CN114784597B - Temporary butt-joint power supply device for broken line emergency line for distribution line switch - Google Patents

Abstract

The invention belongs to the technical field of power supply equipment, in particular to a temporary docking power supply device of a broken line emergency line for a distribution line switch, which comprises a base and a temporary docking power supply device arranged at the top of the base; the temporary butt joint power supply device comprises a trigger assembly, a shell, a clamping assembly, a wire assembly, a peeling assembly, a linkage clamping assembly and a power supply connecting assembly; compared with the traditional manual operation, the invention has novel design and reasonable structure, can realize the fast peeling and butt joint of the emergency line by the mutual matching of the triggering component, the clamping component, the wire component, the peeling component, the linkage clamping component and the power supply connecting component, does not need to independently disassemble the switch, then fixes the line inside the switch, effectively improves the working efficiency and has high safety, and meanwhile, the invention can also cut off the line without independently providing tools for shearing, thereby having simple overall operation, strong practicability and good use effect.

Description

Temporary butt-joint power supply device for broken line emergency line for distribution line switch

Technical Field

The application belongs to the technical field of power supply equipment, and particularly relates to a temporary butt-joint power supply device for a broken line emergency line for a distribution line switch.

Background

In daily life, the condition that often can appear leading to the circuit disconnection because of weather appears, in order to ensure people's life basic use demand, generally all lead to earlier, other follow-up parts are maintaining slowly, in the maintenance process, generally can adopt a switch as interim butt joint power supply unit to broken wire part, current switch needs to open it earlier when using, then on connecting the link of circuit in its inside, after connecting, assemble it, just calculate after the whole operation finishes to handle a circuit breakpoint, this kind of operation mode needs to carry special extracting tool and work efficiency is lower, also has certain danger simultaneously.

In order to solve the problems, the application provides a temporary butt-joint power supply device for a broken emergency line of a distribution line switch.

Disclosure of Invention

In order to solve the problems in the background technology, the application provides the temporary butt joint power supply device for the broken line emergency line for the distribution line switch, which is novel in design and reasonable in structure, compared with the traditional manual operation, the temporary butt joint power supply device for the broken line emergency line for the distribution line switch can realize the rapid peeling and butt joint of the emergency line by mutually matching the trigger assembly, the clamping assembly, the wire assembly, the peeling assembly, the linkage clamping assembly and the power supply connecting assembly, does not need to independently disassemble the switch and then fix the line in the switch, effectively improves the working efficiency and has high safety, meanwhile, the line can be cut off, does not need to be independently provided with tools for shearing, and has simple overall operation, strong practicability and good use effect.

In order to achieve the above purpose, the present invention provides the following technical solutions: the temporary butt joint power supply device for the broken line emergency line for the distribution line switch comprises a base and also comprises a temporary butt joint power supply device arranged at the top of the base;

the temporary butt joint power supply device comprises a trigger assembly, a shell, a clamping assembly, a wire assembly, a peeling assembly, a linkage clamping assembly and a power supply connecting assembly, wherein the trigger assembly is arranged at the top of the base, the shell is arranged at the top of the trigger assembly, the clamping assembly is arranged at the top of the shell and is communicated with the inside of the shell, one end of the trigger assembly penetrates through the inside of the clamping assembly and is fixedly connected with the inner wall of the clamping assembly in a clamping manner, the wire assembly, the peeling assembly and the linkage clamping assembly are sequentially arranged on the inner wall of the shell and are positioned on the outer side of the trigger assembly from bottom to top, one end of the wire assembly, the peeling assembly and one end of the linkage clamping assembly are connected with one end of the trigger assembly in a sliding manner, the power supply connecting assembly is arranged on the inner wall of the shell and is positioned on one side of the wire assembly, one end of the power supply connecting assembly is connected with one end of the trigger assembly, and the other end of the power supply connecting assembly penetrates out of the shell and is fixedly connected with the outer surface of the shell in a threaded manner.

