CN111061024B - Communication engineering network transmission optical cable traction equipment - Google Patents

Abstract

The invention relates to a communication engineering network transmission optical cable traction device which comprises a rack, wherein a traction device for optical cable wiring is arranged on the rack, and the traction device comprises an active traction mechanism for providing power for optical cable traction and an extrusion mechanism for extruding and fixing the peripheral surface of an optical cable on the active traction mechanism and enabling the optical cable to move under the traction of the active traction mechanism. The invention has the advantages that: the optical cable can be automatically pulled, and the labor consumption of workers and the damage to the optical cable are reduced.

Description

Communication engineering network transmission optical cable traction equipment

Technical Field

The invention relates to the technical field of communication engineering equipment, in particular to communication engineering network transmission optical cable traction equipment.

Background

The communication industry is one of the fastest-developing industries, and with the approach of the operation of the overall service of the 5G license plate, the communication engineering network still keeps the high-speed development trend in the next several years, and still faces to large-scale network construction engineering in the development process. Currently, communications engineering is facing increasing pressure in terms of cost and time. In the communication engineering, various methods are adopted to reduce the cost, compress the construction period and quickly respond to the market demand, thereby being the fundamental guarantee for improving the competitiveness of communication engineering enterprises.

The pipeline of the transmission optical cable in the existing communication engineering generally runs underground, during construction, an embedded line pipe is firstly laid underground, an optical cable well is constructed, and after the pipeline engineering is finished, the transmission optical cable penetrates into the embedded line pipe. When laying transmission optical cables in pre-buried wire pipes, in order to reduce labor cost of constructors, some construction units reduce personnel investment at will, and adopt wild construction modes such as livestock, tractors and the like for construction, so that the safety of laid transmission optical cables is endangered, and urgent solution is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a communication engineering network transmission optical cable traction device, which has the advantages that: the optical cable can be automatically pulled, and the labor consumption of workers and the damage to the optical cable are reduced.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a communication engineering network transmission optical cable pulling equipment, includes the frame, be provided with the draw gear for the optical cable wiring in the frame, draw gear is including for the optical cable draw provide power initiative drive mechanism with be used for fixing the global extrusion of optical cable on initiative drive mechanism and make the optical cable can carry out the extrusion mechanism that removes under initiative drive mechanism's traction.

Through adopting above-mentioned technical scheme, work can place the optical cable between initiative drive mechanism and extrusion mechanism, fixes the optical cable on initiative drive mechanism through the extrusion of extrusion mechanism to the optical cable afterwards, provides power and through its mutually supporting with extrusion mechanism through initiative drive mechanism after that to realize automatic traction optical cable, reduce staff's the purpose of labour consumption. Meanwhile, the staff can adjust the extrusion force on the optical cable by controlling the extrusion mechanism, so that the damage to the optical cable is reduced on the basis of traction of the optical cable.

The present invention in a preferred example may be further configured to: the driving traction mechanism comprises two fixing plates which are arranged on the rack and are parallel to each other, a driving roller and a driven roller which are arranged between opposite side walls of the two fixing plates, and a driving belt which is arranged on the driving roller and the driven roller, wherein a plurality of supporting rollers for supporting the driving belt are arranged between the driving roller and the driven roller, and a driving assembly for driving the driving roller to rotate is arranged on the rack; the driving assembly comprises a driving motor arranged on the rack, a driving chain wheel is arranged at the end part of an output shaft of the driving motor, a driven chain wheel is arranged on the driving roller, and a chain is arranged between the driving chain wheel and the driven chain wheel.

Through adopting above-mentioned technical scheme, when the staff fixes the part global of optical cable on drive mechanism drive belt through extrusion mechanism, the driving motor is opened to the staff's accessible, driving motor's rotation and then drive sprocket rotates, because drive sprocket passes through chain interconnect with driven sprocket, so drive sprocket's rotation can drive the drive roll and rotate, simultaneously because through drive belt interconnect between drive roll and the driven voller, so drive roll's rotation can drive the drive belt and rotate around drive roll and driven voller, drive belt's normal running fit extrusion mechanism's extrusion, thereby will fix the optical cable on drive belt and pull the conveying.

