CN219766413U - Paying-off machine suitable for basket type and spool type simultaneously - Google Patents

Abstract

The utility model provides a paying-off machine simultaneously applicable to basket type and spool type, which comprises a basket type paying-off frame and a spool paying-off machine, wherein the basket type paying-off frame and the spool paying-off machine are arranged in front of a wire inlet of a drawing and stripping machine; a wire outlet wheel is arranged at one side of the basket type pay-off rack, which is close to the spool pay-off machine; the top of the spool paying-off machine is provided with a group of bridge crossing wheels horizontally arranged along the moving direction of the cables, and the bridge crossing wheels pass through the cables from a basket pay-off rack or the spool paying-off machine and are positioned on the spool below; and a wire distributing wheel assembly is arranged on one side of the bridge crossing wheel, which is close to the wire outlet wheel, the top of the wire distributing wheel assembly passes through a cable from the basket type pay-off rack, and the bottom of the wire distributing wheel assembly passes through a cable from the spool pay-off machine. The utility model adopts the basket type pay-off rack and the spool pay-off machine in front of the wire inlet of the stretch-stripping machine, and in addition, the top of the spool pay-off machine is provided with a group of bridge crossing wheels which are horizontally arranged along the moving direction of the cables, thereby playing a role in transition of the middle cables and transmitting the outgoing cables in the spool pay-off machine.

Description

Paying-off machine suitable for basket type and spool type simultaneously

Technical Field

The utility model relates to the field of wire drawing machines, in particular to the technical field of basket type and spool type wire drawing, and specifically relates to a paying-off machine applicable to both basket type and spool type wire drawing.

Background

In the round wire drawing, flattening, rolling and continuous wire drawing machine set, the round wire drawing, flattening and continuous wire drawing machine set comprises a wire drawing and stripping machine, a flat wire drawing machine and the like, the round wire drawing and continuous wire drawing machine set is used for drawing round wires into flat wires and then collecting the flat wires, and the form of master batch is not limited generally, so that basket wires can be adopted, and I-shaped wire coiling can be adopted, so that the basket wires need to be provided with a wire paying-off machine for bearing a wire frame, the wire paying-off machine for a spool needs to be adopted corresponding to the spool wires, and the wire drawing and continuous wire drawing machine needs to be provided with any equipment.

However, in long-term use, the bus bars with different corresponding types are found, the corresponding paying-off machine needs to be carried each time, the labor hour is increased, in addition, debugging is needed after each installation, the time is spent in debugging, cables are wasted, the efficiency is reduced, and the premise of high-efficiency automatic production is violated by repeatedly carrying various paying-off machines each time the paying-off machine is started.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present utility model is to provide a pay-off machine applicable to both basket and spool types, for solving the difficulties of the prior art.

To achieve the above and other related objects, the present utility model provides a pay-off machine applicable to both basket type and spool type, comprising a basket type pay-off frame 1 and a spool pay-off machine 2 arranged in front of a wire inlet of a stretch-stripping machine;

a wire outlet wheel 16 is arranged on one side of the basket type pay-off rack 1, which is close to the spool pay-off machine 2;

the top of the spool paying-off machine 2 is provided with a group of bridge pulleys 29 horizontally arranged along the moving direction of the cables, and the bridge pulleys 29 are provided with the cables from the spool paying-off rack 1 or the spool paying-off machine 2 positioned on the spool 5 below;

the bridge pulley 29 is provided with the separated time wheel subassembly near the side of reel 16, the top of separated time wheel subassembly is through the cable from basket pay off rack 1, the bottom of separated time wheel subassembly is through the cable from spool paying out machine 2.

According to a preferred embodiment, the take-off wheel 16 is arranged at a lower level than the bridge wheel 29.

According to a preferred embodiment, the basket pay-off rack 1 is arranged on the side of the spool pay-off machine 2 remote from the stripping machine.

