CN214733357U - Cable laying auxiliary device for electromechanical equipment installation - Google Patents

Abstract

The utility model belongs to the technical field of cable laying, in particular to a cable laying auxiliary device used for electromechanical equipment installation, which comprises a bottom plate, a tire, a connecting component and a cable reel, wherein a supporting device is arranged on the bottom plate, a driving device is arranged on the bottom plate, the driving device comprises a base b and a fixed frame, a motor is arranged in the base b, an output shaft of the motor is connected with a driving wheel, the top of the base b is provided with a chute a, a sliding block a is connected in the chute a, the top of the sliding block a is connected with a driven wheel, a roller wheel is arranged on the fixed frame, a guiding device is arranged on the bottom plate, a guiding wheel is arranged on the guiding device, the movable supporting device is arranged, so that the cable reel on the ground can be conveniently and rapidly assembled, disassembled and moved, through the cooperation that sets up drive arrangement and guider, save artifical direction and manual drive, practice thrift a large amount of labours.

Description

Cable laying auxiliary device for electromechanical equipment installation

Technical Field

The utility model belongs to the technical field of cable laying, concretely relates to cable laying auxiliary device that electromechanical device installation used.

Background

The cable is characterized in that the cable has internal power supply and external insulation, and has the characteristics of external insulation, and the cable comprises a power cable, a control cable, a compensation cable, a shielding cable, a high-temperature cable, a computer cable, a signal cable, a coaxial cable, a fire-resistant cable, a marine cable, a mining cable, an aluminum alloy cable and the like, wherein the power cable, the control cable, the compensation cable, the shielding cable, the high-temperature cable, the computer cable, the signal cable, the coaxial cable, the fire-resistant cable, the marine cable, the mining cable, the aluminum alloy cable and the like, and the cables consist of single-stranded or multi-stranded wires and insulating layers and are used for connecting circuits, electric appliances and the like.

The existing cable laying device needs to be assembled on the cable laying device by means of a crane, is complex in installation process, wastes time and labor, and cannot meet the use requirement.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a cable laying auxiliary device that electromechanical device installation was used, through setting up mobilizable strutting arrangement, be convenient for quick loading and unloading and removing subaerial cable drum, through the cooperation that sets up drive arrangement and guider, save artifical direction and manual drive, practice thrift a large amount of labours.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a cable laying auxiliary device that electromechanical device installation was used, includes bottom plate, tire, coupling assembling and cable drum, install strutting arrangement on the bottom plate, install drive arrangement on the bottom plate, drive arrangement includes base b and mount, install the motor in the base b, the output shaft and the drive wheel of motor link to each other, base b's top is equipped with spout an, sliding connection has slider an in the spout an, slider an's top is connected with from the driving wheel, install the gyro wheel on the mount, install guider on the bottom plate, the last horizontal leading wheel that installs of guider.

Preferably, the support means comprises a front support means and a rear support means; through setting up strutting arrangement before and strutting arrangement, can get up cable drum fixed support.

Preferably, the front supporting device comprises a base a and a top plate a, a supporting rod a is installed on the base a, the top of the supporting rod a is connected with the bottom of the top plate a, a sliding rod a is installed on the base a, a limiting hole a penetrates through the front side of the sliding rod a, a sliding block group a is connected onto the sliding rod a in a sliding mode, a limiting hole b is formed in the front side of the sliding block group a, a hydraulic rod a is installed on the sliding block group a, a sliding block group b is connected onto the top of the hydraulic rod a in a sliding mode, the sliding block group b is connected onto the sliding rod a in a sliding mode, a bearing a is installed on the sliding block group b, a rotating shaft is fixedly installed on the bearing a, a sliding groove b is formed in the bottom plate, a sliding block b is connected into the sliding groove b in a sliding mode, a fastening bolt b penetrates through the base a, and the fastening bolt b is connected onto the sliding block b in a threaded mode; through setting up gliding preceding strutting arrangement on the bottom plate, be convenient for load and unload the cable drum, move strutting arrangement cable drum department through the dolly, make the cable drum be in between preceding strutting arrangement and the back strutting arrangement, sliding block group a will drive sliding block group b to slide under hydraulic stem a's cooperation, at this moment, the pivot of fixing in the bearing a on sliding block group b will reciprocate thereupon, aim at the central point of cable drum with the pivot and put, strutting arrangement before sliding makes the pivot insert the central point of cable drum and put.