The present invention in a preferred example may be further configured to: the extrusion mechanism comprises two mounting plates which are arranged in parallel, a plurality of rotating rollers which are arranged in parallel are arranged between the opposite side walls of the mounting plates, and driven belts are connected on the rotating rollers in a rotating mode; the lateral wall is provided with the push-down subassembly that a plurality of driven belts of drive removed towards the initiative belt on the mounting panel.

Through adopting above-mentioned technical scheme, when the staff worn to establish the optical cable between initiative belt and the driven belt, the staff accessible pushed down the group top and held the driven belt and remove towards the initiative belt, the meeting cooperation of backing roll and live-rollers mutually, the driven belt that enables and the initiative belt between be more stable to the global fixed of optical cable.

The present invention in a preferred example may be further configured to: the pressing component comprises a supporting plate arranged on the rack, a pressing screw rod is vertically arranged on the supporting plate, the pressing screw rod penetrates through the side wall of the supporting plate and is in threaded connection with the supporting plate, a pressing plate is rotatably connected to the lower end of the pressing screw rod, and two ends of the pressing plate are fixedly connected with the side walls of the two mounting plates respectively.

Through adopting above-mentioned technical scheme, the push-down subassembly during operation, staff's accessible rotates the push-down screw rod for push-down screw rod lower extreme top holds the direction removal of holding the holding down plate towards initiative belt, because the both ends of holding down plate respectively with the lateral wall fixed connection of two mounting panels, so moving down of holding down plate can drive the direction removal of mounting panel towards the fixed plate, thereby drive driven belt and remove towards initiative belt, and then accomplish the global fixed of optical cable.

The present invention in a preferred example may be further configured to: the upper end of the downward-pressing screw is provided with a rotating hand wheel which is convenient for workers to screw the downward-pressing screw.

Through adopting above-mentioned technical scheme, the staff is when rotating the screw rod, and the accessible rotates rotatory hand wheel and rotates the screw rod to when making things convenient for the staff to adjust the interval between driven belt and the initiative belt, reduce staff's labour consumption.

The present invention in a preferred example may be further configured to: set up a plurality of spacing damper units between mounting panel and the fixed plate homonymy lateral wall, spacing damper unit includes the vertical spacing stand of setting at the fixed plate lateral wall, spacing stand passes through the connecting plate and installs on the fixed plate, slide on the spacing stand and be connected with the position sleeve, the lateral wall interconnect of position sleeve's lateral wall and mounting panel, be provided with damping spring between position sleeve and the connecting plate, damping spring overlaps and establishes on the damping stand, the upper end of position sleeve is seal structure.

Through adopting above-mentioned technical scheme, spacing damper's setting, when the staff removed through screw drive mounting panel towards the fixed plate, the length direction that the position sleeve can follow spacing stand slided to the horizontality when effectively guaranteeing the mounting panel and moving down is convenient for adjust the interval between driven belt and the initiative belt, with the optical cable of being suitable for not unidimensional. Meanwhile, due to the arrangement of the damping springs, the influence of vibration generated by the fixing plate on the mounting plate can be reduced, and the stability of the whole equipment is enhanced. The upper end of the positioning sleeve is of a sealing structure, so that the limiting upright post can be prevented from penetrating out of the positioning sleeve, the fixed plate is pressed down to be positioned at the limiting position, and further, the damage to the optical cable caused by overlarge pressure when the worker presses down the fixed plate is reduced.

The present invention in a preferred example may be further configured to: all be provided with a plurality of traction blocks that are used for pulling the optical cable on initiative belt and the driven belt, be provided with the rubber pad on the traction block, set up the arc wall that holds the optical cable on the lateral wall that the rubber pad deviates from the traction block.

Through adopting above-mentioned technical scheme, the setting of traction block and rubber pad not only can strengthen driven belt and initiative belt to the fixed rigidity between the optical cable, reinforcing frictional force can reduce moreover because of the too big damage to the optical cable of extrusion pressure.

The present invention in a preferred example may be further configured to: one side of the active belt has a lead assembly for guiding the optical cable into the active belt.

Through adopting above-mentioned technical scheme, the setting of lead wire subassembly is when drawing the optical cable at the rubber pad for the clearance between the optical cable entering relative rubber pad is more stable.

The present invention in a preferred example may be further configured to: the lead assembly is including setting up the lead rod between two fixed plates, the vertical gag lever post that is used for restricting optical cable horizontal slip that is provided with on the global of lead rod, the front side of lead rod is provided with the lead wheel, the lead wheel rotates through two otic placodes and frame and is connected.

