CN215418946U - Device for pulling wire shielding layer - Google Patents

Abstract

The utility model provides a device for pulling a wire shielding layer, which comprises a mounting base, a clamping mechanism, a first brush component and a second brush component, wherein the clamping mechanism is mounted on the mounting base; the first brush component comprises a first rotating part and first bristles, and the first bristles are arranged in a first angle range of the first rotating part; the second brush component comprises a second rotating part and second bristles, and the second bristles are arranged in a second angle range of the second rotating part; the first brush component and the second brush component are symmetrically arranged and are positioned between the wire feeding mechanism and the clamping mechanism; the clamping mechanism is used for clamping the wire and is matched with the wire feeding mechanism to fix the position of the wire; the minimum distance between the first brush hair and the second brush hair is less than or equal to a first set value when the first brush hair and the second brush hair rotate; the rotating direction of the first rotating member is opposite to that of the second rotating member. So set up, can insert the wire rod when first brush hair and second brush hair are kept away from each other, prevent that the brush hair from blockking the wire rod.

Description

Device for pulling wire shielding layer

Technical Field

The utility model relates to the field of automatic processing, in particular to a device for pulling a wire shielding layer.

Background

The electric time electric wire and cable relates to a plurality of industries, the electric wire and cable industry in China is a large industry with large production value and coverage, and the product variety satisfaction rate and the domestic market share both exceed 90 percent. The total value of electric wires and cables in China exceeds the United states worldwide, and the electric wires and cables become the first electric wire and cable producing country in the world. However, due to the flexibility of the wire rod and the fine and dense shielding layer which is woven by using the metal mesh and used for wrapping the signal wire, most of the current shielding layer processing technologies of the wire rod tail end installing connector depend on manual work, the degree of industrial automation operation is low, time and labor are wasted, the efficiency is low, the cost is high, the processing effects of the wire rod tail end connector are different, and the uniformity of products is influenced.

SUMMERY OF THE UTILITY MODEL

Based on the problems, the device capable of automatically pulling away the wire shielding layer is provided, and the defects that the rigidity of the wire is insufficient and the shielding layer is fine and difficult to realize automation are overcome.

A device for pulling a wire shielding layer away comprises a mounting base, a clamping mechanism, a first brush component and a second brush component, wherein the clamping mechanism is mounted on the mounting base; the first brush component comprises a first rotating piece and first bristles, and the first bristles are arranged in a first angle range of the first rotating piece; the second brush component comprises a second rotating part and second bristles, and the second bristles are arranged in a second angle range of the second rotating part; the first brush component and the second brush component are symmetrically arranged and are positioned between the wire feeding mechanism and the clamping mechanism; the clamping mechanism is used for clamping the wire and is matched with the wire feeding mechanism to fix the position of the wire; the minimum distance between the first bristles and the second bristles during rotation is smaller than or equal to a first set value; the rotating direction of the first rotating piece is opposite to that of the second rotating piece. The first angle refers to an included angle between the connection line of the head end and the tail end of the installation position of the first bristles on the first rotating piece and the center of the rotating circle; the second angle is an included angle between the connection line of the head end and the tail end of the mounting position of the second bristles on the second rotating part and the center of the rotating circle. In this embodiment, the first bristles are arranged in a first angle range of the first rotating member, the second bristles are arranged in a second angle range of the second rotating member, and the first brush assembly and the second brush assembly are symmetrically arranged, that is, the first bristles and the second bristles are always symmetrically arranged, so that the distance between the first bristles and the second bristles can be relatively large in a certain angle range of the first rotating member and the second rotating member, which is beneficial for a wire to pass through between the first bristles and the second bristles and enter into a clamping range of the clamping mechanism, and when the first rotating member and the second rotating member are in another angle range, the first bristles and the second bristles can rotate to brush up a shielding wire of the wire to the rear of the wire. Therefore, the automatic processing equipment can be designed aiming at the more flexible wire tail end processing technology.

In one example, the first angle and the second angle are both between 90 ° and 180 °.

In one example, the first angle and the second angle are both between 100 ° and 150 °.

In one example, the first angle and the second angle are both between 110 ° and 120 °.

In one example, the first angle and the second angle are both between 180 ° and 210 °.

In one example, the first angle and the second angle are both between 190 ° and 200 °.

In one example, the first angle and the second angle are both between 45 ° and 90 °.

In one example, the first angle and the second angle are both between 60 ° and 70 °.