As the temporary butt joint power supply device for the broken line emergency line for the distribution line switch, the triggering assembly comprises a supporting post, a compression spring, a triggering rod, a guide wheel seat and a lower cutting seat, wherein the supporting post is uniformly connected to the top of a base in a threaded mode, one end, far away from the top of the base, of the supporting post penetrates into the inside of the shell and is connected to the inner wall of the shell in a sliding mode, the compression spring is sleeved outside the supporting post and is positioned between the top of the base and the bottom of the shell, the triggering rod is fastened at the center of the top of the base in a bolt mode, one end of the triggering rod penetrates into the clamping assembly and is fastened to the inner wall of the clamping assembly in a clamping mode, one ends of the guide wheel seat are connected with one end of the triggering rod, symmetrical bolts of the guide wheel seat are fastened to the top of the base and are positioned on two sides of the triggering rod, one end of the guide wheel seat penetrates into the inside of the shell and is connected with one end of the power supply connecting assembly, the symmetrical bolts of the lower cutting seat are fastened to the top of the base and are positioned on the outer side of the shell, and one end, far away from the top of the base is connected to the surface of the shell in a sliding mode.

As the temporary butt joint power supply device for the broken wire emergency line for the distribution line switch, the trigger rod comprises a rod body, a tooth part, a conical part and an elastic clamping rod, wherein the rod body is fastened at the center of the top of the base through bolts, the tooth part, the conical part and the elastic clamping rod are symmetrically and sequentially arranged on the surface of the rod body from bottom to top, the tooth part and the conical part are integrally formed and arranged with the rod body, the elastic clamping rod is slidably connected to the inner wall of the rod body, one end of the rod body, which is far away from the top of the base, penetrates through the inside of the clamping assembly and is fixedly clamped in the inner wall of the clamping assembly through the elastic clamping rod, the tooth part and the conical part are both positioned in the shell, the tooth part corresponds to one end of the wire assembly and the peeling assembly and is in meshed connection, the conical part corresponds to one end of the linkage clamping assembly and is slidably connected with one end of the linkage clamping assembly, and one end, which is far away from the conical part, of the linkage clamping assembly is slidably connected to the inner wall of one end, which is far away from the tooth part, of the peeling assembly.

The shell comprises a protecting shell, a feeding hole, an upper cutting seat, a limiting sliding groove, a strip-shaped through groove and a threaded hole seat, wherein the protecting shell is arranged at the top of a compression spring and is connected to the outer surface of a supporting post in a sliding mode, the feeding hole is symmetrically formed in the surface of the protecting shell and is communicated with the inside of the protecting shell, the feeding hole is corresponding to one end of a wire assembly in position and is communicated with the protecting shell, the upper cutting seat is symmetrically fastened on the surface of the protecting shell and is positioned on one side of the feeding hole through bolts, the limiting sliding groove is symmetrically formed in the surface of the protecting shell and is positioned on the other side of the feeding hole, one end of the strip-shaped through groove is arranged on the same vertical line, one end of the lower cutting seat, far away from the top of the base, is connected to the inner wall of the limiting sliding groove and is attached to the bottom of the upper cutting seat, the strip-shaped through groove is formed on the surface of the protecting shell and corresponds to one end of a power supply connecting assembly, the threaded hole seat is fastened on the surface of the protecting shell and is positioned on one side of the top of the strip-shaped through groove, one end of the power supply connecting assembly penetrates through the outer part of the through groove and is connected to the inner wall of the strip-shaped through groove, and penetrates through the strip-shaped through the threaded groove is connected to the outer wall of the strip-shaped through groove.

As the temporary butt joint power supply device for the broken line emergency line for the distribution line switch, the clamping assembly comprises a handle, a clamping through pipe and a clamping hole, wherein the handle is fastened on the top of the protective shell and corresponds to the position of the rod body, the clamping through pipe is fastened on the surface of the handle and is communicated with the interior of the protective shell, the clamping hole is symmetrically formed on the surface of the clamping through pipe and corresponds to the position of the elastic clamping rod, and one end of the rod body penetrates into the clamping through pipe and is clamped and fixed on the inner wall of the clamping hole through the elastic clamping rod.

