanwhile accuracy of route excavation and pipeline burying is improved.

Preferably, the connecting block comprises a connecting square and a connecting square column, the two sides of the lower end of the connecting square are fixedly connected with the connecting square column respectively, a chute is formed in the upper surface of the connecting square, the chute is connected with the fixing device, the connecting square column is fixedly connected with the fixing component, and the connecting block plays a role of connecting a base station.

Preferably, the fixing device comprises two pipeline clamping pieces and fixing rivets, the bottom ends of the pipeline clamping pieces are fixedly connected with moving blocks, the upper ends and the lower ends of the pipeline clamping pieces are respectively provided with a closing block, the fixing rivets penetrate through the closing blocks connected with the left ends, the right ends of the fixing rivets are located on the closing blocks, rivet connecting holes are formed in the closing blocks, the electric pipeline can be fixed between the pipeline clamping pieces through the combination of the fixing rivets and the rivet connecting holes, the fixing effect is achieved on the electric pipeline, and the stability of the embedded electric pipeline is improved.

Preferably, the fixing component comprises a connecting disc connected with a connecting column at the bottom end of the connecting block and a connecting movable device, the connecting column is circumferentially connected with a plurality of small springs, the small springs are connected with wedge blocks, the bottom end of the connecting column is connected with the connecting disc, and the fixing component is fixedly connected with the retention positioning device by utilizing the small springs and the wedge blocks, so that the fixing device is convenient to use for fixing the power pipeline.

Compared with the prior art, the invention has the advantages that:

(1) According to the invention, the rotary detection positioning device is carried by the moving tool to be arranged on a road surface survey road section in advance, and the detention positioning device is driven into the ground to be paved by the rotary detection positioning device in the process of determining the road section, so that the pre-burying is realized in advance, the auxiliary positioning is facilitated when the foundation is excavated and paved later, and the positioning accuracy of the pipeline is improved.

(2) According to the invention, the infrared display is arranged in the movable device of the retention positioning device, and the infrared rays emitted by the infrared display are used for assisting an excavating person in determining an excavating route when the foundation is excavated and laid in an auxiliary manner, so that the efficiency and accuracy of excavating and laying pipelines are improved.

(3) In the invention, after the foundation is excavated by pipeline laying, the detention positioning device is detention underground, the fixing component is combined by the connecting block, and the fixing component is inserted into the detention positioning device to provide a connecting base for the fixing device, thereby playing a role in fixing the electric pipeline laying and improving the stability of the buried electric pipeline.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the structure of the whole laying drilling rig of the present invention;

FIG. 2 is a schematic view of the structure of the present invention when a fixed power pipeline is buried;

FIG. 3 is an enlarged schematic view of the moving tool according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of the rotary probe positioning device of the present invention;

FIG. 5 is an enlarged schematic view of the structure of the retention and positioning device according to the present invention;

FIG. 6 is a schematic view of a mobile device according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of the connecting block of the present invention;

FIG. 8 is an enlarged schematic view of the structure of the fixing device of the present invention;