According to a preferred embodiment, the basket type pay-off rack 1 includes:

a wire-holding basket 11, wherein the wire-holding basket 11 is arranged on the operation surface;

the lead frame 12 is vertically arranged on one side of the wire containing basket 11 close to the spool paying-off machine 2, and the top of the wire containing basket 12 is higher than the Cheng Xian basket 11;

the wire cover 13 is vertically arranged above the wire containing basket 11, the top of the wire cover 13 is connected with a top guide wheel 14 arranged at the top of the wire frame 12 through a connecting frame, a straightening bearing 15 is arranged in the wire cover 13, and a cable led out from the bottom wire containing basket 11 is penetrated into a hole of the straightening bearing 15;

and the wire outlet wheel 16 is arranged on one side of the wire frame 12 close to the spool paying-off machine 2 and is used for receiving the cable led out from the top guide wheel 14.

According to a preferred embodiment, the bottom of the lead frame 12 is fixed to the installation ground by the tripod 17 and bolts.

According to a preferred embodiment, the wire guide 13 has an umbrella-like structure with a bottom diameter larger than a top diameter.

According to the preferred scheme, the basket type pay-off rack 1 further comprises a bending guide wheel 18, the bending guide wheel 18 is arranged on the connecting frame, and the tangent plane of the bending guide wheel 18 is overlapped with the central axis of the wire cover 13.

According to a preferred solution, the spool paying-off machine 2 comprises:

a frame 21;

the lifting mechanism is arranged in the frame 21, and a fixed taper sleeve 22 and a movable taper sleeve 23 are respectively sleeved at two ends of the lifting mechanism;

the fixed taper sleeve 22, one side of the fixed taper sleeve 22 far away from the movable taper sleeve 23 is connected with a speed reducer 3 and a motor 4, and the fixed taper sleeve 22 is driven to rotate by connecting the motor 4 with a central shaft in the fixed taper sleeve 22;

the movable taper sleeve 23 is arranged on the other side of the spool 5, one side of the movable taper sleeve 23 far away from the fixed taper sleeve 22 is connected to a guide unit, and the guide unit is driven by a thimble cylinder 24 arranged on the guide unit to realize the distance that the movable taper sleeve 23 is clamped into the spool 5;

and the tension unit is arranged on the frame 21 and is positioned above the spool 5, receives the cable led out from the spool 5 and outputs the cable towards the next working procedure.

According to a preferred aspect, the lifting mechanism comprises:

the sliding mounting plates 25 are arranged on two sides of the frame 21, the rotating bearing piece of the fixed taper sleeve 22 is fixedly arranged in one side of the sliding mounting plates 25 through bolts, and the guiding unit is fixedly arranged in the other side of the sliding mounting plates 25 through bolts;

the lifting cylinders 26 are respectively arranged on the upper and lower sides of the top driving sliding mounting plates 25 of the two side sliding mounting plates 25, and drive the spool 5 to be far away from the ground.

According to a preferred embodiment, the guiding unit comprises:

the periphery of the outer guide sleeve 6 is arranged on the sliding mounting plate 25;

the inner guide sleeve 7 is sleeved in the outer guide sleeve 6 through a sealing ring;

the inner wall of the inner guide sleeve 7 is sleeved with the middle shaft of the movable taper sleeve 23 through the rotary bearing 8;

the connecting sleeve 9 is arranged on one side of the inner guide sleeve 7, which is close to the movable taper sleeve 23, through a bone seal 10 and a bolt piece, and the top of the connecting sleeve 9 extends out of a connecting end to be connected with a joint bearing 210 connected with a thimble rod of the thimble cylinder 24.

According to a preferred embodiment, the cylinder block bottom of the thimble cylinder 24 is mounted on the top of the housing of the guide unit by means of a bolt mounting.

According to the preferred scheme, the tension unit comprises a tension wheel 27 and a tension cylinder 28, wherein the tension wheel 27 is arranged at a lower position between the pair of bridge crossing wheels 29, the tension wheel 27 is connected with a cylinder rod of the tension cylinder 28 arranged at the top of the frame 21 through a bracket, and the tension wheel 27 is driven by the tension cylinder 28 to adjust the height so as to adjust the tension of cables passing through the pair of bridge crossing wheels 29 and the tension wheel 27.