The wire assembly comprises a first mounting base, a first connecting gear, a second mounting base, a driving wheel, a first transmission gear, a first transmission belt, a driven wheel, an inlet tube seat, a support tube seat and a first positioning block, wherein the first mounting base is symmetrically fastened on the inner wall of a protective shell through a first transmission belt and is positioned on the outer side of a rod body, the first connecting gear is rotatably connected on the inner wall of the first mounting base and corresponds to the tooth position, the first connecting gear is meshed with the tooth part and is connected with the inner wall of the protective shell through a second mounting base, the second mounting base is symmetrically fastened on one side of the first mounting base through a bolt, the driving wheel is rotatably connected on the inner wall of the second mounting base, one end of the first connecting gear and one end of the driving wheel respectively penetrate through the first mounting base and the outer side of the second mounting base and are fixedly connected with the first transmission gear, the two groups of the first transmission gears are symmetrically and rotatably connected on the inner wall of the protective shell through the first transmission belt and are positioned on one side of the driving wheel, the inlet tube seat and the support tube seat are symmetrically fastened on the inner wall of the protective shell, the inlet tube seat and the support tube seat are positioned on the two sides of the same side of the protective shell, and the support tube seat is positioned on the inner wall and opposite sides of the inner wall of the support tube seat and the support tube seat is positioned on the inner side of the support and the support seat and the support tube seat.

As the power supply device for temporary butt joint of the wire cutting emergency circuit for the distribution circuit switch, the peeling assembly comprises a third installation base, a second connecting gear, a fourth installation base, a third connecting gear, a second transmission belt, a fourth connecting gear, a first sliding base, a first toothed bar, a wire stripper and a second positioning block, wherein the third installation base is symmetrically fastened on the inner wall of a protective housing by bolts and positioned at one side of the first installation base, the second connecting gear is rotatably connected on the inner wall of the third installation base and corresponds to the position of a tooth part, the second connecting gear is meshed with the tooth part, the fourth installation base is symmetrically fastened on the inner wall of the protective housing and positioned at one side of the third installation base by bolts, the third connecting gear is rotatably connected on the inner wall of the fourth installation base, one end of the second connecting gear and one end of the third connecting gear respectively penetrate through the third installation base and the outer part of the fourth installation base and are fixedly connected with the second transmission gear, the two groups of the second transmission gears are arranged in the same direction and are connected through the second transmission belt, the fourth connecting gear is rotatably connected on the inner wall of the fourth connecting gear and rotatably connected on one side of the toothed bar, the first toothed bar is rotatably connected on one side of the inner wall of the protective housing by bolts, the second toothed bar is rotatably connected on one side of the second end of the fourth connecting gear is correspondingly positioned at one side of the inner wall of the fourth installation base, and is in a sliding position of the same side, one side surface of the second locating block far away from the first toothed bar is attached to one side surface of the first locating block far away from the support tube seat, and one end of the linkage clamping assembly far away from the conical part penetrates out of the wire stripper and is slidably connected to the inner wall of the second locating block.

As the temporary butt joint power supply device for the broken wire emergency line for the distribution line switch, the linkage clamping assembly comprises a second sliding base, a second toothed bar, a conical end and an extrusion end, wherein the second sliding base is symmetrically fastened on the inner wall of a protective shell through bolts and is positioned on one side of the first sliding base, the second toothed bar is slidably connected on the inner wall of the second sliding base, the conical end and the extrusion end are respectively arranged on the outer surfaces of two ends of the second toothed bar, the conical end is arranged on the outer surface of one end of the second toothed bar, which is close to the conical part, and corresponds to the position of the conical part, the conical end is slidably connected on the surface of the conical part and is matched with the outline dimension of the conical part, the extrusion end is arranged on the outer surface of one end of the second toothed bar, which is close to the wire stripper, and one end of the extrusion end penetrates out of the wire stripper and is slidably connected on the inner wall of the second positioning block.

