CN112260159A - Automatic wiring device for electric power wire breakage - Google Patents

Abstract

The invention discloses an automatic wiring device for electric power wire breakage, which comprises a machine body, wherein a rotating mechanism is arranged in the machine body, an auxiliary mechanism is arranged in the machine body, a driving mechanism is also arranged in the machine body, the rotating mechanism comprises a working cavity arranged in the machine body, the device has simple structure and convenient operation, when the device works normally, firstly, a worker inserts two disconnected electric wires into two sides of the device respectively, then the worker places the device on a telegraph pole, the device can automatically pull in and make two electric wires taut, then the device loosens the electric wire that pulls in earlier, later with another electric wire winding together again, makes two disconnected electric wires connect together at last, has improved staff's work efficiency, has also guaranteed the life safety of staff during operation, has also reduced staff's intensity of labour simultaneously.

Description

Automatic wiring device for electric power wire breakage

Technical Field

The invention relates to the field of related design of cables, in particular to an automatic wiring device for power line breakage.

Background

After the edison generates the incandescent light bulb, in the electrical age that people enter, the cable is generally adopted for power transmission; at present, cables are generally arranged in rural areas and are transmitted by using a high-voltage frame, most of rural electricity is generally transmitted through a telegraph pole, and after electric power wires on the telegraph pole are disconnected, an electrician generally connects the electric wires in the air, but the connection process not only needs to ensure the balance of the body, but also needs to ensure that the connection of the electric wires is fixed, and the disconnection phenomenon cannot occur.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic wiring device for power wire breakage, which overcomes the problems of manually connecting broken power wires and the like and increases the functions of automatically connecting the broken power wires and the like.

The invention is realized by the following technical scheme.

The invention relates to an automatic wiring device for electric power wire breakage, which comprises a machine body, wherein a rotating mechanism is arranged in the machine body, an auxiliary mechanism is arranged in the machine body, a driving mechanism is also arranged in the machine body, the rotating mechanism comprises a working cavity arranged in the machine body, a wire placing cavity is arranged through the left cavity wall of the working cavity, an extending cavity is arranged through the right cavity wall of the working cavity, a driving cavity and a driven cavity are arranged in the lower cavity wall of the working cavity, the right cavity wall of the driven cavity and the left cavity wall of the driving cavity are rotatably connected with the same rotating rope wheel shaft, the rotating rope wheel shaft is fixedly connected with a cylindrical gear and a rotating rope wheel, the end surface of the cylindrical gear, far away from the working cavity, is fixedly connected with a torsional spring, the other end of the cylindrical gear is fixedly connected with the cavity wall of the driven cavity, a leather rope, the inner wall of the upper cavity of the stretching cavity is provided with a circular ring gear cavity which is the same as that of the upper cavity of the wire placing cavity, the inner wall of the circular ring gear cavity is provided with a rotating ring gear, the inner wall of the rotating ring gear is also provided with a telescopic ring, the inner wall of the rotating ring gear is provided with a rotating ring groove, the inner wall of the rotating ring gear is also provided with a block cavity, the inner wall of the block cavity is provided with a block spring, the lower end surface of the block is fixedly connected with the other end of the block spring and the lower cavity wall of the block cavity is fixedly connected with a rotating slide block, the right end surface of the rotating slide block is fixedly connected with a fixed rod, the other end of the rotating slide block is fixedly connected with the right cavity wall of the circular ring gear cavity, the inner wall of the lower cavity of the wire placing cavity is provided with a movable cavity which is the same as that of the lower cavity of the stretching cavity, the, lie in the compression intracavity U type case up end fixedly connected with compression spring, left side U type case up end is the long rope of fixedly connected with still, the right side U type case up end is the short rope of fixedly connected with still, runs through the inner wall rotates around the U type case and is connected with the rotation axis, rotation axis fixedly connected with single-winding-up pulley and two swiveling wheels, left side around there being the string on the single-winding-up pulley, the right side around there being the rope made of hemp on the single-winding-up pulley, the activity intracavity still is equipped with movable chuck, under the movable chuck terminal surface fixedly connected with other end with cavity wall fixed connection's movable spring under the activity chamber. Furthermore, the rotating mechanism also comprises a displacement cavity arranged in the lower cavity wall of the working cavity, the front and rear cavity walls of the displacement cavity are rotatably connected with an auxiliary shaft, the auxiliary shaft is fixedly connected with a double-rope-rolling rotating wheel, a driven belt wheel and a gear, a rack meshed with the gear is also arranged in the displacement cavity, a rope and a rubber rope are wound on the double-rope-winding rotating wheel, two telescopic fixing bodies are arranged in the upper end face of the rack, a telescopic cavity is arranged in each telescopic fixing body, a telescopic box is arranged in the telescopic cavity, a tip block is arranged in the telescopic box, the outer end face of the telescopic box is connected with the inner end face of the telescopic fixing body in a sliding way, the left end face of the center block is fixedly connected with a return spring, the other end of the return spring is fixedly connected with the left inner wall of the telescopic fixing body, the right end face of the center block on the left side is fixedly connected with the other end of the rope, and the left end face of the center block on the right side is fixedly connected with the other end of the rubber rope.