Preferably, the rear supporting device is provided with a base c and a top plate b, the rear supporting device is fixed on the bottom plate through a fastening bolt a, a supporting rod b is installed on the base c, the top of the supporting rod b is connected with the bottom of the top plate b, a sliding rod b is installed on the base c, a limiting hole c penetrates through the front side of the sliding rod b, a sliding block group c is connected onto the sliding rod b in a sliding mode, a limiting hole d is formed in the front side of the sliding block group c, a hydraulic rod b is installed on the sliding block group c, a sliding block group d is connected to the top of the hydraulic rod b, the sliding block group d is connected onto the sliding rod b in a sliding mode, and a bearing b is installed on the sliding block group d; through setting up back strutting arrangement, current strutting arrangement is close to the center of cable drum, the pivot on the preceding strutting arrangement will pass the cable drum, adjust slider group d on the back strutting arrangement to the same level with slider group a on the preceding strutting arrangement, peg graft into bearing b on the back strutting arrangement with the pivot, at this moment, twist soon fastening bolt b, it is fixed to make slider b and spout b support, preceding strutting arrangement will be fixed on the bottom plate, under strutting arrangement and the cooperation of back strutting arrangement in the front, press from both sides the dress to the cable drum, under the cooperation through hydraulic stem an and hydraulic stem b, rise the pivot, thereby drive the cable drum and carry out the rising operation, be convenient for cable drum and drive arrangement cooperation, it carries out the unwrapping wire action to drive the cable drum.

Preferably, the sliding block group a is fixed on the sliding rod a through a fastening bolt c, and the fastening bolt c penetrates through the limiting hole b and the limiting hole a on the sliding rod a; when the current supporting device moves to the bearing b of the rotating shaft inserted into the rear supporting device, the fastening bolt b is screwed, so that the front supporting device is fixed on the bottom plate, the sliding block group a is fixed on the sliding rod a by setting the fastening bolt c, and meanwhile, the sliding block group c is fixed on the sliding rod b by using the fastening bolt d, so that the cable reel is convenient to stabilize, and is convenient to lift.

Preferably, the driven wheel comprises a colloid roller, a fixed connecting shaft, an upper baffle, a sliding block a and a fastening bolt e; the sliding block a slides in the sliding groove a, the distance between the driven wheel and the driving wheel is adjusted according to the width of the cable, the fastening bolt e is screwed, the power supply of the motor is turned on, the motor drives the driving wheel to rotate, and the cable reel is driven to perform paying-off action under the matching of the driving wheel, the cable and the driven wheel.

Preferably, the top of the guide device is provided with two horizontal guide wheels; under the action of traction force, the horizontal guide wheel is utilized to carry out left or right traction, and left and right steering of the cable can be realized.

Preferably, the front surface of the guide device is provided with two vertical guide wheels; under the action of traction force, the vertical guide wheel is utilized to carry out upward or downward traction, and the cable can be steered up and down.

Compared with the prior art, the beneficial effects of the utility model are that:

through arranging a movable front supporting device, the front supporting device is connected in a concave chute b on a bottom plate in a sliding way through a sliding block b, a sliding block group a is slid, the sliding block group a drives the sliding block group b to slide, because a rotating shaft is fixed in a bearing on the sliding block group b, at the moment, the shaft slides up and down along with the sliding block group a, the supporting device is moved to a cable reel through a trolley, the cable reel is positioned between the front supporting device and a rear supporting device, the sliding block group a drives the sliding block group b to slide under the cooperation of a hydraulic rod a, at the moment, the rotating shaft in the bearing a fixed on the sliding block group b moves up and down along with the sliding block group a, the rotating shaft is aligned with the central position of the cable reel, the front supporting device is slid, the rotating shaft on the front supporting device is inserted into the central position of the cable reel, the rotating shaft on the front supporting device penetrates through the cable reel, and the sliding block group d on the rear supporting device is adjusted to be at the same horizontal height as the sliding block group a on the front supporting device, the rotating shaft is inserted into a bearing b on the rear supporting device, at the moment, a fastening bolt b is screwed, so that the sliding block b and the sliding chute b are fixedly supported, the front supporting device is fixed on the bottom plate, the cable reel is clamped under the matching of the front supporting device and the rear supporting device, and the sliding block group b and the sliding block group d are driven to rise through the hydraulic rod a and the hydraulic rod b, so that the rotating shaft is driven to rise, the cable reel on the ground is convenient to assemble and disassemble, the mounting mode is simple and convenient, and time and labor are saved;