In one example, the first angle and the second angle are both between 70 ° and 80 °.

In one example, the first set value is between 1 mm and 5 mm.

In one example, the first set value is between 2 mm and 4 mm.

In one example, the first set value is between 0 mm and 0.5 mm.

In one example, the first set point is between 0 mm and-5 mm.

In one example, the first set point is between 0 mm and-3 mm.

In one example, the first set point is between 0 mm and-2 mm.

In one example, the first set point is between 0 mm and-1 mm.

In one example, the first brush assembly further comprises a first belt wheel, and the first belt wheel is coaxially and rigidly connected with the first rotating member; the second brush component also comprises a second belt wheel, and the second belt wheel is coaxially and rigidly connected with the second rotating part; the device also comprises a third belt wheel, a fourth belt wheel, a first transmission belt, a second transmission belt, a first gear, a second gear and a motor; the third belt wheel is in transmission connection with the second belt wheel through the first transmission belt; the fourth belt wheel is in transmission connection with the first belt wheel through the second transmission belt; the first gear is coaxially and rigidly connected with the third belt wheel; the second gear is coaxially and rigidly connected with the fourth belt pulley; the first gear and the second gear have the same specification and are meshed with each other; any one of the first gear, the second gear, the first belt pulley, the second belt pulley, the third belt pulley and the fourth belt pulley is coaxially connected with the motor to obtain power. In this embodiment, the first pulley, the second pulley, the third pulley and the fourth pulley form a linkage mechanism through the first transmission belt, the second transmission belt, the first gear and the second gear, and any one pulley rotates to drive the other pulleys.

In one example, the first pulley, the second pulley, the third pulley, and the fourth pulley are of the same size.

In one example, the first pulley, the second pulley, the third pulley, and the fourth pulley are the same size, and the first transmission belt and the second transmission belt are synchronous transmission belts. By the arrangement, the rotating speed of the first brush bristles driven by the first rotating part in the first brush component and the rotating speed of the second brush bristles driven by the second rotating part are the same, and the linear speeds and the directions of the two parts closest to each other are the same.

In one example, the device further comprises a turntable, a brake switch triggering part and a brake switch sensor; the brake switch triggering part and the brake switch sensor are arranged on the turntable and the mounting base respectively, and the brake switch triggering part is used for triggering the brake switch sensor to send a brake signal to the motor; the turntable is coaxially and fixedly connected with any one of the third belt wheel, the fourth belt wheel, the first gear, the second gear and the motor.

In one example, the brake system further comprises a brake switch trigger part and a brake switch sensor; the brake switch triggering part and the brake switch sensor are arranged on the first transmission belt or the second transmission belt, one of the brake switch triggering part and the brake switch sensor is arranged on the mounting base, and the brake switch triggering part is used for triggering the brake switch sensor to send out a brake signal to the motor. In this embodiment, by providing the brake switch triggering portion and the brake switch sensor, it can be set that after the first brush assembly and the second brush assembly rotate for a set number of turns, the brake switch triggering portion is configured to trigger the brake switch sensor to send a brake signal to the motor. Meanwhile, the brake switch trigger part and the brake switch sensor are arranged at proper positions, so that after the motor stops rotating, the first bristles and the second bristles are in a state of being far away from each other, a wire rod can conveniently pass through the first rotating part and the second rotating part, and the blocking of the hairbrush is reduced.

In one example, the device further comprises a first tensioning wheel, a first connecting piece, a second tensioning wheel and a second connecting piece; the first tensioning wheel is connected with the mounting base through the first connecting piece, and the second tensioning wheel is connected with the mounting base through the second connecting piece; the first tensioning wheel is used for tensioning the first transmission belt; the second tensioning wheel is used for tensioning the second transmission belt.

In one example, the device further comprises a first gear, a second gear and a motor; the first gear is coaxially and rigidly connected with the second rotating piece; the second gear is coaxially and rigidly connected with the first rotating piece; the first gear and the second gear have the same specification and are meshed with each other; the first gear or the second gear is coaxially connected with the motor to obtain power. In this embodiment, the first gear and the second gear with the same specification are meshed with each other, so that rotation of any one of the gears can drive the first brush assembly and the second brush assembly to rotate synchronously and reversely.

