CN114336428B - Cable parallel type limiting and supporting device for electrical engineering construction - Google Patents

Abstract

The invention discloses a cable parallel type limiting and supporting device for electrical engineering construction, which comprises a conveying assembly and a cable limiting clamping piece, wherein the top of the conveying assembly is movably installed with the bottom of the cable limiting clamping piece, the conveying assembly comprises a Y-axis displacement assembly and an X-axis displacement assembly, and the top of the Y-axis displacement assembly is movably installed with the bottom of the X-axis displacement assembly. This cable parallel type spacing strutting arrangement for electrical engineering construction has realized that the spacing clamping piece of cable can carry out the displacement on the Y axle displacement subassembly and the X axle displacement subassembly of conveying component, and the cable of centre gripping in the rethread infrared locator's the laying location, comes the time adjustment locating part, lays the cable gradually to the location place to can realize the artifical real cable laying operation of non-under the complex environment, not only reduced workman's working risk, still can realize like multiple mode of laying such as parallel, for manual work lay more accurate and quick, and accelerated the efficiency of cable laying operation.

Description

Cable parallel type limiting and supporting device for electrical engineering construction

Technical Field

The invention relates to the technical field of electrical engineering, in particular to a cable parallel limiting and supporting device for electrical engineering construction.

Background

The cable is a generic term of optical cable, cable and other articles, and the electric cable is an infrastructure in a power supply system at present and is mainly used for transmitting electric power, and the electric cable is usually required to be laid in the electric power construction process, and then the electric cable is required to be erected by adopting an electric cable supporting instrument.

In the prior art, for example, the Chinese patent number is: the utility model provides a "convenient cable strutting arrangement for construction" of CN 211063215U, the on-line screen storage device comprises a base, base top one side position department fixedly connected with fixing base, fixing base top fixedly connected with backup pad, the inside central point of fixing base puts department fixedly connected with hydraulic stem, hydraulic stem top fixedly connected with first expansion plate, the inside sliding connection of first expansion plate has the second expansion plate, this device structure scientific and reasonable, convenience safe in utilization is provided with hydraulic stem, first expansion plate, second expansion plate, recess, gyro wheel, notch, rope, fixed block and spacing groove, promotes first expansion plate through the hydraulic stem and upwards slides, drives the gyro wheel simultaneously and rises because rope one end is fixed in the backup pad bottom, makes rope pulling second expansion plate roll-off, expands the first expansion plate and the second expansion plate of extension, conveniently props up the cable and send the eminence fast, improves the efficiency that the cable was laid.

However, in the prior art, in the actual construction process of electrical engineering, when cables are laid in complex and dangerous environments such as pits, pipelines and mountain holes, in order to meet special construction requirements, such as parallel and vertical arrangement of the cables, the cables also need to be manually subjected to cable position adjustment operation in the field in the laying process, so that the working risk of workers is improved, and the efficiency of cable laying operation is reduced.

Therefore, we propose a cable parallel limiting and supporting device for electric engineering construction so as to solve the problems set forth in the above.

Disclosure of Invention

The invention aims to provide a cable parallel type limiting and supporting device for electric engineering construction, which solves the problems that in the practical electric engineering construction process provided by the background technology, when cables are laid in complex and dangerous environments such as pits, pipelines and mountain holes, the cables are required to be manually adjusted in the field in the laying process in order to meet special construction requirements such as cable parallel type and vertical type arrangement, so that the working risk of workers is improved, and the efficiency of cable laying operation is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a spacing strutting arrangement of cable parallel type for electrical engineering construction, includes conveying component and the spacing clamping piece of cable, the bottom movable mounting of the spacing clamping piece of conveying component's top and cable, conveying component includes Y axle displacement subassembly and X axle displacement subassembly, the bottom movable mounting of Y axle displacement subassembly's top and X axle displacement subassembly, the spacing clamping piece of cable includes lifting component, cable propelling movement subassembly and locating part, the bottom movable mounting of lifting component's top and cable propelling movement subassembly, and the front end of cable propelling movement subassembly and the rear end movable mounting of locating part, the locating part includes wire inlet hopper, cardboard, wire outlet pipe, drain pan, infrared locator, clamping lever a and clamping lever b, the bottom of cardboard and the top fixed mounting of drain pan, and the rear end fixed mounting of drain pan, the axle center department of cardboard is linked together with the rear end of wire outlet pipe, one side and the rear end movable mounting of clamping lever a, and the opposite side of cardboard and the rear end movable mounting of clamping lever b, the front end and the front end of clamping lever a and the movable mounting of clamping lever b.