Through adopting above-mentioned technical scheme, the staff can loop through between lead wheel and the lead wire pole penetrates relative rubber pad with the tip of optical cable earlier, pulls down at the rubber pad afterwards, when driving the optical cable and move forward, the setting of two gag levers, the possibility of reducible optical cable slippage lead wheel to make pulling of optical cable more stable.

In summary, the present invention includes the following at least one communication engineering network transmission optical cable pulling apparatus:

1. the optical cable can be placed between the active traction mechanism and the extrusion mechanism during working, then the optical cable is fixed on the active traction mechanism through extrusion of the extrusion mechanism on the optical cable, and then power is provided through the active traction mechanism and is matched with the extrusion mechanism, so that the purposes of automatically drawing the optical cable and reducing the labor consumption of workers are achieved;

2. the arrangement of the guide block and the rubber pad can enhance the fixing rigidity of the driven belt and the driving belt to the optical cable, enhance the friction force and reduce the damage to the optical cable due to overlarge extrusion pressure;

3. the staff can loop through between lead wheel and the lead rod penetrates relative rubber pad with the tip of optical cable earlier, pulls down at the rubber pad afterwards, when driving the optical cable and move forward, the setting of two gag lever posts, the possibility of reducible optical cable slippage lead wheel to make pulling of optical cable more stable.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a side view of the present invention after concealing the fixed plate and mounting plate.

Fig. 3 is a schematic structural view of the matching relationship between the traction block and the rubber pad.

Figure 4 is a schematic diagram of an exploded structure embodying a spacing shock absorbing assembly.

In the figure, 1, a frame; 11. braking the universal wheel; 2. a traction device; 21. an active traction mechanism; 211. a fixing plate; 212. a drive roll; 213. a driven roller; 214. a drive belt; 215. a support roller; 216. a drive assembly; 2161. a drive motor; 2162. a drive sprocket; 2163. a driven sprocket; 2164. a chain; 22. an extrusion mechanism; 221. mounting a plate; 222. a rotating roller; 223. a driven belt; 224. pressing the assembly; 2241. a support plate; 2242. pressing the screw rod downwards; 2243. a lower pressing plate; 2244. rotating a hand wheel; 3. a traction block; 31. a rubber pad; 311. an arc-shaped slot; 4. a limiting and damping component; 41. a limiting upright post; 42. a connecting plate; 43. a positioning sleeve; 44. connecting columns; 45. a damping spring; 5. a lead assembly; 51. a wire-guiding rod; 52. a limiting rod; 53. a wire-leading wheel; 54. an ear plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the network transmission optical cable traction equipment for communication engineering disclosed by the invention comprises a rack 1, wherein four end angles at the bottom of the rack 1 are fixedly connected with brake universal wheels 11 which are convenient for workers to move the whole equipment; the frame 1 is provided with a traction device 2 for cable wiring, and the traction device 2 comprises an active traction mechanism 21 for providing power for cable traction and a pressing mechanism 22 for pressing and fixing the peripheral surface of the cable on the active traction mechanism 21 and enabling the cable to move under the traction of the active traction mechanism 21.