by arranging the driving device, the sliding block a on the driven wheel slides in the concave sliding groove a, the distance between the driven wheel and the driving wheel is adjusted according to the width of the cable, the fastening bolt e is screwed, the power supply of the motor is turned on, the motor drives the driving wheel to rotate, and the cable disc is driven to perform paying-off action under the matching of the driving wheel, the cable and the driven wheel, so that manual paying-off is reduced, and human resources are saved;

through setting up guider, be convenient for improve work efficiency, under the effect of traction force, utilize the horizontal guide wheel to do as the turning point, be convenient for carry out the turning to of horizontal direction with the cable, under the effect of traction force, utilize the vertical guide wheel to do as the turning point, can be convenient for carry out the turning to of vertical direction with the cable.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of the middle and rear supporting devices of the present invention;

fig. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view of a driven wheel of the present invention;

fig. 5 is a cross-sectional view of a base a of the middle and front support device of the present invention;

fig. 6 is a right side view of the middle guide device of the present invention;

fig. 7 is a right side view of the support device of the present invention;

fig. 8 is a right side view of the driving device of the present invention;

in the figure: 1. a base plate; 101. a chute b; 102. a slide block b; 2. a tire; 3. a connecting assembly; 4. a cable reel; 500. a support device; 510. a front support device; 5101. a base a; 5102. a top plate a; 5103. a support rod a; 5104. a slide bar a; 5105. a limiting hole a; 5106. a sliding block group a; 5107. a limiting hole b; 5108. a hydraulic rod a; 5109. a slider group b; 5110. a bearing a; 5111. a rotating shaft; 5112. a fastening bolt b; 5113. a fastening bolt c; 520. a rear support device; 5201. a base b; 5202. a top plate b; 5203. a fastening bolt a; 5204. a support rod b; 5205. a sliding rod b; 5206. a limiting hole c; 5207. a slider group c; 5208. a limiting hole d; 5209. a hydraulic rod b; 5210. a slider group d; 5211. a bearing b; 5213. a fastening bolt d; 600. a drive device; 610. a base b; 611. a chute a; 612. a slide block a; 620. a fixed mount; 621. a roller; 630. a motor; 640. a drive wheel; 650. a driven wheel; 6501. a colloid roller; 6502. fixing the connecting shaft; 6503. an upper baffle plate; 6504. fastening a bolt e; 700. a guide device; 710. a horizontal guide wheel; 720. and (4) a vertical guide wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-8, the present invention provides the following technical solutions: an auxiliary device for laying cables for mounting electromechanical equipment comprises a bottom plate 1, a tire 2, a connecting component 3 and a cable reel 4, the supporting device 500 is installed on the bottom plate 1, the driving device 600 is installed on the bottom plate 1, the driving device 600 includes a base b610 and a fixing frame 620, a motor 630 is installed in the base b610, the output shaft of the motor 630 is connected with the driving wheel 640, the top of the base b610 is provided with a sliding groove a611, a sliding block a612 is slidably connected in the sliding groove a611, a driven wheel 650 is connected to the top of the sliding block a612, the fixed frame 620 is provided with two rollers 621, the rollers 621 are arranged, the cable passes through the two rollers 621 through the rollers 621, the cable can be limited, the cable is prevented from being separated, the guide device 700 is installed on the bottom plate 1, and the horizontal guide wheel 710 is installed on the guide device 700.

Specifically, the supporting device 500 includes a front supporting device 510 and a rear supporting device 520; the cable drum 4 can be fixedly supported by providing a front support 510 and a rear support 520.