Preferably, the clamping rod a comprises a rotating motor, a rotating shaft a, a clamping jaw a and a connecting rod, wherein the rear end of the rotating motor is movably mounted with the front end of the clamping plate, the front end of the rotating motor is movably mounted with the rear end of the rotating shaft a, the outer side of the front end of the rotating shaft a is movably mounted with the outer side of the clamping jaw a, and the front end of the rotating shaft a is movably mounted with one side of the rear end of the connecting rod.

Preferably, the clamping rod b comprises a rotating shaft b, a contraction spring, an adapter and a clamping jaw b, wherein the rear end of the rotating shaft b is movably mounted with the front end of the clamping plate, the outer side of the rear end of the rotating shaft b is fixedly mounted with the inner side of the adapter, the rear end of the adapter is movably mounted with one end of the contraction spring, the other end of the contraction spring is movably mounted with the front end of the clamping plate, the outer side of the front end of the rotating shaft b is movably mounted with the outer side of the clamping jaw b, and the front end of the rotating shaft b is movably mounted with the other side of the rear end of the connecting rod.

Preferably, the lifting assembly comprises a bottom plate, an electric telescopic rod and a connecting end head, wherein the top of the bottom plate is fixedly installed with the bottom of the electric telescopic rod, the top of the electric telescopic rod is movably installed with the bottom of the connecting end head, and the top of the connecting end head is movably installed with the bottom of the rear end of the limiting piece.

Preferably, the cable pushing assembly comprises a mounting rod, a pushing roller a, a pushing roller b and a pushing motor, wherein one side of the top of the mounting rod is movably mounted with the bottom of the pushing roller a, the other side of the top of the mounting rod is movably mounted with the bottom of the pushing roller b, and the bottom of the pushing roller a is movably mounted with the top of the pushing motor.

Preferably, the front end of the installation rod is fixedly connected with the top of the rear end of the clamping plate, and a plurality of anti-slip strips are fixedly installed on the outer sides of the push roller a and the push roller b.

Preferably, the Y-axis displacement assembly comprises a Y-axis guide rail, a support rail and a Y-axis driving motor, wherein a plurality of cross bars are fixedly arranged between the Y-axis guide rail and the support rail, and the rear end of the Y-axis guide rail is movably arranged with the front end of the Y-axis driving motor.

Preferably, the X-axis displacement assembly comprises an X-axis guide rail, an X-axis driving motor, a clamping block a, a movable plate and a clamping block b, wherein one end bottom of the X-axis guide rail is fixedly installed with the top of the clamping block a, the other end bottom of the X-axis guide rail is fixedly installed with the top of the clamping block b, one end top of the X-axis guide rail is movably installed with one end of the X-axis driving motor, the movable plate is movably installed at the top of the X-axis guide rail, the bottom of the clamping block a is movably installed at the top of the Y-axis guide rail, and the bottom of the clamping block b is movably installed at the top of the supporting rail.

Preferably, a controller is fixedly arranged at the top of the rear end of the clamping block a, and a wireless receiver is fixedly arranged at the top of the Y-axis driving motor.

Compared with the prior art, the invention has the beneficial effects that:

1. through the arrangement of the limiting piece, the rotating motor drives the clamping jaw a to deflect inwards through the rotating shaft a, so that clamping is formed on one side of the outer wall of the cable, the rotating shaft b provided with the clamping jaw b is driven by the connecting rod, when the front end of the rotating shaft b is subjected to the deflection acting force of the connecting rod, the rotating shaft b carries the clamping jaw b to deflect inwards, so that the cable outer wall is clamped, after the deflection acting force on the connecting rod is relieved, the elastic deformation is restored due to the shrinkage spring, the switching piece is pulled, so that the rotating shaft b carries the clamping jaw b on the outer side of the rotating shaft b to deflect towards the outer side of the cable, the clamping state is relieved, and the effects of fastening, clamping and releasing the cable are achieved;

2. through the setting of conveying assembly, realized that the spacing holder of cable can carry out the displacement on the Y axle displacement subassembly and the X axle displacement subassembly of conveying assembly, the cable of centre gripping in the rethread infrared locator's the laying location, come the time adjustment locating part with the cable lay to the location place gradually to can realize the artifical real ground cable laying operation of non-under the complex environment, not only reduce workman's working risk, still can realize like multiple laying modes such as parallel, lay more accurately and fast for the manual work, and accelerated the efficiency of cable laying operation.