The invention relates to a power supply device for temporary butt joint of a broken line emergency line for a distribution line switch, which is preferable, the power supply connecting assembly comprises a fifth mounting base, a sliding rod, an electric connection end, a guide wheel, a third positioning block, a reset spring, a fixed clamping seat, an electrified sliding frame, an internal electric connection end and a fixed screw rod, wherein the fifth mounting base is symmetrically fastened on the inner wall of a protective shell and positioned on one side of the first positioning block by bolts, the sliding rod is slidably connected on the inner wall of the fifth mounting base, the electric connection end is in threaded connection with the outer surface of one end of the sliding rod, the guide wheel is rotatably connected on the outer surface of one end of the sliding rod, which is far away from the electric connection end, one end of the guide wheel is slidably connected on the inner wall of one end of the guide wheel, which penetrates into a shell, the third positioning block is symmetrically fastened on the inner wall of the protective shell and positioned on one side of the fifth mounting base by bolts, the reset spring is symmetrically connected between the third positioning block and the outer surface of one end of the sliding rod, the fixed clamping seat is symmetrically fastened on the inner wall of the protective shell and positioned on the other side of the first positioning block, the electric connection end of the guide wheel is correspondingly connected with the fixed clamping seat and slidably connected on the inner wall, the electric connection end of the bar-shaped inner wall is connected on the inner wall of the protective shell and penetrates out of the electric connection groove, and the electric connection end of the electric connection groove is arranged on the inner side of the inner wall, and penetrates out of the electric connection groove.

As the temporary butt joint power supply device for the broken line emergency line for the distribution line switch, the invention is preferable, through holes are formed on the surfaces of the first positioning block and the second positioning block, the through holes on the surface of the first positioning block, the through holes on the surface of the second positioning block, the feeding hole, the inlet tube seat and the supporting tube seat are all positioned on the same axis, an extrusion groove and an inclined extrusion part are respectively arranged at the positions of the surface of the second positioning block and the wire stripper corresponding to the extrusion end, the inclined extrusion part is connected on the inner wall of the extrusion groove in a sliding manner and is matched with the external dimension of the extrusion groove, a clamping groove is formed on the surface of the power connection end, and the clamping groove is positioned on the same horizontal line with the through hole.

Compared with the prior art, the invention has the beneficial effects that: compared with the traditional manual operation, the invention has novel design and reasonable structure, can realize the fast peeling and butt joint of the emergency line by the mutual matching of the triggering component, the clamping component, the wire component, the peeling component, the linkage clamping component and the power supply connecting component, does not need to independently disassemble the switch, then fixes the line inside the switch, effectively improves the working efficiency and has high safety, and meanwhile, the invention can also cut off the line without independently providing tools for shearing, thereby having simple overall operation, strong practicability and good use effect.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a schematic diagram of a temporary docking power supply in the present invention;

FIG. 3 is a schematic diagram of a trigger assembly according to the present invention;

FIG. 4 is a schematic view of a structure of a clamping assembly according to the present invention;

FIG. 5 is a schematic diagram of a wire assembly according to the present invention;

FIG. 6 is a schematic view of the stripping assembly of the present invention;

FIG. 7 is a schematic view of a linkage clamping assembly according to the present invention;

fig. 8 is a schematic structural diagram of a power supply connection assembly in the present invention.

In the figure:

1. a base;

2. temporarily butting a power supply device;

21. a trigger assembly; 211. a support post; 212. a compression spring; 213. a trigger lever; 2131. a rod body; 2132. tooth parts; 2133. a tapered portion; 2134. an elastic clamping rod; 214. a guide wheel seat; 215. a lower cutting seat;

22. a housing; 221. a protective shell; 222. a feeding hole; 223. a cutting seat is arranged on the upper part; 224. limiting sliding grooves; 225. a strip-shaped through groove; 226. a threaded hole seat;

23. a clamping assembly; 231. a handle; 232. clamping the through pipe; 233. a clamping hole;

24. A wire assembly; 241. a first mounting base; 242. a first connecting gear; 243. a second mounting base; 244. a driving wheel; 245. a first transmission gear; 246. a first belt; 247. a driven wheel; 248. an inlet tube seat; 249. a support tube seat; 2410. a first positioning block;