Specifically, the front supporting device 510 comprises a base a5101 and a top plate a5102, a supporting rod a5103 is mounted on the base a5101, the top of the supporting rod a5103 is connected with the bottom of the top plate a5102, a sliding rod a5104 is mounted on the base a5101, a limiting hole a5105 penetrates through the front side of the sliding rod a5104, a sliding block group a5106 is connected onto the sliding rod a5104 in a sliding mode, a limiting hole 510b 5107 is formed in the front side of the sliding block group a5106, a hydraulic rod a5108 is mounted on the sliding block group a5106, a sliding block group b5109 is connected onto the top of the hydraulic rod a 8 in a sliding mode, the sliding block group b5109 is connected onto the sliding rod a5104 in a sliding mode, a bearing a5110 is mounted on the sliding block group b5109, a rotating shaft 5111 is fixedly mounted on the bearing a5110, a sliding groove b101 is formed in the bottom plate 1, a sliding block b102 is connected into the sliding mode, a fastening bolt b5112 penetrates through the base a5101, and a thread of the sliding block 51102 b5112 is connected onto a sliding block 51102 b 51102; the front supporting device 510 capable of sliding on the bottom plate 1 is arranged to facilitate loading and unloading of the cable drum 4, the supporting device 500 is moved to the cable drum 4 through the trolley to enable the cable drum 4 to be located between the front supporting device 510 and the rear supporting device 520, the sliding block group a5106 is slid, the sliding block group a5106 drives the sliding block group b5109 to slide under the cooperation of the hydraulic rod a5108, at the moment, the rotating shaft 5111 fixed in the bearing a5110 on the sliding block group b5109 moves up and down along with the sliding block group b5109, the rotating shaft 5111 is aligned with the central position of the cable drum 4, and the front supporting device 510 is slid to enable the rotating shaft 5111 to be inserted into the central position of the cable drum 4.

Specifically, the rear supporting device 520 is provided with a base c5201 and a top plate b5202, the rear supporting device 520 is fixed on the bottom plate 1 through a fastening bolt a5203, the base c5201 is provided with a supporting rod b5204, the top of the supporting rod b5204 is connected with the bottom of the top plate b5202, the base c5201 is provided with a sliding rod b5205, the front side of the sliding rod b5205 is penetrated with a limit hole c5206, the sliding rod b5205 is connected with a sliding block group c5207 in a sliding manner, the front side of the sliding block group c5207 is provided with a limit hole d5208, the sliding block group c5207 is provided with a hydraulic rod b5209, the top of the hydraulic rod b5209 is connected with a sliding block group d5210, the sliding block group d5210 is connected with the sliding rod b5205 in a sliding manner, and the sliding block group d5210 is provided with a bearing b 5211; by arranging the rear supporting device 520, when the front supporting device 510 approaches the center of the cable drum 4, the rotating shaft 5111 on the front supporting device 510 penetrates through the cable drum 4, the slider group d5210 on the rear supporting device 520 is adjusted to be at the same horizontal height as the slider group a5106 on the front supporting device 510, the rotating shaft 5111 is inserted into the bearing b5211 on the rear supporting device 520, at this time, the fastening bolt b5112 is screwed, so that the slider b102 abuts against the sliding groove b101, the front supporting device 510 is fixed on the bottom plate 1, the cable drum 4 is clamped under the cooperation of the front supporting device 510 and the rear supporting device 520, and the rotating shaft 5111 is lifted under the cooperation of the hydraulic rod a5108 and the hydraulic rod b5209, so as to drive the cable drum 4 to be lifted, and the cable drum 4 is conveniently matched with the driving device 600, so as to drive the cable drum 4 to perform paying-off.

Specifically, the slider group a5106 is fixed on the sliding rod a5104 through a fastening bolt c5113, and the fastening bolt c5113 penetrates through a limiting hole b5107 and a limiting hole a5105 on the sliding rod a 5104; when the front supporting device 510 moves to the position that the rotating shaft 5111 is inserted into the bearing b5211 on the rear supporting device 520, the fastening bolt b5112 is screwed, so that the front supporting device 510 is fixed on the bottom plate 1, the slider group a5106 is fixed on the sliding rod a5104 by arranging the fastening bolt c5113, and meanwhile, the slider group c5210 is fixed on the sliding rod b5205 by the fastening bolt d5212, so that the cable reel 4 is stabilized, and the cable reel 4 is conveniently lifted.