According to a preferred scheme, the branching wheel assembly comprises a rotating shaft 211 and a branching wheel 212, wherein the rotating shaft 211 is arranged on the frame 21 in a fixed angle through a bolt, and the branching wheel 212 is arranged on one side, far away from the fixed end of the bolt, of the rotating shaft 211.

The utility model adopts the basket type pay-off rack and the spool pay-off machine in front of the wire inlet of the stretch-stripping machine, and in addition, the top of the spool pay-off machine is provided with a group of bridge crossing wheels which are horizontally arranged along the moving direction of the cables, thereby playing a role in transition of the middle cables and transmitting the outgoing cables in the spool pay-off machine.

Preferred embodiments for carrying out the present utility model will be described in more detail below with reference to the attached drawings so that the features and advantages of the present utility model can be easily understood.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is an enlarged schematic view showing a partial structure of a top of a basket type pay-off rack according to the present utility model;

FIG. 4 is an enlarged view showing the structure of the spool paying-off machine according to the present utility model;

FIG. 5 is an enlarged view showing the structure of a partial spool paying-off machine according to the present utility model;

description of the reference numerals

1. The wire-holding frame comprises a basket-type pay-off rack 11, a wire-holding basket 12, a wire frame 13, a wire cover 14, a top guide wheel 15, a straightening bearing 16, a wire-outgoing wheel 17, a triangular bracket 18 and a bending guide wheel;

2. spool paying-off machine 21, machine frame 22, fixed taper sleeve 23, movable taper sleeve 24, thimble cylinder 25 and sliding mounting plate, 26, lifting cylinders, 27, tension wheels, 28, tension cylinders, 29, bridge crossing wheels, 210, joint bearings, 211, rotating shafts, 212 and branching wheels;

3. a speed reducer; 4. a motor; 5. i-shaped wheel;

6. an outer guide sleeve; 7. an inner guide sleeve; 8. a rotating bearing;

9. connecting sleeves; 10. and (5) bone sealing.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present utility model. Like reference numerals in the drawings denote like parts. It should be noted that the described embodiments are some, but not all embodiments of the present utility model. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present utility model fall within the protection scope of the present utility model.

Possible embodiments within the scope of the utility model may have fewer components, have other components not shown in the drawings, different components, differently arranged components or differently connected components, etc. than the examples shown in the drawings. Furthermore, two or more of the elements in the figures may be implemented in a single element or a single element shown in the figures may be implemented as multiple separate elements.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "first," "second," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. Likewise, the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

The utility model provides a paying-off machine which is simultaneously applicable to basket type and spool type, is used in various wire drawing machine equipment, does not limit the types of raw materials, and is particularly applicable to the requirements of basket type and spool type raw materials.

In general, the paying-off machine simultaneously applicable to basket type and spool type provided by the utility model mainly comprises a basket type paying-off frame 1 and a spool paying-off machine 2, wherein the basket type paying-off frame 1 and the spool paying-off machine 2 are arranged in front of a wire inlet of a drawing and stripping machine. Among them, reference can be made to fig. 1, which shows the arrangement relationship of a basket pay-off stand 1 and a spool pay-off machine 2.