In one example, the device further comprises a second belt wheel, a third belt wheel and a first transmission belt; the second belt wheel is coaxially and rigidly connected with the second rotating piece and the first gear; the third belt wheel is in transmission connection with the second belt wheel through the first transmission belt; any one of the first gear, the second gear, the third belt wheel and the second belt wheel is coaxially connected with the motor to obtain power. So set up, each mechanism's part of being convenient for is in according to actual conditions the rational arrangement of position on the mounting base is favorable to improving the scene suitability of mechanism.

In one example, the gripping mechanism is a pneumatic finger.

According to the device for pulling away the wire shielding layer, the first bristles are arranged in the first angle range of the first rotating part, the second bristles are arranged in the second angle range of the second rotating part, the first brush assembly and the second brush assembly are symmetrically arranged, namely the first bristles and the second bristles are always symmetrical, the first rotating part and the second rotating part can be in a certain rotating angle range, the distance between the first rotating part and the second rotating part is large, a wire can penetrate through the first bristles and the second rotating part to enter the clamping range of the clamping mechanism, and when the first rotating part and the second rotating part are in another rotating angle range, the first bristles and the second bristles can rotate to brush the shielding wire of the wire to the rear of the wire. Therefore, the automatic processing equipment can be designed aiming at the more flexible wire tail end processing technology.

Drawings

FIG. 1 is a schematic diagram of a left side view of a device according to an embodiment;

FIG. 2 is a schematic diagram of the left side of the apparatus with the motor removed according to one embodiment;

FIG. 3 is a schematic diagram of a right side view of the apparatus according to an embodiment;

FIG. 4 is a schematic perspective view of an exemplary embodiment of a device;

FIG. 5 is a schematic view of an embodiment of the apparatus with the motor removed from the left side;

fig. 6 is a schematic diagram of a right side structure of the device according to an embodiment.

Description of reference numerals: 100. mounting a base; 200. a clamping mechanism; 310. a first brush assembly; 311. a first rotating member; 312. a first bristle; 313 a first pulley; 320. a second brush assembly; 321. a second rotating member; 322. a second bristle; 323 a second pulley; 330. a motor; 340. a turntable; 341. a brake switch trigger part; 350. a first gear; 351. a third belt pulley; 360. a second gear; 361. a fourth pulley; 370. a first drive belt; 380. a second belt; 400. a brake switch sensor; 510. a first tensioning wheel; 511. a first connecting member; 520. a second tensioning wheel; 521. a second connecting member; 10. a feeding mechanism.

Detailed Description

DETAILED DESCRIPTION FIGS. 1-6, discussed below, and the various embodiments used to describe the principles or methods of the present disclosure in this patent document are by way of illustration only and should not be construed in any way to limit the scope of the disclosure. Preferred embodiments of the present disclosure will be described hereinafter with reference to the accompanying drawings. In the following description, a detailed description of well-known functions or configurations is omitted so as not to obscure the subject matter of the present disclosure with unnecessary detail. Also, terms used herein will be defined according to functions of the present invention. Thus, the terms may be different according to the intention or usage of the user or operator. Therefore, the terms used herein must be understood based on the description made herein.

A device for poking away a wire shield, as shown in FIG. 1, includes a mounting base 100, a clamping mechanism 200 mounted on the mounting base 100, a first brush assembly 310 and a second brush assembly 320. The first brush assembly 310 includes a first rotating member 311 and first bristles 312, and the first bristles 312 are disposed within a first angular range of the first rotating member 311. The second brush assembly 320 includes a second rotating member 321 and second bristles 322, and the second bristles 322 are disposed within a second angular range of the second rotating member 321. The first brush assembly 310 and the second brush assembly 320 are symmetrically disposed and located between the wire feeding mechanism 10 and the clamping mechanism 200. The clamping mechanism 200 is used for clamping the wire and is matched with the wire feeding mechanism 10 to fix the position of the wire. The minimum distance between the first bristles 312 and the second bristles 322 is less than or equal to a first predetermined value. The first rotating member 311 rotates in the opposite direction to the second rotating member 321. The first angle is an angle between the connection line of the head end and the tail end of the first bristle 312 mounted on the first rotating member 311 and the center of the rotating circle. The second angle is an angle between the connection line of the head end and the tail end of the second bristle 322 on the second rotating member 321 and the center of the rotating circle. In this embodiment, the first bristles 312 are disposed in a first angular range of the first rotating member 311, the second bristles 322 are disposed in a second angular range of the second rotating member 321, and the first brush assembly 310 and the second brush assembly 320 are symmetrically disposed, that is, the first bristles 312 and the second bristles 322 are always symmetrically disposed, so that the distance between the first bristles 312 and the second bristles 321 in a certain angular range is relatively large, which is beneficial for the wire to pass through between the first bristles 312 and the second bristles 322 and enter into the clamping range of the clamping mechanism 200, and when the first rotating member 311 and the second rotating member 321 are in another angular range, the first bristles 312 and the second bristles 322 can rotate to brush up the shielding wire of the wire to the rear of the wire. Therefore, the automatic processing equipment can be designed aiming at the more flexible wire tail end processing technology.