Drawings

FIG. 1 is a perspective view of the front end of a cable parallel spacing support device for electrical engineering construction in accordance with the present invention;

FIG. 2 is a perspective view of the rear end of a cable parallel spacing support device for electrical engineering construction according to the present invention;

FIG. 3 is a perspective view of the front end of a conveying assembly of a cable parallel limiting and supporting device for electrical engineering construction;

FIG. 4 is a perspective view of the rear end of a conveying assembly of a cable parallel limiting and supporting device for electrical engineering construction;

FIG. 5 is a schematic view of a cable spacing clip for an electrical engineering construction cable juxtaposition spacing support device according to the present invention;

FIG. 6 is a schematic diagram of a cable pushing assembly of a cable juxtaposition type limiting and supporting device for electrical engineering construction;

FIG. 7 is a schematic top view of a cable parallel limiting support device for electrical engineering construction;

fig. 8 is a schematic diagram showing a structure of a limiting member of a cable parallel limiting and supporting device for electrical engineering construction according to the present invention.

In the figure:

1. a transport assembly; 2. a cable stop clamp; 10. a Y-axis displacement assembly; 11. an X-axis displacement assembly; 20. a lifting assembly; 21. a cable pushing assembly; 22. a limiting piece; 220. a wire feeding hopper; 221. a clamping plate; 223. a wire outlet pipe; 224. a bottom case; 225. an infrared locator; 226. a clamping rod a; 227. a clamping rod b; 2260. a rotating electric machine; 2261. a rotating shaft a; 2262. a clamping jaw a; 2263. a connecting rod; 2270. a rotating shaft b; 2271. a retraction spring; 2272. an adapter; 2273. a clamping jaw b; 201. a bottom plate; 202. an electric telescopic rod; 203. a connecting end; 210. a mounting rod; 211. a push roller a; 212. a pushing roller b; 213. pushing a motor; 214. an anti-slip strip; 101. a Y-axis guide rail; 104. a support rail; 103. a Y-axis driving motor; 102. a cross bar; 110. an X-axis guide rail; 112. an X-axis driving motor; 113. a clamping block a; 114. a movable plate; 115. a clamping block b; 114. a movable plate; 3. a controller; 4. a wireless receiver.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a cable parallel spacing strutting arrangement for electrical engineering construction, including conveying subassembly 1 and cable spacing clamping piece 2, the top of conveying subassembly 1 and the bottom movable mounting of cable spacing clamping piece 2, conveying subassembly 1 includes Y axle displacement subassembly 10 and X axle displacement subassembly 11, the top of Y axle displacement subassembly 10 and the bottom movable mounting of X axle displacement subassembly 11, cable spacing clamping piece 2 includes lifting assembly 20, cable pusher subassembly 21 and locating part 22, the top of lifting assembly 20 and the bottom movable mounting of cable pusher subassembly 21, and the front end of cable pusher subassembly 21 and the rear end movable mounting of locating part 22, locating part 22 includes into line fill 220, cardboard 221, outlet pipe 223, drain pan 224, infrared locator 225, clamping lever a226 and clamping lever b227, the bottom of cardboard 221 and the top fixed mounting of drain pan 224, and the front end of drain pan 224 and the rear end fixed mounting of infrared locator 225, the axis of the clamping plate 221 is communicated with the rear end of the outlet pipe 223, one side of the clamping plate 221 is movably installed with the rear end of the clamping rod a226, the other side of the clamping plate 221 is movably installed with the rear end of the clamping rod b227, the front end of the clamping rod a226 is movably installed with the front end of the clamping rod b227, a cable is inserted into the limiting piece 22 of the cable limiting and clamping piece 2, the cable limiting and clamping piece 2 can be displaced on the Y-axis displacement assembly 10 and the X-axis displacement assembly 11 of the conveying assembly 1, the cable clamped in the limiting piece 22 is regulated at any time through the laying and positioning of the infrared positioner 225, and then the cable is gradually laid to a positioning place through the pushing of the cable pushing assembly 21, so that the non-manual real-ground cable laying operation under a complex environment can be realized, the working risk of workers is reduced, and various laying modes such as parallel can be realized, the efficiency of cable laying operation is quickened.