fig. 9 is an enlarged schematic view of the structure of the fixing member of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. paving the ground; 2. moving the tool; 201. moving the support frame; 202. a steering wheel; 203. a hollow connecting pipe; 3. a rotation detection positioning device; 301. a connecting frame; 302. a drive box; 303. a transmission structure; 304. a hydraulic rod; 305. a hexagonal connector; 4. a retention positioning device; 401. a set screw; 402. a thread; 403. a hexagonal inner cavity; 404. a limit groove; 5. a movable device; 501. hexagonal columns; 502. a return spring; 503. a connecting round hole; 504. an infrared display; 6. a connecting block; 601. connecting the square blocks; 602. a chute; 603. connecting square columns; 7. a fixing device; 701. a pipe clip; 702. a moving block; 703. a closing block; 704. fixing a rivet; 705. rivet connection holes; 8. a fixing member; 801. a connecting column; 802. wedge blocks; 803. a small spring; 804. and (5) connecting the wafers.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-9, an auxiliary device for laying electric power pipeline engineering comprises a moving tool 2, a moving device 5 and a connecting block 6, wherein the moving tool 2 is arranged on a laying ground 1, a rotating and detecting positioning device 3 is arranged on the moving tool 2, the rotating and detecting positioning device 3 is provided with a driving box 302, a transmission structure 303 and a hydraulic rod 304, the lower end of the rotating and detecting positioning device 3 is connected with a detention positioning device 4, the detention positioning device 4 is provided with a hexagonal inner cavity 403, each surface at the upper end of the hexagonal inner cavity 403 is provided with a limiting groove 404, the bottom of the hexagonal inner cavity 403 is fixedly connected with the moving device 5, the moving device 5 is provided with a reset spring 502 and an infrared display 504, the limiting grooves 404 are connected with a fixing part 8, the fixing part 8 is arranged at the lower end of the connecting block 6, and the upper end of the connecting block 6 is movably connected with a fixing device 7.

In this embodiment, as shown in fig. 3, the moving tool 2 includes a moving support 201 and a steering moving wheel 202, the bottom surface of the moving support 201 is connected with the steering moving wheel 202, the moving support 201 includes a moving handle and a supporting plate, a hollow connecting pipe 203 is disposed in the middle of the supporting plate of the moving support 201, the moving support 201 is connected with a steering positioning device 3, and the steering positioning device 3 can be carried along a preset path through the moving support 201 and the steering moving wheel 202, and the hollow connecting pipe 203 is designed to make the steering positioning device 3 connected with the retention positioning device 4 have a fixed limit when drilling below the ground, so that the steering positioning device 3 can travel along the planned path through the moving tool 2, thereby improving the accuracy of laying and positioning of the electric power pipeline, ensuring that the retention positioning device 4 is deep vertically to the ground by using the hollow connecting pipe 203, and enhancing the stability of the steering positioning device 3 when drilling.

In this embodiment, as shown in fig. 4, the rotation detecting and positioning device 3 includes a connecting frame 301 connected to the upper surface of the moving tool 2 and a hydraulic rod 304 connected to the retention and positioning device 4, and a driving case 302 is fixedly installed in the middle of the connecting frame 301, the bottom end of the driving case 302 is movably connected to the upper end of the hydraulic rod 304, and the upper end of the hydraulic rod 304 is connected with a transmission structure 303, the bottom end of the hydraulic rod 304 is provided with a hexagonal connector 305, and the upper end of the hydraulic rod 304 is provided with a hydraulic telescopic cavity, and the hydraulic telescopic cavity at the upper end of the hydraulic rod 304 penetrates through the driving case 302 and is connected with a rotating motor, a magnetic coil is arranged inside the hexagonal connector 305, and has magnetic attraction when current is introduced, the hexagonal cavity 403 of the retention and positioning device 4 is made of metal, after the hexagonal connector 305 is inserted into the retention and positioning device 4, the retention and positioning device 4 is firmly adsorbed by conductive attraction, and the transmission structure 303 includes a ring gear and a transmission gear, the transmission gear is fixedly connected to the periphery of the hydraulic telescopic cavity of the hydraulic rod 304, and the ring gear is connected with the transmission structure 303, and the hydraulic rod 304 is synchronously rotated by the rotating motor and the transmission structure 303, so that the rotating speed of the hexagonal connector 304 is kept consistent, and the depth of the hydraulic rod 305 is connected to the positioning device 4.