25. a peeling assembly; 251. a third mounting base; 252. a second connecting gear; 253. a fourth mounting base; 254. a third connecting gear; 255. a second transmission gear; 256. a second belt; 257. a fourth connecting gear; 258. a first slide base; 259. a first toothed bar; 2510. wire stripper; 2511. a second positioning block;

26. a linkage clamping assembly; 261. a second slide base; 262. a second toothed bar; 263. a tapered end; 264. an extrusion end;

27. a power supply connection assembly; 271. a fifth mounting base; 272. a slide bar; 273. an electric terminal; 274. a guide wheel; 275. a third positioning block; 276. a return spring; 277. a fixing clamping seat; 278. energizing the carriage; 279. built-in electric connection end; 2710. a fixed screw;

100. a through hole; 200. an extrusion groove; 300. an inclined extrusion part; 400. a clamping groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Please refer to fig. 1-8;

the temporary butt joint power supply device for the broken emergency line for the distribution line switch comprises a base 1 and also comprises a temporary butt joint power supply device 2 arranged at the top of the base 1;

the temporary butt joint power supply device 2 comprises a trigger assembly 21, a shell 22, a clamping assembly 23, a wire assembly 24, a peeling assembly 25, a linkage clamping assembly 26 and a power supply connecting assembly 27, wherein the trigger assembly 21 is arranged at the top of the base 1, the shell 22 is arranged at the top of the trigger assembly 21, the clamping assembly 23 is arranged at the top of the shell 22 and is communicated with the inside of the shell 22, one end of the trigger assembly 21 penetrates through the inside of the clamping assembly 23 and is fixedly clamped on the inner wall of the clamping assembly 23, the wire assembly 24, the peeling assembly 25 and the linkage clamping assembly 26 are sequentially arranged on the inner wall of the shell 22 from bottom to top and are positioned on the outer side of the trigger assembly 21, one end of the wire assembly 24, the peeling assembly 25 and one end of the linkage clamping assembly 26 are connected with one end of the trigger assembly 21 in a sliding manner, the power supply connecting assembly 27 is arranged on the inner wall of the shell 22 and is positioned on one side of the wire assembly 24, and one end of the power supply connecting assembly 27 is connected with one end of the trigger assembly 21 in a penetrating out of the shell 22 and is fixedly screwed with the outer surface of the shell 22.