In one example, the first angle and the second angle are both between 90 ° and 180 °.

In one example, the first angle and the second angle are both between 100 ° and 150 °.

In one example, the first angle and the second angle are both between 110 ° and 120 °.

In one example, the first angle and the second angle are both between 180 ° and 210 °.

In one example, the first angle and the second angle are both between 190 ° and 200 °.

In one example, the first angle and the second angle are both between 45 ° and 90 °.

In one example, the first angle and the second angle are both between 60 ° and 70 °.

In one example, the first angle and the second angle are both between 70 ° and 80 °.

In one example, as shown in FIG. 1, the first angle and the second angle are both 180 degrees in size.

In one example, the first set point is between 1 mm and 5 mm.

In one example, the first set point is between 2 mm and 4 mm.

In one example, the first set point is between 0 mm and 0.5 mm.

In one example, the first set point is between 0 mm and-5 mm.

In one example, the first set point is between 0 mm and-3 mm.

In one example, the first set point is between 0 mm and-2 mm.

In one example, the first set point is between 0 mm and-1 mm.

In one example, as shown in fig. 3 or 4, the first brush assembly 310 further includes a first pulley 313, and the first pulley 313 is coaxially and rigidly connected to the first rotating member 311. The second brush assembly 320 further includes a fourth pulley 361, and the fourth pulley 361 is coaxially and rigidly connected to the second rotating member 321. The device further comprises a third belt wheel 351, a fourth belt wheel 361, a first transmission belt 370, a second transmission belt 380, a first gear 350, a second gear 360 and a motor 330. The third pulley 351 and the fourth pulley 361 are in transmission connection through a first transmission belt 370. The fourth pulley 361 is in driving connection with the first pulley 313 via a second drive belt 380. The first gear 350 is coaxially rigidly connected to the third pulley 351. The second gear 360 is coaxially and rigidly connected to the fourth pulley 361. The first gear 350 and the second gear 360 are identical in size and are meshed with each other. Any one of the first gear 350, the second gear 360, the first pulley 313, the fourth pulley 361, the third pulley 351, and the fourth pulley 361 is coaxially connected with the motor 330 to obtain power. In this embodiment, the first pulley 313, the fourth pulley 361, the third pulley 351 and the fourth pulley 361 form a linkage mechanism through the first transmission belt 370, the second transmission belt 380, the first gear 350 and the second gear 360, and any one pulley rotates to drive the other pulleys.

In one example, as shown in fig. 3, the first pulley 313, the fourth pulley 361, the third pulley 351, and the fourth pulley 361 have the same specification.

In one example, as shown in fig. 3, the first pulley 313, the fourth pulley 361, the third pulley 351, and the fourth pulley 361 have the same specification, and the first transmission belt 370 and the second transmission belt 380 are synchronous transmission belts. With such an arrangement, the first rotating member 311 of the first brush assembly 310 and the second brush assembly 320 can drive the first bristles 312 to have the same rotating speed as the second rotating member 321 of the second brush assembly 322, and the linear speeds and directions of the two closest places are the same.

In one example, as shown in fig. 2, the device further includes a dial 340, a brake switch triggering portion 341, and a brake switch sensor 400. The brake switch triggering part 341 and the brake switch sensor 400 are disposed on the turntable 340, and one is disposed on the mounting base 100, and the brake switch triggering part 341 is configured to trigger the brake switch sensor 400 to send a brake signal to the motor 330. The turntable 340 is coaxially and fixedly connected to any one of the third pulley 351, the fourth pulley 361, the first gear 350, the second gear 360 and the motor 330. In this embodiment, by providing the braking switch triggering part 341 and the braking switch sensor 400, it can be set that after the first brush assembly 310 and the second brush assembly 320 rotate for a set number of turns, the braking switch triggering part 341 is used for triggering the braking switch sensor 400 to send a braking signal to the motor 330. Meanwhile, by arranging the brake switch triggering part 341 and the brake switch sensor 400 at appropriate positions, after the motor 330 stops rotating, the first bristles 312 and the second bristles 322 are in a state of being away from each other, so that the wire rod passes through between the first rotating member 311 and the second rotating member 321, and the blockage of the brush is reduced.