As shown in fig. 8, the clamping rod a226 comprises a rotating motor 2260, a rotating shaft a2261, a clamping jaw a2262 and a connecting rod 2263, wherein the rear end of the rotating motor 2260 is movably mounted with the front end of the clamping plate 221, the front end of the rotating motor 2260 is movably mounted with the rear end of the rotating shaft a2261, the outer side of the front end of the rotating shaft a2261 is movably mounted with the outer side of the clamping jaw a2262, the front end of the rotating shaft a2261 is movably mounted with one side of the rear end of the connecting rod 2263, the rotating motor 2260 drives the clamping jaw a2262 to deflect inwards through the rotating shaft a2261, so that the clamping is formed on one side of the outer wall of a cable, and the rotating shaft b2270 provided with the clamping jaw b2273 is driven by the connecting rod 2263 to form the clamping on the other side of the cable.

As shown in fig. 8, the clamping rod b227 includes a rotating shaft b2270, a contraction spring 2271, an adapter 2272 and a clamping jaw b2273, the rear end of the rotating shaft b2270 is movably mounted with the front end of the clamping plate 221, the rear end outer side of the rotating shaft b2270 is fixedly mounted with the inner side of the adapter 2272, the rear end of the adapter 2272 is movably mounted with one end of the contraction spring 2271, the other end of the contraction spring 2271 is movably mounted with the front end of the clamping plate 221, the front end outer side of the rotating shaft b2270 is movably mounted with the outer side of the clamping jaw b2273, and the front end of the rotating shaft b2270 is movably mounted with the other side of the rear end of the connecting rod 2263, when the connecting rod 2263 applies a deflection force to the front end of the rotating shaft b2270, the rotating shaft b2270 deflects inward, thereby clamping the cable outer wall is clamped, and when the deflection force on the connecting rod 2263 is released, the adapter 2272 is pulled due to the contraction spring 2271 to elastic deformation, thereby causing the rotating shaft b2270 to carry the outer side of the clamping jaw b2273 to deflect outward.

As shown in fig. 6, the lifting assembly 20 includes a bottom plate 201, an electric telescopic rod 202 and a connecting end 203, wherein the top of the bottom plate 201 is fixedly mounted with the bottom of the electric telescopic rod 202, the top of the electric telescopic rod 202 is movably mounted with the bottom of the connecting end 203, the top of the connecting end 203 is movably mounted with the bottom of the rear end of the limiting member 22, and the electric telescopic rod 202 can adjust the height of the limiting member 22 by changing the height of the bottom plate 201, so that the laying height of a cable clamped inside the limiting member 22 is controlled.

As shown in fig. 6, the cable pushing assembly 21 includes a mounting rod 210, a pushing roller a211, a pushing roller b212 and a pushing motor 213, one side of the top of the mounting rod 210 is movably mounted with the bottom of the pushing roller a211, the other side of the top of the mounting rod 210 is movably mounted with the bottom of the pushing roller b212, the bottom of the pushing roller a211 is movably mounted with the top of the pushing motor 213, after a cable is inserted into the cable hopper 220, the outer wall of the cable is clamped between the pushing roller a211 and the pushing roller b212, and when the pushing motor 213 at the bottom of the pushing roller a211 rotates along with the cable, the cable is continuously pushed to the front end through friction force, so that the cable is quickly laid.

As shown in fig. 6, the front end of the mounting rod 210 is fixedly connected with the top of the rear end of the clamping plate 221, a plurality of anti-slip strips 214 are fixedly mounted on the outer sides of the push roller a211 and the push roller b212, and the anti-slip strips 214 increase friction force between the cable and the push roller a211 and the push roller b 212.

As shown in fig. 3, the Y-axis displacement assembly 10 includes a Y-axis guide rail 101, a support rail 104 and a Y-axis driving motor 103, a plurality of cross bars 102 are fixedly installed between the Y-axis guide rail 101 and the support rail 104, the rear end of the Y-axis guide rail 101 is movably installed at the front end of the Y-axis driving motor 103, a screw rod is arranged in the Y-axis guide rail 101 and is connected with the Y-axis driving motor 103, and when the Y-axis driving motor 103 is turned on, the Y-axis displacement of the X-axis displacement assembly 11 at the top of the Y-axis guide rail 101 can be controlled by the screw rod, so that the laying position of a control cable in the Y-axis direction is realized.