In this embodiment: before use, two groups of line broken ends are inserted into the inlet pipe seat 248 through the feeding hole 222, and are continuously pushed inwards to move into the wire grooves on the surface of the driven wheel 247 and are attached to the surface of the driving wheel 244, after placement, the shell 22 is pressed down through the handle 231, the shell 22 descends to synchronously drive the first mounting base 241 to descend, and in the descending process, the first connecting gear 242 on the inner wall of the shell is meshed with the tooth part 2132 on the trigger rod 213 to synchronously drive the first connecting gear 242 to rotate, the first connecting gear 242 rotates to synchronously drive the first transmission gear 245 to rotate, the first transmission gear 245 rotates to synchronously drive the driving wheel 244 to rotate through the first transmission belt 246, the line in the inlet pipe seat 248 is continuously conveyed to the inside of the shell 22 through the mutual matching with the driven wheel 247, and sequentially passes through the supporting pipe seat 249, the through hole 100 of the first positioning block 2410 and the through hole 100 of the second positioning block 2511, and moves the wire-cutting end to the side of the wire stripper 2510, when the wire-cutting end moves to the side of the wire stripper 2510 to a set distance, the first connecting gear 242 moves along with the descending and synchronously separates from the tooth 2132 on the trigger rod 213, and does not mesh with the tooth so as to stop rotating along with the first connecting gear 242, the rotation of the rotation linkage driving wheel 244 stops, so that the wire is continuously conveyed into the shell 22, the conical end 263 also descends along with the shell 22 and contacts with the surface of the conical part 2133, and is in sliding connection, the conical end 263 starts to move towards the side of the wire stripper 2510 under the extrusion of the conical part 2133 along with the continuous descending of the shell 22, the movement of the conical end 263 synchronously drives the second tooth 262 to move towards the side of the wire stripper 2510 in the second sliding base 261, and synchronously drives the extrusion end 264 to move towards the side of the wire stripper 2510, when the extrusion end 264 moves to the inside of the extrusion groove 200 on the surface of the wire stripper 2510, the inclined extrusion part 300 on the extrusion end 264 extrudes the extrusion groove 200 and synchronously drives one end of the wire stripper 2510 to shrink inwards, so that the other end is synchronously driven to shrink inwards and clamp a line, and the surface of the line is split, so that the separation of the surface of the line is facilitated, when the wire stripper 2510 clamps the surface of the line and performs the splitting operation, the tapered end 263 moves to the vertical section of the tapered part 2133 along with the continuous descent, so that the position of the tapered end 263 is fixed, the linked extrusion end 264 does not move towards one side of the wire stripper 2510 continuously, at the same time, the inclined part in the inclined extrusion part 300 on the extrusion end 264 penetrates out of the extrusion groove 200 and changes to be a flat part at the joint of the inclined extrusion groove, so that the linked wire stripper 2510 clamps the line, and the shell 22 continuously descends, and when the wire stripper 2510 clamps the surface of the line and performs the splitting operation, the third mounting base 251 also descends synchronously with the housing 22, and during the descent, the second connecting gear 252 on the inner wall thereof engages with the tooth portion 2132 on the trigger lever 213 to synchronously drive the second connecting gear 252 to rotate, the second connecting gear 252 rotates to synchronously drive the second transmission gear 255 to rotate, the second transmission gear 255 rotates to synchronously drive the third connecting gear 254 through the second transmission belt 256, the third connecting gear 254 rotates to synchronously drive the fourth connecting gear 257 engaged therewith to rotate, the fourth connecting gear 257 rotates to synchronously drive the first tooth bar 259 engaged therewith to move toward the third mounting base 251 side on the inner wall of the first sliding base 258, the movement of the first tooth bar 259 synchronously drives the movement of the wire stripper 2510 to move along the straight portion in the diagonal-shaped pressing portion 300, since the driving wheel 244 is provided at the line inlet, the wire is conveyed and fixed by matching with the driven wheel 247, the clamping force between the driving wheel 244 and the driven wheel 247 is larger than the drawing force of the wire stripper 2510 for stripping the surface, so when the wire stripper 2510 moves, the wire stripper 2510 only drives the surface of the wire stripper to move so as to carry out stripping operation, meanwhile, the first tooth bar 259 moves synchronously to drive the second positioning block 2511 to move, the second positioning block 2511 does not stick to the surface of the first positioning block 2410 after moving, thereby a gap convenient for the movement of the power receiving end 273 is left, when the second connecting gear 252 is separated from the tooth 2132 on the trigger bar 213, the wire stripper 2510 and the second positioning block 2511 also stop moving, the gap between the first positioning block 2410 and the second positioning block 2511 is matched with the size of the power receiving end 273, then the shell 22 continues to descend, the guide wheel 274 descends along with the guide wheel seat 214 and contacts with the inner wall of one end penetrating into the shell 22, and as the guide wheel seat 214 is cone-shaped, along with the continuous descending of the shell 22, the guide wheel 274 moves towards one side of the circuit under the extrusion of the guide wheel seat 214, the guide wheel 274 moves synchronously to drive the slide rod 272 to move, the slide rod 272 moves synchronously to drive the electric connection end 273 to move, the electric connection end 273 contacts with the peeled circuit in the moving process and clamps the circuit on the inner wall of the clamping groove 400 on the surface of the electric connection end 273, along with the continuous movement of the electric connection end 273, the circuit in the through hole 100 of the second positioning block 2511 is completely extracted and extruded to the inner wall of the clamping groove 400, and along with the movement of the electric connection end 273 slides on the inner wall of the clamping groove 400 until the electric connection end 273 completely moves into the fixed clamping seat 277, the peeled circuit stops moving inside the clamping groove 400, and at the same time, the guide wheel 274 also moves from the top of the guide groove to the bottom of the guide groove on the surface of the guide wheel seat 214 so as to limit and stop displacement, the elastic clamping rod 2134 at the top of the rod 2131 is also just clamped and fixed on the inner wall of the lowermost group of clamping holes 233 of the clamping through pipe 232, so that the height of the shell 22 is fixed, after the shell 22 is fixed in height, the energizing carriage 278 is pushed to pass through one end of the strip-shaped through groove 225 to integrally push the energizing carriage 278 to move upwards, the energizing carriage 278 moves upwards synchronously to drive the built-in power-on end 279 to move upwards, when one end of the built-in power-on end 279 passes through the outside of the fixed clamping seat 277 and is connected with the inner wall of the power-on end 273 in a sliding manner, the circuit, the power-on end 273 and the built-in power-on end 279 are connected with electricity conduction, meanwhile, one end of the energizing carriage 278 which passes through the strip-shaped through groove 225 also just moves from the bottom of the strip-shaped through groove 225 to the top of the strip-shaped through groove 225, the power-on sliding frame 278 is then screwed and fixed with the threaded hole seat 226 at one side of the top of the strip-shaped through groove 225 through the fixing screw 2710, the operation is the quick peeling and butt joint of the broken ends of the line, the switch is not required to be independently disassembled, then the line is fixed in the switch, the working efficiency is effectively improved, the safety is high, meanwhile, the upper cutting seat 223 and the lower cutting seat 215 are also arranged, the line cutting operation can be carried out through the mutual matching of the upper cutting seat 223 and the lower cutting seat 215, the cutting operation of the line is not required to be independently provided with tools, during the use, the elastic clamping rod 2134 is extruded, the elastic clamping rod 2134 is retracted into the clamping pipe 232 again, then the shell 22 is continuously pressed down, the upper cutting seat 223 is driven to synchronously descend until contacting with the top of the lower cutting seat 215, the line is cut, when the upper cutting seat 223 contacts with the lower cutting seat 215, the elastic clamping rod 2134 is just clamped and fixed with the uppermost row of clamping holes 233, the whole operation is simple, the practicability is strong and the use effect is good.