In order to achieve the purpose of adapting to different types of bus specifications on the same wire drawing machine assembly line, solve the problem in the background art that aiming at finding out in long-term use, corresponding types of buses need to be carried each time, the labor time is increased, in addition, debugging is needed after each installation, time is spent, the efficiency is reduced, and the problem of the advance of high-efficiency automatic production is overcome by repeatedly carrying various wire drawing machines each time when the wire drawing machines are started up, in the technical scheme provided by the embodiment, firstly, a basket type wire drawing frame 1 is arranged on one side of the spool wire drawing machine 2, which is far away from the wire drawing machine, wherein a wire outlet wheel 16 is arranged on one side of the basket type wire drawing frame 1, which is close to the spool wire drawing machine 2, and a cable led out from a top guide wheel 14 is received, and the cable led out from the basket type wire drawing frame 1 is also arranged towards one side of the wire drawing machine, in addition, because the spool wire drawing machine 2 exists between the basket type wire drawing frame 1 and the wire drawing machine, the spool wire drawing machine 2 plays a transitional role in the middle cable, and the spool wire drawing machine 2 is arranged in the direction of the spool wire drawing machine 2, and the spool wire drawing machine is arranged on the spool 2 in the horizontal direction of the spool wire drawing machine, which is far from the spool 2, and the spool wire drawing machine 2 is arranged on the spool 2; in addition, considering the difference of the wire outlet angles of the basket pay-off rack 1 and the spool pay-off machine 2, the wire leading between the basket pay-off rack 1 and the spool pay-off machine 2 is prevented from being disordered due to the fact that the leads are crossed, a wire distributing wheel assembly is arranged on one side of the bridge pulley 29, which is close to the wire outlet wheel 16, in use, the wire distributing wheel assembly comprises a rotating shaft 211 and a wire distributing wheel 212, the rotating shaft 211 can be fixedly arranged on the rack 21 through bolts, the wire distributing wheel 212 is arranged on one side of the rotating shaft 211, which is far away from the fixed ends of the bolts, and when the basket pay-off rack 1 works, the rotating shaft 211 of the wire distributing wheel assembly moves upwards, the wire distributing wheel 212 is arranged on the top, and when the spool pay-off machine 2 works, the rotating shaft 211 of the wire distributing wheel assembly moves downwards, the wire distributing wheel 212 is arranged on the bottom, and the wire distributing wheel 212 guides the wire passing through the wire leading from the spool pay-off machine 2, so that the wire leading is prevented from being disordered, the wire leading is facilitated, and the wire leading is guaranteed for a later wire drawing machine.

As shown in fig. 1 and 2, in the structure of the basket type pay-off rack 1, since the wire basket 11 in the basket type pay-off rack 1 is placed on an operation terrace and the matched wire frame 12 is also fixed on the installation ground through the triangular bracket 17 and the bolts at the bottom, but the height is still higher than that of the wire basket 11, the wires from the wire basket 11 to the wire frame 12 need to be converted into a vertically rising state from a horizontal coiling state through a section, and the wires on the wire basket 11 have twisting after being straightened due to long-time coiling, the wire cover 13 is arranged at an inlet above the wire basket 11, and the outer diameter of the wire basket 11 is far larger than the outer diameter of the wire cover 13, so that the damage and friction effect on the wires at the wire inlet are reduced in order not to influence the wire inlet from all angles, the wire cover 13 is in an umbrella-shaped structure, the bottom diameter is larger than the top diameter, the wires which can be accommodated in the maximum range, and the wires which can be led obliquely and the abrasion caused by bending can be reduced;

further, the wire cover 13 is vertically arranged, the top is connected with the top guide wheel 14 arranged at the top of the lead frame 12 through a connecting frame, in order to play a role in guiding and assisting the wires, a straightening bearing 15 is arranged in the wire cover 13, and the wires led out from the bottom wire basket 11 are penetrated into holes of the straightening bearing 15, and in addition, a cylinder sleeve can be adopted for cost reasons; the two structures can form a guiding function on the cable, so that the cable threading is convenient, the wear resistance can be realized, and the service life of the wire guide cover 13 is prolonged.

As shown in fig. 2, a bending guide wheel 18 is further installed in the connecting frame at the top of the wire cover 13, the bending guide wheel 18 is not coaxially arranged with the straightening bearing 15 in the wire cover 13, and is not coaxially arranged with the top guide wheel 14, but the tangent plane of the bending guide wheel 18 is overlapped with the central axis of the wire cover 13, so that the guiding function of the cables led out from the straightening bearing 15 below is achieved, and the cables move towards the direction of the top guide wheel 14 to form effective transitional connection, so that the breakage or the distortion caused by direct wire drawing is prevented.

It should be noted that the spool pay-off machine 2 is preferably mounted on an operation terrace through a frame 21, and then a fixed taper sleeve 22 and a movable taper sleeve 23 for clamping and rotating the spool 5 are mounted below the frame 21, and further, in order to guide a wire from the one-side basket pay-off rack 1 and a cable from the bottom spool 5, the spool pay-off machine is conveyed towards a direction of a stripping machine, and can play roles in stretching and adjusting tension of the cable, so that a tension unit and a group of bridge pulleys 29 which are positioned on two sides of the tension unit and horizontally arranged along a cable moving direction are mounted above the spool 5 on the frame 21.