As shown in fig. 1 and 2, the driving traction mechanism 21 includes two fixing plates 211 disposed on the frame 1 in parallel with each other, a driving roller 212 and a driven roller 213 disposed between opposite sidewalls of the two fixing plates 211, and a driving belt 214 disposed on the driving roller 212 and the driven roller 213; the fixing plate 211 is vertically arranged with the horizontal plane, and the left and right ends of the fixing plate 211 are respectively fixedly connected with the side wall of the frame 1; the driving roller 212 and the driven roller 213 are parallel to each other and are arranged perpendicular to the fixing plate 211, and the ends of the driving roller 212 and the driven roller 213 are rotatably connected with the side wall of the fixing plate 211 through bearings; three supporting rollers 215 for supporting the rotation of the driving belt 214 are arranged in parallel between the driving roller 212 and the driven roller 213, the supporting rollers 215 are parallel to the driving roller 212, two ends of each supporting roller 215 are rotatably connected with the side wall of the fixing plate 211 through bearings, the supporting rollers 215 are used as bearing bodies when the driving belt 214 moves, and the supporting rollers 215 can be matched with the extrusion mechanism 22 to stably fix the optical cable when the optical cable is conveyed; the rack 1 is provided with a driving roller 212 to rotate the driving assembly 216, the driving assembly 216 includes a driving motor 2161 fixedly connected to the rack 1, the driving motor 2161 is located at the lower side of the driving roller 212, and the end of the output shaft of the driving motor 2161 is fixedly connected with a driving sprocket 2162, the middle of the driving sprocket 2162 is vertically arranged with the output shaft of the driving motor 2161, one end of the driving roller 212 penetrates through the side wall of the fixing plate 211 and is vertically provided with a driven sprocket 2163, the middle of the driven sprocket 2163 is fixedly connected with the side wall of the end of the driving roller 212, and a chain 2164 connecting the driving sprocket 2162 and the driven sprocket 2163 is engaged therebetween. The rigid coupling has a plurality of traction blocks 3 that are used for pulling the optical cable on the initiative belt 214, and a plurality of traction blocks 3 arrange along the length direction of initiative belt 214, and the width of traction block 3 is the same with initiative belt 214, and the rigid coupling has rubber pad 31 on traction block 3, offers the arc wall 311 that holds the optical cable on the lateral wall that rubber pad 31 deviates from traction block 3, and rubber pad 31 can increase the frictional force between optical cable and the initiative belt 214 to improve equipment's work efficiency.

When a worker fixes part of the peripheral surface of the optical cable on the rubber pad 31 of the driving belt 214 of the driving traction mechanism 21 through the extrusion mechanism 22, the worker can turn on the driving motor 2161, the driving motor 2161 rotates to drive the driving sprocket 2162 to rotate, the driving sprocket 2162 and the driven sprocket 2163 are connected with each other through the chain 2164, so the driving roller 212 can be driven to rotate by the rotation of the driving sprocket 2162, meanwhile, the driving roller 212 and the driven roller 213 are connected with each other through the driving belt 214, so the driving belt 214 can be driven to rotate around the driving roller 212 and the driven roller 213 by the rotation of the driving roller 212, and the rotation of the driving belt 214 is matched with the extrusion of the extrusion mechanism 22, so that the optical cable fixed on the driving belt 214 is pulled and conveyed.

As shown in fig. 1 and 2, the pressing mechanism 22 includes two mounting plates 221 disposed parallel to each other, the mounting plates 221 are disposed vertically to the horizontal plane, two ends of the mounting plates 221 are fixedly connected to the side walls of the rack 1, five rotating rollers 222 disposed parallel to each other are vertically disposed between the opposite side walls of the two mounting plates 221, two ends of the rotating rollers 222 are rotatably connected to the side walls of the two mounting plates 221 through bearings, and a driven belt 223 is rotatably connected to the five rotating rollers 222, a plurality of traction blocks 3 for drawing the optical cable are also fixedly connected to the driven belt 223, rubber pads 31 are arranged on the traction blocks 3 on the driven belt 223 and the traction blocks 3 on the driving belt 214 in a one-to-one correspondence mode, and the rubber pads 31 between the two opposite positions can enhance the fixing rigidity of the driven belt 223 and the driving belt 214 to the optical cable, enhance the friction force and reduce the damage to the optical cable due to overlarge extrusion pressure; two pushing assemblies 224 for driving the driven belt 223 to move towards the driving belt 214 are arranged on the upper side walls of the two mounting plates 221, the two pushing assemblies 224 are respectively arranged close to the end portions of the driven belt 223, each pushing assembly 224 comprises a supporting plate 2241 horizontally arranged on the rack 1, two ends of the supporting plate 2241 are fixedly connected with the side wall of the rack 1, a pushing screw 2242 is vertically arranged on the supporting plate 2241, the pushing screw 2242 penetrates through the side wall of the supporting plate 2241 and is in threaded connection with the supporting plate 2241, the lower end of the pushing screw 2242 is rotatably connected with a pushing plate 2243 through a bearing, and two ends of the pushing plate 2243 are respectively fixedly connected with the side walls of the two mounting plates 221; the upper end of the down-pressing screw 2242 is vertically and fixedly connected with a rotating hand wheel 2244 which is convenient for workers to screw the down-pressing screw 2242.