Further, the driving mechanism comprises a positive and negative motor fixedly connected with the rear cavity wall of the driving cavity, the positive and negative motor is in power connection with a plastic rope, the plastic rope is fixedly connected with a rotating gear, a leather rope and a double rope pulley, the double rope pulley is wound with the other end of the thin rope and the other end of the hemp rope in the same winding direction, the leather rope is wound with the other end of the long rope, the other end of the short rope and a pull rope, the rear cavity wall of the driving cavity is rotatably connected with a pinion shaft, the pinion shaft is fixedly connected with a pinion meshed with the rotating gear, the pinion shaft is also fixedly connected with a rope winding pulley, the other end of the leather rope and the other end of the plastic rope are wound on the rope winding pulley, the front cavity wall and the rear cavity wall of the driving cavity are rotatably connected with a driving pulley shaft, and the driving pulley shaft is fixedly connected with a driving pulley connected with the driven, the active pulley shaft is further fixedly connected with a large gear meshed with the rotating gear, a moving cavity is further formed in the machine body, a cover connected with the machine body in a hinged mode is arranged in the moving cavity, a moving box is further arranged in the moving cavity, the other end of the left end face of the moving box is fixedly connected with an elastic spring fixedly connected with the left cavity wall of the moving cavity, a fixed wire winding drum is further arranged in the moving box, the right end face of the moving box is fixedly connected with the other end of the pull rope, a push block cavity is formed in the right cavity wall of the moving cavity, a push block is arranged in the push block cavity, a thick rope is fixedly connected with the upper end face of the push block, and the other end of the right end face of the push block is fixedly connected with the push block spring fixedly.

Further, the auxiliary mechanism comprises a moving block cavity arranged in the machine body, a moving block is arranged in the moving block cavity, the other end of the front end face of the moving block is fixedly connected with a moving spring fixedly connected with the front cavity wall of the moving block cavity, the other end of the thick rope is fixedly connected with the front end face of the moving block, a fixed block is further arranged in the moving block cavity, a fixed rotating gear cavity is further arranged in the moving box, a motor is fixedly connected with the rear cavity wall of the fixed rotating gear cavity, the motor is connected with a fixed rotating shaft in power, the fixed rotating gear is fixedly connected with a fixed rotating gear, a rotating cavity is arranged in the left cavity wall of the fixed rotating gear cavity, a rotating shaft is rotatably connected with the front cavity wall and the rear cavity.

Furthermore, the elasticity of the push block spring is larger than that of the moving spring, and the rope and the rubber rope are elastic ropes.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device is at first the staff with two electric wires of disconnection respectively the both sides of inserting the device when normal work, later the staff places the device on the wire pole, then the device can be pulled in automatically and make two electric wires taut, then the device loosens the electric wire that will pull in earlier again, later again with the winding of another electric wire together, make the connection of electric wires of two disconnections together at last, the work efficiency of staff has been improved, the life safety of staff during operation has also been guaranteed, staff's intensity of labour has also been reduced simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure C-C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the structure D-D in FIG. 1 according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of structures E-E in FIG. 1 according to an embodiment of the present invention;