Further, the method comprises the following steps:

in an alternative embodiment: the trigger assembly 21 comprises a supporting post 211, a compression spring 212, a trigger rod 213, a guide wheel seat 214 and a lower cutting seat 215, wherein the supporting post 211 is uniformly and threadedly connected to the top of the base 1, one end of the supporting post 211, which is far away from the top of the base 1, penetrates into the shell 22 and is slidingly connected to the inner wall of the shell 22, the compression spring 212 is sleeved outside the supporting post 211 and is positioned between the top of the base 1 and the bottom of the shell 22, the trigger rod 213 is fastened at the center of the top of the base 1, one end of the trigger rod 213 penetrates into the clamping assembly 23 and is fixedly clamped on the inner wall of the clamping assembly 23, one ends of the wire assembly 24, the peeling assembly 25 and the linkage clamping assembly 26 are connected with one end of the trigger rod 213, the guide wheel seat 214 is symmetrically fastened on the top of the base 1 and is positioned on two sides of the trigger rod 213, one end of the guide wheel seat 214 penetrates into the inside the shell 22 and is connected with one end of the power supply connection assembly 27, the lower cutting seat 215 is symmetrically fastened on the top of the base 1 and is positioned outside the shell 22, and one end of the lower cutting seat 215, which is far away from the top of the base 1 is slidingly connected to the surface of the shell 22.

In this embodiment, the following description is given of the present invention. When the trigger assembly 21 is used, the shell 22 can be supported to a certain extent through the mutual matching of the supporting post rod 211 and the compression spring 212, the trigger assembly 23, the wire assembly 24, the peeling assembly 25 and the linkage clamping assembly 26 can be respectively triggered to operate through the trigger rod 213, the power supply connecting assembly 27 can be triggered to operate through the guide wheel seat 214, the cutting operation can be carried out on a line through the mutual matching of the lower cutting seat 215 and the upper cutting seat 223, and the trigger assembly is simple in overall operation, strong in practicability and good in use effect.