Push down subassembly 224 during operation, staff's accessible rotates thumb wheel 2244 and pushes down screw 2242, make the direction that pushes down screw 2242 lower extreme top and hold holding down plate 2243 towards initiative belt 214 remove, because the both ends of push down plate 2243 respectively with the lateral wall fixed connection of two mounting panels 221, so that moving down of push down plate 2243 can drive mounting panel 221 and remove towards the direction of fixed plate 211, thereby drive driven belt 223 and remove towards initiative belt 214, and then accomplish the fixed to the optical cable global.

As shown in fig. 1 and 4, two limiting shock-absorbing assemblies 4 are disposed between the mounting plate 221 and the side wall of the fixing plate 211 on the same side, each limiting shock-absorbing assembly 4 includes a limiting upright 41 vertically disposed on the side wall of the fixing plate 211, the limiting upright 41 is mounted on the fixing plate 211 through a connecting plate 42, the connecting plate 42 is disposed parallel to the horizontal plane and the side wall of the connecting plate 42 is fixedly connected to the side wall of the fixing plate 211, the bottom of the limiting upright 41 is fixedly connected to the side wall of the connecting plate 42, a positioning sleeve 43 is slidably connected to the limiting upright 41, the side wall of the positioning sleeve 43 is connected to the side wall of the mounting plate 221 through a connecting column 44, the upper end of the positioning sleeve 43 is of a sealed structure, the limit upright post 41 can be prevented from penetrating out of the positioning sleeve 43, the positioning of the pressing limit position of the fixing plate 211 is realized, further reducing the damage of the optical cable caused by the overlarge pressure of the staff pressing down the fixing plate 211. When the staff moved towards fixed plate 211 through screw drive mounting panel 221, location sleeve 43 can slide along the length direction of spacing stand 41 to the horizontality when effectively guaranteeing mounting panel 221 to move down is convenient for adjust the interval between driven belt 223 and the drive belt 214, with the optical cable that is suitable for not unidimensional. A damping spring 45 is arranged between the positioning sleeve 43 and the connecting plate 42 and sleeved on the damping upright post, so that the influence of vibration generated by the fixing plate 211 on the mounting plate 221 can be reduced, and the stability of the whole equipment is enhanced.

As shown in fig. 1, a lead assembly 5 for guiding an optical cable into the active belt 214 is disposed on one side of the active belt 214, the lead assembly 5 includes a lead rod 51 disposed between two fixing plates 211, the lead rod 51 is flush with a rubber pad 31 on the active belt 214, two limiting rods 52 for limiting the optical cable from sliding left and right are vertically disposed on the circumferential surface of the lead rod 51, and the bottom of the limiting rods 52 is fixedly connected to the circumferential surface of the lead rod 51; lead wire wheel 53 is provided with to lead wire rod 51's front side level, and lead wire wheel 53 middle part is concave both ends protruding for conveniently holding the optical cable, and lead wire wheel 53 rotates with frame 1 through the otic placode 54 of two vertical settings and is connected, the lateral wall fixed connection of otic placode 54 and frame 1. Staff can pass through between the relative rubber pad 31 with the tip of lead wire wheel 53 and lead wire pole 51 ring in proper order earlier, pulls down at rubber pad 31 afterwards, when driving the optical cable and move forward, the setting of two gag lever posts 52, the possibility of reducible optical cable slippage lead wire wheel 53 to make pulling of optical cable more stable.

The implementation principle of the embodiment is as follows: the staff can loop through between lead wheel 53 and lead rod 51 penetrate relative rubber pad 31 with the tip of optical cable earlier, rotate down screw 2242 through rotatory hand wheel 2244 after that, make down screw 2242 lower extreme top hold the direction removal of holding down plate 2243 towards initiative belt 214, the length direction that spacing stand 41 can be followed to locating sleeve 43 this moment slides, thereby the horizontality when effectively guaranteeing mounting panel 221 and move down, conveniently adjust the interval between initiative belt 214 and the driven belt 223, and then with the optical cable centre gripping between relative rubber pad 31.