FIG. 7 is an enlarged view of the structure at F in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to fig. 1-7, the automatic wiring device for electric power wire breakage includes a machine body 10, a rotating mechanism 87 is disposed in the machine body 10, an auxiliary mechanism 88 is disposed in the machine body 10, a driving mechanism 89 is further disposed in the machine body 10, the rotating mechanism 87 includes a working chamber 33 disposed in the machine body 10, a wire placing chamber 14 is disposed through a left chamber wall of the working chamber 33, an extending chamber 27 is disposed through a right chamber wall of the working chamber 33, a driving chamber 34 and a driven chamber 31 are disposed in a lower chamber wall of the working chamber 33, a right chamber wall of the driven chamber 31 and a left chamber wall of the driving chamber 34 are rotatably connected to the same rotating rope wheel shaft 92, the rotating rope wheel shaft 92 is fixedly connected to a cylindrical gear 30 and a rotating rope wheel 90, the end face of the cylindrical gear 30 far from the working chamber 33 is fixedly connected to a torsion spring 91, the other end face of the, the left side is wound with a leather rope 45 on the rotating rope wheel 90, the right side is wound with a plastic rope 46 on the rotating rope wheel 90, the upper cavity wall of the extending cavity 27 is internally provided with a circular ring gear cavity 24 which is the same as that of the electric wire placing cavity 14, the circular ring gear cavity 24 is internally provided with a rotating ring gear 28, the rotating ring gear 28 is internally provided with a telescopic ring 93, the rotating ring gear 28 is internally provided with a rotating ring groove 29, the rotating ring gear 28 is internally provided with a blocking block cavity 36, the blocking block cavity 36 is internally provided with a blocking block 37, the lower end surface of the blocking block 37 is fixedly connected with a blocking block spring 35, the other end of the blocking block spring is fixedly connected with the lower cavity wall of the blocking block cavity 36, the rotating ring groove 29 is internally connected with a rotating slide block 25 in a sliding manner, the right end surface of the rotating slide block 25 is fixedly connected with a fixing rod 26, the other end of which is fixedly connected with the right cavity wall of the circular ring, the wire placing cavity 14 is provided with a compression cavity 65 on the upper wall thereof, which is the same as that of the extending cavity 27, the compression cavity 65 is internally provided with a U-shaped box 63 which is the same as the movable cavity 11, the upper end surface of the U-shaped box 63 positioned in the compression cavity 65 is fixedly connected with a compression spring 64, the upper end surface of the U-shaped box 63 at the left side is also fixedly connected with a long rope 41, the upper end surface of the U-shaped box 63 at the right side is also fixedly connected with a short rope 42, a rotating shaft 66 is rotatably connected through the front inner wall and the rear inner wall of the U-shaped box 63, the rotating shaft 66 is fixedly connected with a single rolling wheel 62 and two rotating wheels 67, the single rolling wheel 62 on the left side is wound with a thin rope 39, the single rolling wheel 62 on the right side is wound with a hemp rope 40, a movable chuck 13 is also arranged in the movable cavity 11, the lower end face of the movable chuck 13 is fixedly connected with a movable spring 12, and the other end of the movable spring is fixedly connected with the lower cavity wall of the movable cavity 11. Beneficially, the rotating mechanism 87 further comprises a displacement cavity 32 arranged in the lower cavity wall of the working cavity 33, the front cavity wall and the rear cavity wall of the displacement cavity 32 are rotatably connected with an auxiliary shaft 53, the auxiliary shaft 53 is fixedly connected with a double-rope-winding rotating wheel 51, a driven pulley 54 and a gear 55, a rack 82 meshed with the gear 55 is further arranged in the displacement cavity 32, a rope 50 and a rubber rope 52 are wound on the double-rope-winding rotating wheel 51, two telescopic fixing bodies 86 are arranged in the upper end surface of the rack 82, a telescopic cavity 81 is arranged in the telescopic fixing body 86, a telescopic box 85 is arranged in the telescopic cavity 81, a tip block 84 is arranged in the telescopic box 85, the outer end surface of the telescopic box 85 is slidably connected with the inner end surface of the telescopic fixing body 86, the left end surface of the tip block 84 is fixedly connected with a return spring 59, the other end of the return spring is fixedly connected with the left inner wall of the telescopic fixing body 86, the right end surface, the left end face of the right apex block 84 is fixedly connected with the other end of the rubber rope 52.