In one example, a brake switch triggering portion 341 and a brake switch sensor 400 are further included. The brake switch triggering part 341 and the brake switch sensor 400 are disposed one on the first belt 370 or the second belt 380 and one on the mounting base 100, and the brake switch triggering part 341 is configured to trigger the brake switch sensor 400 to send a brake signal to the motor 330. In this embodiment, by providing the braking switch triggering part 341 and the braking switch sensor 400, it can be set that after the first brush assembly 310 and the second brush assembly 320 rotate for a set number of turns, the braking switch triggering part 341 is used for triggering the braking switch sensor 400 to send a braking signal to the motor 330. Meanwhile, by arranging the brake switch triggering part 341 and the brake switch sensor 400 at appropriate positions, after the motor 330 stops rotating, the first bristles 312 and the second bristles 322 are in a state of being away from each other, so that the wire rod passes through between the first rotating member 311 and the second rotating member 321, and the blockage of the brush is reduced.

In one example, as shown in fig. 3 or 4, a first tensioning wheel 510, a first connecting member 511, a second tensioning wheel 520 and a second connecting member 521 are further included. The first tension pulley 510 is connected to the mounting base 100 by a first connection 511, and the second tension pulley 520 is connected to the mounting base 100 by a second connection 521. The first tension pulley 510 is used to tension the first drive belt 370. The second tension pulley 520 is used to tension the second belt 380.

In one example, a first gear 350, a second gear 360 and a motor 330 are also included. The first gear 350 is coaxially and rigidly connected to the second rotating member 321. The second gear 360 is coaxially and rigidly connected to the first rotating member 311. The first gear 350 and the second gear 360 are identical in size and are meshed with each other. The first gear 350 or the second gear 360 is coaxially connected with the motor 330 to obtain power. In this embodiment, the first gear 350 and the second gear 360 with the same size are engaged with each other, so that the rotation of any one of the gears can drive the first brush assembly 310 and the second brush assembly 320 to rotate synchronously and in opposite directions.

In one example, as shown in fig. 5-6, a fourth pulley 361, a third pulley 351, and a first transmission belt 370 are further included. The fourth pulley 361 is coaxially and rigidly connected to the second rotating member 321 and the first gear 350. The third pulley 351 and the fourth pulley 361 are in transmission connection through a first transmission belt 370. Any one of the first gear 350, the second gear 360, the third pulley 351 and the fourth pulley 361 is coaxially connected with the motor 330 to obtain power. With the arrangement, the reasonable arrangement of the positions of the mechanism components on the mounting base 100 according to actual conditions can be facilitated, and the scene applicability of the mechanism can be improved.

In one example, as shown in fig. 5, the device further includes a dial 340, a brake switch triggering portion 341, and a brake switch sensor 400. The brake switch triggering part 341 and the brake switch sensor 400 are disposed on the turntable 340, and one is disposed on the mounting base 100, and the brake switch triggering part 341 is configured to trigger the brake switch sensor 400 to send a brake signal to the motor 330. The turntable 340 is coaxially and fixedly connected with the third pulley 351. The third pulley 351 is also connected to the rotating shaft of the motor 330 to obtain power. In this embodiment, by providing the braking switch triggering part 341 and the braking switch sensor 400, it can be set that after the first brush assembly 310 and the second brush assembly 320 rotate for a set number of turns, the braking switch triggering part 341 is used for triggering the braking switch sensor 400 to send a braking signal to the motor 330. Meanwhile, by arranging the brake switch triggering part 341 and the brake switch sensor 400 at appropriate positions, after the motor 330 is stopped, the first bristles 312 and the second bristles 322 are in a state of being away from each other, so that the wire rod passes through between the first rotating member 311 and the second rotating member 321, and the brush is prevented from being blocked.

In one example, the gripper mechanism 200 is a pneumatic finger.