In this embodiment, as shown in fig. 5, the retention positioning device 4 includes a positioning screw 401, a hexagonal inner cavity 403 and a limiting groove 404, a thread 402 is disposed on the periphery of the positioning screw 401, the hexagonal inner cavity 403 is disposed inside the positioning screw 401, the limiting groove 404 is disposed at the upper end of the hexagonal inner cavity 403, the thread 402 helps the positioning screw 401 drill faster into the ground, the hexagonal inner cavity 403 mainly plays a role of loading connection, on one hand, the hexagonal inner cavity 403 is used for fixedly connecting the movable device 5, on the other hand, the hexagonal inner cavity 403 is used for connecting the rotation detection positioning device 3 and the fixed component 8, along a laying route, the rotation detection positioning device 3 makes the retention positioning device 4 drill into the ground, whether a route foundation is firm or not is determined before laying the excavation in advance, and after the firm determination, the retention positioning device 4 is left in the ground as a positioning mark of pipeline laying after the excavation, so that the accuracy of pipeline laying after the excavation is effectively improved.

In this embodiment, as shown in fig. 6, the movable device 5 includes a hexagonal column 501 and a return spring 502 connected inside the retention and positioning device 4, a connection round hole 503 is formed at the upper end of the hexagonal column 501, an infrared display 504 is installed in the connection round hole 503, and the bottom of the hexagonal column 501 is connected with the return spring 502, when the retention and positioning device 4 is connected with the rotation and positioning device 3, the hexagonal connector 305 presses down the hexagonal column 501 and the return spring 502, after the retention and positioning device 4 moves to a certain depth, the rotation and positioning device 3 is moved out, the hexagonal column 501 returns to the initial position under the action of the return spring 502, at this time, the top end of the hexagonal column 501 is flush with the top end of the hexagonal cavity 403, so that the cobble impurities are prevented from entering the hexagonal cavity 403, the connection of the subsequent fixing part 8 and the retention and positioning device 4 is affected, and in addition, the infrared display 504 emits infrared light to help the staff to determine the excavation path in the excavation pipeline laying process, the excavation efficiency is improved, and the accuracy of the pipeline burying is improved.

Specifically, before the electric pipeline is paved, the mobile tool 2 is utilized to carry out mobile survey on the paved ground 1, a paving route is comprehensively formulated according to the survey result and the electric transportation requirement, and in the course of route survey determination, the hexagonal connector 305 of the rotating and detecting positioning device 3 is inserted into the positioning screw 401 of the retention positioning device 4, at the moment, the hexagonal connector 305 firmly adsorbs the positioning screw 401 through conductive attached magnetism, afterwards, the driving box 302 is utilized to drive the hydraulic rod 304 to rotate and aim at the ground for drilling, meanwhile, the hydraulic rod 304 can be downwards prolonged in a hydraulic mode, the retention positioning device 4 is pushed to be screwed into the ground, after the retention positioning device 4 reaches a preset depth, the rotating and detecting positioning device 3 is moved out, the hexagonal column 501 can be returned to the initial position again under the action of the reset spring 502, at the moment, the top end of the hexagonal column 501 is flush with the top end of the hexagonal cavity 403, rubble impurities are prevented from entering the hexagonal cavity 403, at the moment, the infrared display 504 emits infrared light, and the excavator is helped to determine the next excavating route.

In this embodiment, as shown in fig. 7, the connection block 6 includes a connection square 601 and a connection square 603, two sides of the lower end of the connection square 601 are fixedly connected with the connection square 603 respectively, a chute 602 is provided on the connection square 601, the chute 602 is connected with a fixing device 7, the connection square 603 is fixedly connected with a fixing component 8, the retention positioning device 4 is retained underground, after the pipeline embedding route is excavated, the retention positioning device 4 is connected by combining the connection block 6 with the fixing component 8, so as to provide a connection base for the fixing device 7, and the connection block 6 plays a role of the connection base.

In this embodiment, as shown in fig. 8, the fixing device 7 includes two pipeline clamping pieces 701 and a fixing rivet 704, the bottom end of the pipeline clamping piece 701 is fixedly connected with a moving block 702, the upper end and the lower end of the pipeline clamping piece 701 are respectively provided with a closing block 703, the fixing rivet 704 is penetratingly connected with the closing block 703 at the left end, and a rivet connecting hole 705 is formed in the closing block 703 at the right end, the moving block 702 is movably connected in the chute 602, and the electric pipeline can be fixed between the pipeline clamping pieces 701 by combining the fixing rivet 704 and the rivet connecting hole 705, so that the fixing effect is achieved on the laying of the electric pipeline, and the stability of the buried electric pipeline is improved.