Specifically, the tension unit adopts tension wheel 27 and tension cylinder 28, and in the position structure, tension wheel 27 sets up in the below position between a pair of gap bridge wheel 29, and in the altitude mixture control demand of tension wheel 27, is driven from top to bottom by the cylinder pole of tension cylinder 28 that the support is installed at the frame 21 top on tension wheel 27, reaches tension wheel 27 and adjusts the high drive adjustment under tension cylinder 28's effect and pass through the mesh of cable tension on a pair of gap bridge wheel 29 and tension wheel 27.

As described above, the left and right sides of the spool 5 are clamped by the fixed taper sleeve 22 and the movable taper sleeve 23, wherein the fixed taper sleeve 22 is fixed relative to the lifting mechanism, the movable taper sleeve 23 is moved towards the spool 5 by the guiding unit after clamping the spool 5, and the purpose of clamping the movable taper sleeve 23 into the spool 5 is achieved by driving the thimble cylinder 24 on the guiding unit.

As shown in fig. 5, the connection relationship between the guiding unit and the movable cone sleeve 23 is shown, wherein the central shaft of the movable cone sleeve 23 is inserted into the guiding unit, the rotary bearing 8 is sleeved outside the central shaft and connected with the inner guiding sleeve 7, the outer guiding sleeve 6 is sleeved outside the inner guiding sleeve 7 through the sealing ring, and the outer guiding sleeve 6 is fixed, namely, is arranged on the lifting mechanism and is relatively static to the lifting mechanism; however, the power source for driving the movable taper sleeve 23 comes from a thimble cylinder 24 arranged on the top of the shell of the guiding unit, a joint bearing 210 is connected to a thimble rod of the thimble cylinder 24, the end part of the joint bearing 210 is connected with the top extension end of the connecting sleeve 9, the body of the connecting sleeve 9 is arranged on one side of the inner guiding sleeve 7, which is close to the movable taper sleeve 23, through a bone seal 10 and a bolt piece, so that the purpose of connecting the guiding unit and the thimble cylinder 24 is realized, and once the thimble cylinder 24 is driven, the thimble rod moves, the middle shaft in the inner guiding sleeve 7 and the movable taper sleeve 23 on the middle shaft can be driven to move towards the spool 5 through the connecting sleeve 9 and clamped into the spool 5.

The mechanism for lifting the spool 5 is further arranged on the basis, and after the spool 5 is installed, the spool 5 needs to be lifted for rotation, so that the fixed taper sleeve 22 connected with the speed reducer 3 and the motor 4 and the guide unit are installed on the sliding installation plate 25, specifically, the sliding installation plate 25 is arranged on two sides of the frame 21, the rotating bearing part of the fixed taper sleeve 22 is fixedly installed in the sliding installation plate 25 on one side through bolts, and the guide unit is fixedly installed in the sliding installation plate 25 on the other side through bolts; when lifting, the lifting air cylinders 26 are respectively arranged on the upper and lower sides of the top driving sliding mounting plates 25 of the sliding mounting plates 25 at the two sides, so as to drive the spool 5 to be far away from the ground.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (7)

1. The paying-off machine is applicable to basket type and spool type simultaneously, and is characterized by comprising a basket type paying-off frame (1) and a spool paying-off machine (2) which are arranged in front of a wire inlet of a drawing and stripping machine;

a wire outlet wheel (16) is arranged at one side of the basket type pay-off rack (1) close to the spool pay-off machine (2);

the cable paying-off device is characterized in that a group of bridge crossing wheels (29) horizontally arranged along the moving direction of the cable are arranged at the top of the spool paying-off machine (2), and the bridge crossing wheels (29) are used for passing through the cable from the basket paying-off rack (1) or the spool paying-off machine (2) positioned on the spool (5) below;

the wire separating wheel assembly is arranged on one side, close to the wire outlet wheel (16), of the bridge crossing wheel (29), the top of the wire separating wheel assembly passes through a cable from the basket type pay-off rack (1), and the bottom of the wire separating wheel assembly passes through a cable from the spool pay-off machine (2).