Advantageously, the driving mechanism 89 comprises a positive and negative motor 44 fixedly connected to the rear cavity wall of the driving cavity 34, the positive and negative motor 44 is connected to a plastic rope 46, the plastic rope 46 is fixedly connected to a rotary gear 47 and a leather rope 45, and a double rope pulley 38, the other end of the thin rope 39 and the other end of the hemp rope 40 are wound on the double rope pulley 38 in the same winding direction, the other end of the long rope 41, the other end of the short rope 42 and the pulling rope 19 are wound on the leather rope 45, a pinion shaft 48 is rotatably connected to the rear cavity wall of the driving cavity 34, the pinion shaft 48 is fixedly connected to a pinion 43 engaged with the rotary gear 47, a rope winding pulley 60 is further fixedly connected to the pinion shaft 48, the other end of the leather rope 45 and the other end of the plastic rope 46 are wound on the rope winding pulley 60, a driving pulley shaft 57 is rotatably connected to the front and rear cavity walls of the driving cavity 34, a driving pulley 58 connected to the driven pulley 54 via a belt 56 is fixedly connected to the driving pulley shaft 57, the driving pulley shaft 57 is also fixedly connected with a large gear 49 engaged with the rotating gear 47, a moving cavity 17 is further arranged in the machine body 10, a cover 18 hinged with the machine body 10 is arranged in the moving cavity 17, the moving chamber 17 is also internally provided with a moving box 16, the left end surface of the moving box 16 is fixedly connected with an elastic spring 83 the other end of which is fixedly connected with the left chamber wall of the moving chamber 17, a fixed wire reel 15 is also arranged in the moving box 16, the right end face of the moving box 16 is fixedly connected with the other end of the pull rope 19, a push block cavity 23 is arranged in the right cavity wall of the moving cavity 17, a push block 21 is arranged in the push block cavity 23, the upper end face of the push block 21 is fixedly connected with a thick rope 20, and the right end face of the push block 21 is also fixedly connected with a push block spring 22 of which the other end is fixedly connected with the right cavity wall of the push block cavity 23.

Advantageously, the auxiliary mechanism 88 comprises a mobile block chamber 69 provided in the machine body 10, a moving block 68 is arranged in the moving block cavity 69, the front end surface of the moving block 68 is fixedly connected with a moving spring 70 of which the other end is fixedly connected with the front cavity wall of the moving block cavity 69, the front end face of the moving block 68 is fixedly connected with the other end of the thick rope 20, a fixed block 72 is further arranged in the moving block cavity 69, a fixed rotating gear cavity 79 is also arranged in the moving box 16, a motor 80 is fixedly connected in the rear cavity wall of the fixed rotating gear cavity 79, the motor 80 is in power connection with a fixed rotating shaft 77, the fixed rotating shaft 77 is fixedly connected with a fixed rotating gear 78, a rotating cavity 74 is arranged in the left cavity wall of the fixed rotating gear cavity 79, the front cavity wall and the rear cavity wall of the rotating cavity 74 are rotatably connected with a rotating shaft 75, and the rotating shaft 75 is fixedly connected with an auxiliary wheel 73.

Advantageously, the pusher spring 22 has a greater elastic force than the moving spring 70, and the string 50 and the rubber string 52 are elastic strings.

Sequence of mechanical actions of the whole device: the pinion 43 and the rotating gear 47 are in a meshed state, the bull gear 49 and the rotating gear 47 are in a meshed state, the return spring 59 is in a compressed state, when the motor rotates forwards, the blocking spring 35 is in a relaxed state, and when the motor rotates backwards, the blocking spring 35 is in a strained state due to the action of centrifugal force.