As shown in fig. 3, the X-axis displacement assembly 11 includes an X-axis guide rail 110, an X-axis driving motor 112, a clamping block a113, a movable plate 114 and a clamping block b115, wherein one end bottom of the X-axis guide rail 110 is fixedly mounted on top of the clamping block a113, the other end bottom of the X-axis guide rail 110 is fixedly mounted on top of the clamping block b115, one end top of the X-axis guide rail 110 is movably mounted on one end of the X-axis driving motor 112, the movable plate 114 is movably mounted on top of the X-axis guide rail 110, the bottom of the clamping block a113 is movably mounted on top of the Y-axis guide rail 101, the bottom of the clamping block b115 is movably mounted on top of the supporting rail 104, a screw is provided inside the X-axis guide rail 110 and is connected with the X-axis driving motor 112, and after the X-axis driving motor 112 is started, the movable plate 114 and a limiting member 22 on top thereof can be adjusted to displace in the X-axis direction, thereby realizing a laying position of a control cable in the X-axis direction.

As shown in fig. 1, the top of the rear end of the clamping block a113 is fixedly provided with a controller 3, the top of the y-axis driving motor 103 is fixedly provided with a wireless receiver 4, the controller 3 is used for manually intervened control the device to perform cable laying operation on the spot, and the wireless receiver 4 can receive control instructions to remotely control the device to perform cable laying operation.

The application method and the working principle of the device are as follows: the cable is inserted into the limiting piece 22 of the cable limiting clamping piece 2, the cable limiting clamping piece 2 can be displaced on the Y-axis displacement assembly 10 and the X-axis displacement assembly 11 of the conveying assembly 1, wherein a screw rod is arranged in the X-axis guide rail 110 and is connected with the X-axis driving motor 112, when the X-axis driving motor 112 is started, the movable plate 114 and the limiting piece 22 on the top of the movable plate can be adjusted to displace in the X-axis, so that the laying position of the cable in the X-axis direction is controlled, the screw rod is arranged in the Y-axis guide rail 101 and is connected with the Y-axis driving motor 103, when the Y-axis driving motor 103 is started, the Y-axis displacement of the X-axis displacement assembly 11 on the top of the Y-axis guide rail 101 can be controlled through the screw rod, therefore, the position of the control cable in the Y-axis direction is paved, the height of the limiting piece 22 can be adjusted by changing the height of the bottom plate 201 through the electric telescopic rod 202, the paving height of the cable clamped at the inner side of the limiting piece 22 is controlled, the cable clamped in the limiting piece 22 is adjusted at any time through the paving positioning of the infrared positioner 225, the cable is gradually paved to a positioning place through the pushing of the cable pushing assembly 21, the non-manual real-time cable paving operation under a complex environment can be realized, the working risk of workers is reduced, various paving modes such as parallel paving can be realized, and the efficiency of the cable paving operation is accelerated.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (7)

1. The utility model provides a cable parallel type limit supporting device for electrical engineering construction, which is characterized in that, including conveying component (1) and cable limit clamping piece (2), the top of conveying component (1) and the bottom movable mounting of cable limit clamping piece (2), conveying component (1) include Y axle displacement subassembly (10) and X axle displacement subassembly (11), the top of Y axle displacement subassembly (10) and the bottom movable mounting of X axle displacement subassembly (11), cable limit clamping piece (2) include lifting component (20), cable push-out subassembly (21) and locating part (22), the bottom movable mounting of lifting component (20) top and cable push-out subassembly (21), and the front end of cable push-out subassembly (21) and the rear end movable mounting of locating part (22), locating part (22) include wire fill (220), cardboard (221), outlet pipe (223), drain pan (224), infrared locator (225), clamping rod a (226) and clamping rod b (227), the bottom of cardboard (221) and the fixed mounting of the bottom of drain pan (221) and the rear end of the bottom of locating part (224) are linked together with the locating part (223) of the fixed mounting of the axle center (224), one side of the clamping plate (221) is movably mounted with the rear end of the clamping rod a (226), the other side of the clamping plate (221) is movably mounted with the rear end of the clamping rod b (227), and the front end of the clamping rod a (226) is movably mounted with the front end of the clamping rod b (227);