2. The pay-off machine simultaneously applicable to basket and spool according to claim 1, characterized in that the basket pay-off rack (1) is arranged on the side of the spool pay-off machine (2) remote from the stretch-stripping machine.

3. Paying-off machine simultaneously adapted for basket and spool according to claim 2, characterized in that the basket pay-off stand (1) comprises:

the wire-holding basket (11) is arranged on the operation surface;

the lead frame (12) is vertically arranged on one side of the wire containing basket (11) close to the spool paying-off machine (2), and the top of the wire containing basket is higher than the Cheng Xian basket (11);

the wire cover (13), the wire cover (13) is vertically arranged above the wire-holding basket (11), the top is connected with a top guide wheel (14) arranged at the top of the wire frame (12) through a connecting frame, a straight bearing (15) is arranged in the wire cover (13), and a cable led out from the bottom wire-holding basket (11) is penetrated into a hole of the straight bearing (15);

the wire outlet wheel (16) is arranged on one side of the lead frame (12) close to the spool paying-off machine (2) and used for receiving the cable led out from the top guide wheel (14).

4. A paying-off machine simultaneously applicable to basket type and spool type according to claim 3, characterized in that the basket type paying-off frame (1) further comprises a bending guide wheel (18), the bending guide wheel (18) is installed on the connecting frame, and the tangent plane of the bending guide wheel (18) is overlapped with the central axis of the wire cover (13).

5. The pay-off machine simultaneously applicable to basket and spool according to claim 4, characterized in that said spool pay-off machine (2) comprises:

a frame (21);

the lifting mechanism is arranged in the frame (21), and two ends of the lifting mechanism are respectively sleeved with a fixed taper sleeve (22) and a movable taper sleeve (23);

the fixed taper sleeve (22), one side of the fixed taper sleeve (22) far away from the movable taper sleeve (23) is connected with a speed reducer (3) and a motor (4), and the fixed taper sleeve (22) is driven to rotate by connecting the motor (4) with a middle shaft in the fixed taper sleeve (22);

the movable taper sleeve (23) is arranged on the other side of the spool (5), one side, far away from the fixed taper sleeve (22), of the movable taper sleeve (23) is connected to the guide unit, and the guide unit drives the movable taper sleeve (23) to be clamped into the distance of the spool (5) through a thimble cylinder (24) arranged on the guide unit;

the tension unit is arranged on the frame (21) and is positioned above the spool (5), receives a cable led out from the spool (5) and outputs the cable towards the next working procedure.

6. The pay-off machine of claim 5 adapted for both basket and spool types, wherein the guide unit comprises:

the periphery of the outer guide sleeve (6) is arranged on the sliding mounting plate (25);

the inner guide sleeve (7) is sleeved in the outer guide sleeve (6) through a sealing ring;

the inner wall of the inner guide sleeve (7) is sleeved with the middle shaft of the movable taper sleeve (23) through the rotary bearing (8);

the connecting sleeve (9), the connecting sleeve (9) is installed on one side of the inner guide sleeve (7) close to the movable taper sleeve (23) through a bone seal (10) and a bolt piece, and the top of the connecting sleeve (9) extends out of a connecting end to be connected with a joint bearing (210) connected with a thimble rod of the thimble cylinder (24).

7. The paying-off machine simultaneously applicable to basket type and spool type according to claim 6, wherein the tension unit comprises a tension wheel (27) and a tension cylinder (28), the tension wheel (27) is arranged at a lower position between a pair of bridge crossing wheels (29), the tension wheel (27) is connected with a cylinder rod of the tension cylinder (28) arranged at the top of the frame (21) through a bracket, and the tension wheel (27) is adjusted in height under the action of the tension cylinder (28) to drive and adjust the tension of a cable passing through the pair of bridge crossing wheels (29) and the tension wheel (27).