In the device for pulling out the wire shielding layer, the first bristles 312 are disposed in the first angle range of the first rotating member 311, the second bristles 322 are disposed in the second angle range of the second rotating member 321, and the first brush assembly 310 and the second brush assembly 320 are symmetrically disposed, that is, the positions of the first bristles 312 and the second bristles 322 are always symmetrical, so that the distance between the first rotating member 311 and the second rotating member 321 in a certain angle range is relatively large, which is beneficial for the wire to pass through between the first bristles 312 and the second bristles 321 and enter the clamping range of the clamping mechanism 200, and when the first rotating member 311 and the second rotating member 321 are in another angle range, the first bristles 312 and the second bristles 322 can rotate to brush up the shielding wire of the wire to the rear of the wire. Therefore, the automatic processing equipment can be designed aiming at the more flexible wire tail end processing technology.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A device for pulling a wire shielding layer is characterized by comprising a mounting base, a clamping mechanism, a first brush component and a second brush component, wherein the clamping mechanism is mounted on the mounting base;

the first brush component comprises a first rotating piece and first bristles, and the first bristles are arranged in a first angle range of the first rotating piece;

the second brush component comprises a second rotating part and second bristles, and the second bristles are arranged in a second angle range of the second rotating part;

the first brush component and the second brush component are symmetrically arranged and are positioned between the wire feeding mechanism and the clamping mechanism;

the clamping mechanism is used for clamping the wire and is matched with the wire feeding mechanism to fix the position of the wire;

the minimum distance between the first bristles and the second bristles during rotation is smaller than or equal to a first set value;

the rotating direction of the first rotating piece is opposite to that of the second rotating piece.

2. The apparatus of claim 1,

the first angle and the second angle each have a magnitude between 90 ° and 180 °.

3. The apparatus of claim 1,

the first set value is between 1 mm and 5 mm.

4. The apparatus of claim 1,

the first brush assembly further comprises a first belt wheel, and the first belt wheel is coaxially and rigidly connected with the first rotating piece;

the second brush component also comprises a second belt wheel, and the second belt wheel is coaxially and rigidly connected with the second rotating part;

the device also comprises a third belt wheel, a fourth belt wheel, a first transmission belt, a second transmission belt, a first gear, a second gear and a motor;

the third belt wheel is in transmission connection with the second belt wheel through the first transmission belt;

the fourth belt wheel is in transmission connection with the first belt wheel through the second transmission belt;

the first gear is coaxially and rigidly connected with the third belt wheel;

the second gear is coaxially and rigidly connected with the fourth belt pulley;

the first gear and the second gear have the same specification and are meshed with each other;

any one of the first gear, the second gear, the first belt pulley, the second belt pulley, the third belt pulley and the fourth belt pulley is coaxially connected with the motor to obtain power.

5. The apparatus of claim 4,

the first transmission belt and the second transmission belt are synchronous transmission belts.

6. The apparatus of claim 4,

the brake device also comprises a turntable, a brake switch triggering part and a brake switch sensor;

the brake switch triggering part and the brake switch sensor are arranged on the turntable and the mounting base respectively, and the brake switch triggering part is used for triggering the brake switch sensor to send a brake signal to the motor;

the turntable is coaxially and fixedly connected with any one of the third belt wheel, the fourth belt wheel, the first gear, the second gear and the motor.

7. The apparatus of claim 4,

the brake switch trigger part is connected with the brake switch sensor;

the brake switch triggering part and the brake switch sensor are arranged on the first transmission belt or the second transmission belt, one of the brake switch triggering part and the brake switch sensor is arranged on the mounting base, and the brake switch triggering part is used for triggering the brake switch sensor to send out a brake signal to the motor.

8. The apparatus of claim 4,

the device also comprises a first tensioning wheel, a first connecting piece, a second tensioning wheel and a second connecting piece;

the first tensioning wheel is connected with the mounting base through the first connecting piece, and the second tensioning wheel is connected with the mounting base through the second connecting piece;

the first tensioning wheel is used for tensioning the first transmission belt;

the second tensioning wheel is used for tensioning the second transmission belt.

9. The apparatus of claim 1,

the device also comprises a first gear, a second gear and a motor;

the first gear is coaxially and rigidly connected with the second rotating piece;

the second gear is coaxially and rigidly connected with the first rotating piece;

the first gear and the second gear have the same specification and are meshed with each other;

the first gear or the second gear is coaxially connected with the motor to obtain power.

10. The apparatus of claim 9,

the belt conveyor also comprises a second belt wheel, a third belt wheel and a first transmission belt;

the second belt wheel is coaxially and rigidly connected with the second rotating piece and the first gear;

the third belt wheel is in transmission connection with the second belt wheel through the first transmission belt;

any one of the first gear, the second gear, the third belt wheel and the second belt wheel is coaxially connected with the motor to obtain power.

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