In this embodiment, as shown in fig. 9, the fixing component 8 includes a connection disc 804 connected to the connection column 801 at the bottom end of the connection block 6 and to the connection movable device 5, the connection column 801 is circumferentially connected to a plurality of small springs 803, the small springs 803 are connected to the wedge block 802, and the bottom end of the connection column 801 is connected to the connection disc 804, when the retention positioning device 4 is retained underground, and after the pipeline is buried, the pipeline is excavated, the fixing component 8 is inserted into the retention positioning device 4, at this time, under the elastic force of the small springs 803, the wedge block 802 will be clamped in the limit groove 404, and the small springs 803 and the wedge block 802 are utilized to make the fixing component 8 fixedly connected to the retention positioning device 4, thereby facilitating the use of the fixing device 7 to fix the power pipeline.

Specifically, after the retention and positioning device 4 is inserted into the ground every two meters along the predetermined laying route, according to the light indication of the infrared display 504, the digger starts to dig and lay the foundation, after the digger finishes, the retention and positioning device 4 is connected by the connection block 6 and the fixing component 8, a connection base is provided for the fixing device 7, then the fixing component 8 is inserted into the retention and positioning device 4, at this time, under the elastic force of the small spring 803, the wedge block 802 is clamped in the limit groove 404, the fixing component 8 is fixedly connected to the retention and positioning device 4 by the small spring 803 and the wedge block 802, then the electric pipeline is placed between the pipeline clamping pieces 701 along the retention and positioning device 4 connected with the fixing component 8, and then the electric pipeline is fixed by combining the pipeline clamping pieces 701 and using the fixing rivet 704 and the rivet connecting hole 705.

The working principle of the invention is as follows: before laying an electric pipeline, a moving tool 2 is utilized to carry out moving survey on a laying ground 1, a laying route is comprehensively formulated according to a survey result and electric transportation requirements, in the process of route survey determination, a hexagonal connector 305 of a rotating and detecting positioning device 3 is inserted into a positioning screw 401 of a retention positioning device 4, at the moment, the hexagonal connector 305 firmly adsorbs the positioning screw 401 through conductive magnetism, then a driving box 302 is utilized to drive a hydraulic rod 304 to rotate and aim at the ground for drilling, meanwhile, the hydraulic rod 304 can be downwards prolonged in a hydraulic mode, the retention positioning device 4 is pushed to penetrate deeply into the ground, after the retention positioning device 4 reaches a preset depth, the rotating and detecting positioning device 3 is removed, a hexagonal column 501 can be returned to an initial position again under the action of a reset spring 502, at the moment, the top end of the hexagonal column 501 is flush with the top end of a hexagonal cavity 403, preventing rubble impurities from entering the hexagonal inner cavity 403, emitting infrared light rays by the infrared display 504 at the moment to help an excavating person determine a subsequent excavating route, after the retention positioning device 4 is inserted into the ground every two meters along a preset paving route, according to the light rays of the infrared display 504, indicating that the excavating person begins excavating and paving a foundation, after the excavating is completed, connecting the retention positioning device 4 through the connecting block 6 and the fixing part 8, providing a connecting base for the fixing device 7, then inserting the fixing part 8 into the retention positioning device 4, at the moment, under the action of the elasticity of the small spring 803, the wedge block 802 is clamped in the limiting groove 404, the fixing part 8 is fixedly connected to the retention positioning device 4 by the small spring 803 and the wedge block 802, then placing an electric pipeline between the pipeline clamping pieces 701 along the retention positioning device 4 connected with the fixing part 8, and then the pipeline clamping pieces 701 are combined, the electric pipeline is fixed by the fixing rivets 704 and the rivet connecting holes 705, and finally the electric pipeline is buried again.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides an auxiliary device is laid to electric power pipeline engineering, includes moving tool (2), mobile device (5) and connecting block (6), its characterized in that: the mobile tool (2) is arranged on a paved ground (1), the mobile tool (2) is provided with a rotating detection positioning device (3), the rotating detection positioning device (3) is provided with a driving box (302), a transmission structure (303) and a hydraulic rod (304), the lower end of the rotating detection positioning device (3) is connected with a detention positioning device (4), the detention positioning device (4) is provided with a hexagonal inner cavity (403), each surface at the upper end of the hexagonal inner cavity (403) is provided with a limiting groove (404), the bottom of the hexagonal inner cavity (403) is fixedly connected with a movable device (5), the movable device (5) is provided with a reset spring (502) and an infrared display (504), the limiting grooves (404) are connected with a fixing component (8), the fixing component (8) is arranged at the lower end of a connecting block (6), and the upper end of the connecting block (6) is movably connected with a fixing device (7).

2. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: the mobile tool (2) comprises a mobile support frame (201) and a steering moving wheel (202), the steering moving wheel (202) is connected to the bottom surface of the mobile support frame (201), the mobile support frame (201) comprises a mobile handle and a support plate, and a hollow connecting pipeline (203) is arranged in the middle of the support plate of the mobile support frame (201).

3. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: the rotary detection positioning device (3) comprises a connecting frame (301) connected to the upper surface of the moving tool (2) and a hydraulic rod (304) connected with the retention positioning device (4), the driving box (302) is fixedly installed in the middle of the connecting frame (301), the bottom end of the driving box (302) is movably connected with the upper end of the hydraulic rod (304), the upper end of the hydraulic rod (304) is connected with a transmission structure (303), a hexagonal connector (305) is arranged at the bottom end of the hydraulic rod (304), the upper end of the hydraulic rod (304) is a hydraulic telescopic cavity, and the hydraulic telescopic cavity at the upper end of the hydraulic rod (304) penetrates through the driving box (302) and is connected with a rotating motor.

4. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: the retention positioning device (4) comprises a positioning screw (401), a hexagonal inner cavity (403) and a limiting groove (404), threads (402) are arranged on the periphery of the positioning screw (401), the hexagonal inner cavity (403) is formed in the positioning screw (401), and the limiting groove (404) is formed in the upper end of the hexagonal inner cavity (403).

5. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: the movable device (5) comprises a hexagonal column (501) and a reset spring (502) connected inside the retention positioning device (4), a connecting round hole (503) is formed in the upper end of the hexagonal column (501), an infrared display (504) is arranged in the connecting round hole (503), and the bottom of the hexagonal column (501) is connected with the reset spring (502).

6. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: connecting block (6) are including connecting square (601) and connection square (603), connect square (601) lower extreme both sides fixedly connected with respectively connect square (603), just spout (602) have been seted up above connecting square (601), just spout (602) are connected fixing device (7), connect square (603) fixed connection fixed part (8).

7. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: the fixing device (7) comprises two pipeline clamping pieces (701) and fixing rivets (704), wherein moving blocks (702) are fixedly connected to the bottom ends of the pipeline clamping pieces (701), closing blocks (703) are respectively arranged at the upper ends and the lower ends of the pipeline clamping pieces (701), the fixing rivets (704) penetrate through the closing blocks (703) at the left ends, and rivet connecting holes (705) are formed in the closing blocks (703) at the right ends.

8. An electric power pipeline work laying auxiliary device according to claim 1, characterized in that: the fixing component (8) comprises a connecting disc (804) connected to a connecting column (801) at the bottom end of the connecting block (6) and a connecting movable device (5), the connecting column (801) is circumferentially connected with a plurality of small springs (803), the small springs (803) are connected with wedge blocks (802), and the bottom end of the connecting column (801) is connected with the connecting disc (804).