Specifically, the driven wheel 650 includes a colloid roller 6501, a fixed connecting shaft 6502, an upper baffle 6503, a slider a612 and a fastening bolt e 6504; the sliding block a612 slides in the sliding groove a611, the distance between the driven wheel 650 and the driving wheel 640 is adjusted according to the width of the cable, the fastening bolt e6504 is screwed, the power supply of the motor 630 is turned on, the motor 630 drives the driving wheel 640 to rotate, and the cable reel 4 is driven to perform paying-off action under the matching of the driving wheel 640, the cable and the driven wheel 650.

Specifically, the top of the guiding device 700 is provided with two horizontal guiding wheels 710, and the number of the horizontal guiding wheels 710 is two; under the action of traction force, the horizontal guide wheel 710 is used for carrying out left or right traction, and left and right steering of the cable can be realized.

Specifically, the front surface of the guide device 700 is provided with two vertical guide wheels 720, and the number of the vertical guide wheels 720 is two; under the action of traction force, the vertical guide wheel 720 is used for carrying out upward or downward traction, so that the cable can be steered up and down.

The working principle and the using process of the invention are as follows: the device is moved to the cable reel 4 placed on the ground, the cable reel 4 is positioned between the front support device 510 and the rear support device 520, the sliding block group a5106 is arranged, the sliding block group a5106 drives the sliding block group b5109 to slide under the cooperation of the hydraulic rod a5108, at the moment, the rotating shaft 5111 fixed in the bearing a5110 on the sliding block group b5109 moves up and down along with the sliding block group a5106, the rotating shaft 5111 is aligned with the central position of the cable reel 4, the front support device 510 is slid, the rotating shaft 5111 is inserted into the central position of the cable reel 4, the rotating shaft 5111 on the front support device 510 approaches to the center of the cable reel 4, the rotating shaft 5111 on the front support device 510 penetrates through the cable reel 4, the sliding block group d5210 on the rear support device 520 is adjusted to be at the same horizontal height with the sliding block group a5106 on the front support device 510, the rotating shaft 5111 is inserted into the bearing b5211 on the rear support device 520, at the moment, the fastening bolt b5112 is screwed, so that the sliding block b102 and the sliding groove b101 are fixedly abutted against, the front supporting device 510 is fixed on the bottom plate 1, the cable reel 4 is clamped under the matching of the front supporting device 510 and the rear supporting device 520, the hydraulic rod a5108 and the hydraulic rod b5209 drive the slider group b5109 and the slider group d5210 to rise, so as to drive the rotating shaft 5111 to rise, further drive the cable reel 4 to rise, so as to facilitate the matching of the cable reel 4 and the driving device 600, the cable reel 4 rolls to convey a cable, the slider group a5106 is fixed on the sliding rod a5104 by utilizing a fastening bolt c5113, the fastening bolt c5113 penetrates through the limiting hole b5107 and the limiting hole a5105 on the sliding rod a5104, meanwhile, the slider group c5210 is fixed on the sliding rod b5205 by utilizing a fastening bolt d5212 so as to facilitate the stabilization of the cable reel 4, so as to facilitate the lifting of the cable reel 4, the distance between the driven wheel 650 and the driving wheel 640 is adjusted by sliding the slider a612 in the sliding groove a611, the width of the cable is screwed according to the width of the fastening bolt e6504, the fastening bolt e6504 of the motor 630 is opened, the motor 630 drives the driving wheel 640 to rotate, the cable reel 4 is driven to pay off under the matching of the driving wheel 640, the cable and the driven wheel 650, when the cable is laid in the horizontal direction, the horizontal guide wheel 710 at the top of the guide device 700 is used as a steering point under the action of traction force, horizontal steering of the cable can be achieved, when the cable is laid in the vertical direction, the vertical guide wheel 720 on the front side of the guide device 700 is used as a steering point under the action of traction force, and vertical steering of the cable can be achieved.