the clamping rod a (226) comprises a rotating motor (2260), a rotating shaft a (2261), clamping jaws a (2262) and a connecting rod (2263), wherein the rear end of the rotating motor (2260) is movably mounted with the front end of the clamping plate (221), the front end of the rotating motor (2260) is movably mounted with the rear end of the rotating shaft a (2261), the outer side of the front end of the rotating shaft a (2261) is movably mounted with the outer side of the clamping jaws a (2262), and the front end of the rotating shaft a (2261) is movably mounted with one side of the rear end of the connecting rod (2263);

the clamping rod b (227) comprises a rotating shaft b (2270), a contraction spring (2271), an adapter (2272) and a clamping jaw b (2273), wherein the rear end of the rotating shaft b (2270) is movably mounted with the front end of the clamping plate (221), the outer side of the rear end of the rotating shaft b (2270) is fixedly mounted with the inner side of the adapter (2272), the rear end of the adapter (2272) is movably mounted with one end of the contraction spring (2271), the other end of the contraction spring (2271) is movably mounted with the front end of the clamping plate (221), the outer side of the front end of the rotating shaft b (2270) is movably mounted with the outer side of the clamping jaw b (2273), and the front end of the rotating shaft b (2270) is movably mounted with the other side of the rear end of the connecting rod (2263).

2. The cable juxtaposition type limit supporting device for electric engineering construction according to claim 1, wherein: the lifting assembly (20) comprises a bottom plate (201), an electric telescopic rod (202) and a connecting end head (203), wherein the top of the bottom plate (201) is fixedly installed with the bottom of the electric telescopic rod (202), the top of the electric telescopic rod (202) is movably installed with the bottom of the connecting end head (203), and the top of the connecting end head (203) is movably installed with the bottom of the rear end of the limiting piece (22).

3. The cable juxtaposition type limit supporting device for electric engineering construction according to claim 1, wherein: the cable pushing assembly (21) comprises a mounting rod (210), a pushing roller a (211), a pushing roller b (212) and a pushing motor (213), wherein one side of the top of the mounting rod (210) is movably mounted with the bottom of the pushing roller a (211), the other side of the top of the mounting rod (210) is movably mounted with the bottom of the pushing roller b (212), and the bottom of the pushing roller a (211) is movably mounted with the top of the pushing motor (213).

4. The cable juxtaposition type limit supporting device for electric engineering construction according to claim 3, wherein: the front end of the mounting rod (210) is fixedly connected with the top of the rear end of the clamping plate (221), and a plurality of anti-slip strips (214) are fixedly mounted on the outer sides of the push roller a (211) and the push roller b (212).

5. The cable juxtaposition type limit supporting device for electric engineering construction according to claim 1, wherein: the Y-axis displacement assembly (10) comprises a Y-axis guide rail (101), a support rail (104) and a Y-axis driving motor (103), wherein a plurality of cross bars (102) are fixedly installed between the Y-axis guide rail (101) and the support rail (104), and the rear end of the Y-axis guide rail (101) is movably installed with the front end of the Y-axis driving motor (103).

6. The electrical engineering construction cable juxtaposition type limit supporting device according to claim 5, wherein: x axle displacement subassembly (11) include X axle guide rail (110), X axle driving motor (112), fixture block a (113), fly leaf (114) and fixture block b (115), the top fixed mounting of one end bottom and fixture block a (113) of X axle guide rail (110), and the top fixed mounting of the other end bottom and the fixture block b (115) of X axle guide rail (110), the one end top and the one end movable mounting of X axle driving motor (112) of X axle guide rail (110), and the top movable mounting of X axle guide rail (110) has fly leaf (114), the bottom and the top movable mounting of Y axle guide rail (101) of fixture block a (113), the bottom and the top movable mounting of supporting rail (104) of fixture block b (115).

7. The electrical engineering construction cable juxtaposition type limit supporting device according to claim 6, wherein: the top of the rear end of the clamping block a (113) is fixedly provided with a controller (3), and the top of the Y-axis driving motor (103) is fixedly provided with a wireless receiver (4).

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