1: firstly, a worker inserts two disconnected wires into the wire placing cavity 14 and the wire extending cavity 27 respectively, the wires pass through the space between the two rotating wheels 67, the forward and reverse motors 44 rotate forward, so that the plastic rope 46 rotates, the rotating gear 47, the leather rope 45 and the double rope wheel 38 are driven to rotate, the leather rope 45 rotates, the pull rope 19, the short rope 42 and the long rope 41 are in a loosening state, the long rope 41 and the short rope 42 are loosened, the U-shaped box 63 moves downwards, the wire is clamped more tightly, the wires are in friction connection with the rotating wheels 67, meanwhile, the rotating gear 47 rotates to drive the large gear 49 to rotate, the driving pulley shaft 57, the driving pulley 58, the auxiliary shaft 53, the double rope rolling wheel 51 and the gear 55 rotate, the double rope rolling wheel 51 rotates, the rope 50 and the rubber rope 52 tend to be loosened but not loosened, the gear 55 rotates to drive the rack 82 to move upwards, so that the telescopic fixing body 86 at the upper end of the rack 82 is located at the center of the device, at this time, the rope 50 and the rubber rope 52 are just loosened, and then the two apex blocks 84 move outwards, so that the wires wound together pass through the apex blocks 84 to be turned away, and meanwhile, the turned-away wire heads enter the hollow hole of the rotary ring gear 28, and meanwhile, the rotary gear 47 rotates to drive the pinion 43 to rotate, and further drive the pinion shaft 48 and the rope winding wheel 60 to rotate, and the rope winding wheel 60 rotates, so that the leather rope 45 and the plastic rope 46 are tensioned, and further, the two rotary rope wheels 90 rotate, so that the cylindrical gear 30 and the rotary ring gear 28 are driven to rotate, so that the wires wound together are rotated and untied and meanwhile the wires are pulled inwards, and more parts of the wires can be untied; 2: when the electric wire is unwound for a period, the forward and reverse motor 44 rotates reversely to enable the plastic rope 46, the rotary gear 47, the leather rope 45 and the double rope wheel 38 to rotate, the rotary gear 47 rotates to drive the pinion gear 43 to rotate, further the pinion shaft 48 and the rope wheel 60 to rotate, the rope wheel 60 rotates, further the leather rope 45 and the plastic rope 46 are loosened, further the rotary gear 28 is reset reversely under the action of the torsion spring 91, further the block 37 moves downwards, further the wound electric wire winds two electric wires together again due to the torque of the electric wire, meanwhile, the motor 80 is started, further the fixed rotating shaft 77 and the fixed rotating gear 78 are driven to rotate, further the fixed electric wire moves downwards, the electric wire is wound together with the electric wire to be recovered, meanwhile, the leather rope 45 rotates, further the pull rope 19, the long rope 41 and the short rope 42 are tensioned to enable the U-, meanwhile, the pulling rope 19 is tensioned to enable the moving box 16 to move rightwards, the fixed electric wire and the other two electric wires are moved and wound simultaneously, a layer of fixed electric wire is wound on the outer end faces of the two electric wires, when the moving box 16 moves to the rightmost end, the pushing block 21 is pressed downwards, the thick rope 20 is tensioned, the moving block 68 moves forwards, the fixed electric wires are cut off, the motor 80 is closed, the large gear 49 is driven to rotate by the rotating gear 47, the driving belt wheel shaft 57, the driving belt wheel 58, the driven belt wheel 54, the auxiliary shaft 53, the double-rope-winding rotating wheel 51 and the gear 55 are driven to rotate, the double-rope-winding rotating wheel 51 rotates, the rope 50 and the rubber rope 52 are tensioned, the two tip blocks 84 are moved inwards to reset, the gear 55 rotates reversely to drive the rack 82 to move downwards to reset, the disconnected electric wires are connected at the; 3: at this time, the worker turns the device upside down to open the device, so that the two connected wires are separated from the device, and then the device is restored, and at this time, the movable box 16 is pulled leftwards to be restored under the action of the elastic spring 83, and the work is completed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a be used for automatic termination of electric power electric wire fracture which comprises a machine body, its characterized in that: the machine body is internally provided with a rotating mechanism, the machine body is internally provided with an auxiliary mechanism, the machine body is also internally provided with a driving mechanism, the rotating mechanism comprises a working cavity arranged in the machine body, a wire placing cavity is arranged through the left cavity wall of the working cavity, an extending cavity is arranged through the right cavity wall of the working cavity, a driving cavity and a driven cavity are arranged in the lower cavity wall of the working cavity, the right cavity wall of the driven cavity and the left cavity wall of the driving cavity are rotatably connected with the same rotating rope wheel shaft, the rotating rope wheel shaft is fixedly connected with a cylindrical gear and a rotating rope wheel, the end surface of the cylindrical gear far away from the working cavity is fixedly connected with a torsional spring, the other end of the cylindrical gear is fixedly connected with the cavity wall of the driven cavity, the rotating rope wheel at the left side is wound with a leather rope, the rotating rope wheel at the right side is wound with a plastic rope, a rotating ring gear is arranged in the circular ring gear cavity, a telescopic ring is also arranged in the rotating ring gear, a rotating ring groove is arranged in the rotating ring gear, a blocking block cavity is also arranged in the rotating ring gear, a blocking block is arranged in the blocking block cavity, the lower end face of the blocking block is fixedly connected with a blocking block spring of which the other end is fixedly connected with the lower cavity wall of the blocking block cavity, a rotating slide block is connected in the rotating ring groove in a sliding manner, the right end face of the rotating slide block is fixedly connected with a fixed rod of which the other end is fixedly connected with the right cavity wall of the circular ring gear cavity, the lower cavity wall of the wire placing cavity is provided with a movable cavity which is the same as that of the lower cavity wall of the stretching cavity, the upper cavity wall of the wire placing cavity is provided with a compression cavity which is the same as that of the upper cavity of the stretching cavity, the compression cavity is internally provided with a U, the left side U type case up end is the long rope of fixedly connected with still, the right side U type case up end is the short rope of fixedly connected with still, runs through the inner wall rotates around the U type case and is connected with the rotation axis, rotation axis fixedly connected with list winding wheel and two swiveling wheels, left side it has the string, the right side to wind on the list winding wheel it has the rope made of hemp to wind on the list winding wheel, and the activity intracavity still is equipped with movable chuck, under the movable chuck terminal surface fixedly connected with other end with cavity wall fixed connection's movable spring under the activity chamber.