Finally, it should be noted that: although the present invention has been described in detail 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 in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a cable laying auxiliary device that electromechanical device installation was used which characterized in that: including bottom plate (1), tire (2), coupling assembling (3) and cable drum (4), install strutting arrangement (500) on bottom plate (1), install drive arrangement (600) on bottom plate (1), drive arrangement (600) include base b (610) and mount (620), install motor (630) in base b (610), the output shaft and the drive wheel (640) of motor (630) link to each other, the top of base b (610) is equipped with spout a (611), sliding connection has slider a (612) in spout a (611), the top of slider a (612) is connected with from driving wheel (650), install gyro wheel (621) on mount (620), install guider (700) on bottom plate (1), install horizontal leading wheel (710) on guider (700).

2. The cable laying auxiliary device for electromechanical equipment installation according to claim 1, wherein: the support device (500) comprises a front support device (510) and a rear support device (520).

3. The cable laying auxiliary device for electromechanical equipment installation according to claim 2, wherein: the front supporting device (510) comprises a base a (5101) and a top plate a (5102), a supporting rod a (5103) is mounted on the base a (5101), the top of the supporting rod a (5103) is connected with the bottom of the top plate a (5102), a sliding rod a (5104) is mounted on the base a (5101), a limiting hole a (5105) penetrates through the front side of the sliding rod a (5104), a sliding block group a (5106) is connected with the sliding rod a (5104) in a sliding mode, a limiting hole b (5107) is formed in the front side of the sliding block group a (5106), a hydraulic rod a (5108) is mounted on the sliding block group a (5106), a sliding block group b (5109) is connected with the top of the hydraulic rod a (5108) in a sliding mode, the sliding block group b (5109) is connected to the sliding rod a (5104) in a sliding mode, a bearing a (5110) is mounted on the sliding block group b (5109), and a rotating shaft (5111) is fixedly mounted on the bearing a (51010), the base plate (1) is provided with a sliding groove b (101), a sliding block b (102) is connected in the sliding groove b (101) in a sliding mode, a fastening bolt b (5112) penetrates through the base a (5101), and the fastening bolt b (5112) is in threaded connection with the sliding block b (102).

4. The cable laying auxiliary device for electromechanical equipment installation according to claim 2, wherein: the rear supporting device (520) is provided with a base c (5201) and a top plate b (5202), the rear supporting device (520) is fixed on the bottom plate (1) through a fastening bolt a (5203), a supporting rod b (5204) is arranged on the base c (5201), the top of the supporting rod b (5204) is connected with the bottom of the top plate b (5202), a sliding rod b (5205) is arranged on the base c (5201), a limit hole c (5206) is penetrated through the front side of the sliding rod b (5205), a sliding block group c (5207) is connected on the sliding rod b (5205) in a sliding way, a limit hole d (5208) is arranged at the front side of the sliding block group c (5207), a hydraulic rod b (5209) is arranged on the slider group c (5207), a slider group d (5210) is connected with the top of the hydraulic rod b (5209), the sliding block group d (5210) is connected to the sliding rod b (5205) in a sliding mode, and a bearing b (5211) is mounted on the sliding block group d (5210).

5. A cable laying aid for installation of electromechanical equipment according to claim 3, characterised in that: the slider group a (5106) is fixed on the sliding rod a (5104) through a fastening bolt c (5113), and the fastening bolt c (5113) penetrates through the limiting hole b (5107) and the limiting hole a (5105) in the sliding rod a (5104).

6. The cable laying auxiliary device for electromechanical equipment installation according to claim 1, wherein: the driven wheel (650) comprises a colloid roller (6501), a fixed connecting shaft (6502), an upper baffle plate (6503), a slider a (612) and a fastening bolt e (6504).

7. The cable laying auxiliary device for electromechanical equipment installation according to claim 1, wherein: the top of the guide device (700) is provided with two horizontal guide wheels (710), and the number of the horizontal guide wheels (710) is two.

8. The cable laying auxiliary device for electromechanical equipment installation according to claim 1, wherein: the front surface of the guide device (700) is provided with two vertical guide wheels (720), and the number of the vertical guide wheels (720) is two.

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