Then, the driving motor 2161 is turned on, the driving motor 2161 rotates to drive the driving sprocket 2162 to rotate, the driving sprocket 2162 and the driven sprocket 2163 are connected with each other through the chain 2164, so that the driving roller 212 is driven to rotate by the rotation of the driving sprocket 2162, and meanwhile, the driving roller 212 and the driven roller 213 are connected with each other through the driving belt 214, so that the driving belt 214 is driven to rotate around the driving roller 212 and the driven roller 213 by the rotation of the driving roller 212, and the rotation of the driving belt 214 is matched with the extrusion of the extrusion mechanism 22, so as to carry out traction and transmission on the optical cable fixed on the driving belt 214.

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

Claims (4)

1. The utility model provides a communication engineering network transmission optical cable pulling equipment, includes frame (1), its characterized in that: the frame (1) is provided with a traction device (2) for optical cable wiring, the traction device (2) comprises an active traction mechanism (21) for providing power for optical cable traction and a pressing mechanism (22) for pressing and fixing the peripheral surface of the optical cable on the active traction mechanism (21) and enabling the optical cable to move under the traction of the active traction mechanism (21); the driving traction mechanism (21) comprises two fixing plates (211) which are arranged on the rack (1) and are parallel to each other, a driving roller (212) and a driven roller (213) which are arranged between opposite side walls of the two fixing plates (211), and a driving belt (214) which is arranged on the driving roller (212) and the driven roller (213), wherein a plurality of supporting rollers (215) used for supporting the driving belt (214) are arranged between the driving roller (212) and the driven roller (213), and a driving assembly (216) for driving the driving roller (212) to rotate is arranged on the rack (1); the driving assembly (216) comprises a driving motor (2161) arranged on the frame (1), a driving chain wheel (2162) is arranged at the end part of an output shaft of the driving motor (2161), a driven chain wheel (2163) is arranged on the driving roller (212), and a chain (2164) is arranged between the driving chain wheel (2162) and the driven chain wheel (2163); the extrusion mechanism (22) comprises two mounting plates (221) which are arranged in parallel, a plurality of rotating rollers (222) which are arranged in parallel are arranged between the opposite side walls of the mounting plates (221), and a driven belt (223) is rotatably connected onto each rotating roller (222); the upper side wall of the mounting plate (221) is provided with a plurality of pressing components (224) for driving the driven belt (223) to move towards the driving belt (214); the pressing component (224) comprises a supporting plate (2241) arranged on the rack (1), a pressing screw rod (2242) is vertically arranged on the supporting plate (2241), the pressing screw rod (2242) penetrates through the side wall of the supporting plate (2241) and is in threaded connection with the supporting plate (2241), the lower end of the pressing screw rod (2242) is rotatably connected with a pressing plate (2243), and two ends of the pressing plate (2243) are fixedly connected with the side walls of the two mounting plates (221) respectively; a rotating hand wheel (2244) convenient for workers to screw the down-pressing screw (2242) is arranged at the upper end of the down-pressing screw (2242); mounting panel (221) and fixed plate (211) homonymy between the lateral wall set up a plurality of spacing damper (4), spacing damper (4) are including vertical setting at spacing stand (41) of fixed plate (211) lateral wall, spacing stand (41) are installed on fixed plate (211) through connecting plate (42), it is connected with position sleeve (43) to slide on spacing stand (41), the lateral wall of position sleeve (43) and the lateral wall interconnect of mounting panel (221), be provided with damping spring (45) between position sleeve (43) and connecting plate (42), damping spring (45) cover is established on spacing stand (41), the upper end of position sleeve (43) is sealing structure.

2. The optical cable pulling device for communication engineering network transmission according to claim 1, wherein: all be provided with a plurality of traction blocks (3) that are used for pulling the optical cable on initiative belt (214) and driven belt (223), be provided with rubber pad (31) on traction blocks (3), set up arc wall (311) that hold the optical cable on the lateral wall that rubber pad (31) deviate from traction blocks (3).

3. The optical cable pulling device for communication engineering network transmission according to claim 2, wherein: one side of the active belt (214) has a lead assembly (5) for guiding the optical cable into the active belt (214).

4. The optical cable pulling device for communication engineering network transmission according to claim 3, wherein: lead wire subassembly (5) are including setting up lead wire pole (51) between two fixed plates (211), vertically on the global of lead wire pole (51) be provided with two gag lever posts (52) that are used for restricting the optical cable horizontal slip, the front side of lead wire pole (51) is provided with lead wire wheel (53), lead wire wheel (53) are connected through two otic placodes (54) and frame (1) rotation.

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