2. An automatic wiring device for electric wire breakage according to claim 1, characterized in that: the rotating mechanism also comprises a displacement cavity arranged in the lower cavity wall of the working cavity, the front cavity wall and the rear cavity wall of the displacement cavity are rotationally connected with an auxiliary shaft, the auxiliary shaft is fixedly connected with a double-rope-rolling rotating wheel, a driven belt wheel and a gear, a rack meshed with the gear is also arranged in the displacement cavity, the double-rope-rolling rotating wheel is wound with a rope and a rubber rope, two telescopic fixing bodies are arranged in the upper end surface of the rack, a telescopic cavity is arranged in the telescopic fixing body, a telescopic box is arranged in the telescopic cavity, a tip block is arranged in the telescopic box, the outer end face of the telescopic box is connected with the inner end face of the telescopic fixing body in a sliding mode, the other end of the left end face of the center block is fixedly connected with a reset spring fixedly connected with the left inner wall of the telescopic fixing body, the right end face of the left side of the center block is fixedly connected with the other end of the rope, and the left end face of the right side of the center block is fixedly connected with the other end of the rubber rope.

3. An automatic wiring device for electric wire breakage according to claim 1, characterized in that: the driving mechanism comprises a positive and negative motor fixedly connected with the rear cavity wall of the driving cavity, the positive and negative motor is in power connection with a plastic rope, the plastic rope is fixedly connected with a rotating gear, a leather rope and a double rope wheel, the other end of the thin rope and the other end of the hemp rope are wound on the double rope wheel in the same winding direction, the other end of the long rope, the other end of the short rope and a pull rope are wound on the leather rope, the rear cavity wall of the driving cavity is rotatably connected with a pinion shaft, the pinion shaft is fixedly connected with a pinion meshed with the rotating gear, the pinion shaft is also fixedly connected with a rope winding wheel, the other end of the leather rope and the other end of the plastic rope are wound on the rope winding wheel, the front cavity wall and the rear cavity wall of the driving cavity are rotatably connected with a driving pulley shaft, and the driving pulley shaft is fixedly connected with a driving pulley connected with, the active pulley shaft is further fixedly connected with a large gear meshed with the rotating gear, a moving cavity is further formed in the machine body, a cover connected with the machine body in a hinged mode is arranged in the moving cavity, a moving box is further arranged in the moving cavity, the other end of the left end face of the moving box is fixedly connected with an elastic spring fixedly connected with the left cavity wall of the moving cavity, a fixed wire winding drum is further arranged in the moving box, the right end face of the moving box is fixedly connected with the other end of the pull rope, a push block cavity is formed in the right cavity wall of the moving cavity, a push block is arranged in the push block cavity, a thick rope is fixedly connected with the upper end face of the push block, and the other end of the right end face of the push block is fixedly connected with the push block spring fixedly.

4. An automatic wiring device for electric wire breakage according to claim 1, characterized in that: the auxiliary mechanism is including being located the movable block chamber that is equipped with in the organism, the movable block intracavity is equipped with the movable block, the terminal surface fixedly connected with other end before the movable block with movable block chamber front chamber wall fixed connection's removal spring, terminal surface fixedly connected with before the movable block the other end of thick rope, the movable block intracavity still is equipped with the fixed block, still be equipped with fixed rotation gear chamber in the removal incasement, fixed rotation gear chamber rear chamber wall internal fixation has the motor, motor power is connected with the fixed rotating shaft, fixed rotating shaft fixedly connected with fixed rotating gear, be equipped with the rotation chamber in the fixed rotation gear chamber left side chamber wall, the chamber wall rotates around the rotation chamber and is connected with the axis of rotation, axis of rotation fixedly connected with auxiliary wheel.

5. An automatic wiring device for electric wire breakage according to claim 1, characterized in that: the elasticity of the push block spring is larger than that of the movable spring, and the rope and the rubber rope are elastic ropes.

Images