Still further, the method comprises:

in an alternative embodiment: the trigger rod 213 comprises a rod 2131, a tooth 2132, a cone 2133 and an elastic clamping rod 2134, wherein the rod 2131 is fastened at the center of the top of the base 1 by bolts, the tooth 2132, the cone 2133 and the elastic clamping rod 2134 are symmetrically and sequentially arranged on the surface of the rod 2131 from bottom to top, the tooth 2132 and the cone 2133 are integrally formed with the rod 2131, the elastic clamping rod 2134 is slidably connected with the inner wall of the rod 2131, one end of the rod 2131 far away from the top of the base 1 penetrates into the clamping assembly 23 and is fixedly clamped on the inner wall of the clamping assembly 23 by the elastic clamping rod 2134, the tooth 2132 and the cone 2133 are both positioned in the shell 22, the tooth 2132 corresponds to one end of the wire assembly 24 and the peeling assembly 25 in a meshed connection, the cone 2133 corresponds to one end of the linkage clamping assembly 26 in a sliding connection, and one end of the linkage clamping assembly 26 far away from the cone 2133 is slidably connected with one end inner wall of the peeling assembly 25 far away from the tooth 2132.

In this embodiment, the following description is given of the present invention. The tapered portion 2133 includes a sloped section and a vertical section, when the tapered end 263 contacts the sloped section, the tapered end 263 will move to one side under the extrusion of the sloped section and simultaneously drive one end of the stripper 2510 to shrink inwards, and when the tapered end 263 contacts the vertical section, the position of the tapered end 263 is kept unchanged, thereby ensuring that the clamping force of the stripper 2510 is fixed.

In this embodiment, the following description is given of the present invention. Further explain the structure and the relation of connection of trigger lever 213, during the use, be convenient for drive wire subassembly 24 and skinning subassembly 25 operation in succession through setting up tooth portion 2132, be convenient for drive linkage clamp assembly 26 operation through setting up toper portion 2133 to linkage skinning subassembly 25 further moves, is convenient for fix the casing 22 height from the realization through setting up elasticity bayonet rod 2134 cooperation with joint subassembly 23, and overall operation is simple, and the practicality is strong and excellent in use effect.

Still further, the method comprises:

in an alternative embodiment: the shell 22 comprises a protecting shell 221, a feeding hole 222, an upper cutting seat 223, a limiting sliding groove 224, a strip-shaped through groove 225 and a threaded hole seat 226, wherein the protecting shell 221 is arranged at the top of the compression spring 212 and is slidably connected to the outer surface of the supporting post 211, the feeding hole 222 is symmetrically arranged on the surface of the protecting shell 221 and is communicated with the inside of the protecting shell 221, the feeding hole 222 is corresponding to one end of the wire assembly 24 and is communicated with the position of the wire assembly 24, the upper cutting seat 223 is symmetrically fastened on the surface of the protecting shell 221 and is positioned on one side of the feeding hole 222, the limiting sliding groove 224 is symmetrically arranged on the surface of the protecting shell 221 and is positioned on the other side of the feeding hole 222, the upper cutting seat 223, the feeding hole 222, the limiting sliding groove 224 and the lower cutting seat 215 are all positioned on the same vertical line, one end of the lower cutting seat 215 far away from the top of the base 1 is slidably connected to the inner wall of the limiting sliding groove 224 and is attached to the bottom of the upper cutting seat 223, the strip-shaped through groove 225 is arranged on the surface of the protecting shell 221 and corresponds to one end position of the power supply connecting assembly 27, the threaded hole seat 226 is fastened on one side of the top of the strip-shaped through groove 225, one end of the power supply connecting assembly 27 penetrates out of the through the outside of the through groove 225 and is slidably connected to the outside of the threaded hole 225.

In this embodiment, the following description is given of the present invention. Further explain the structure and the relation of connection of casing 22, during the use, pan feeding hole 222 design is convenient for the circuit insert, cuts out the operation through last cutting out seat 223, spacing spout 224 and lower cutting out seat 215 mutually supporting and can carry out the circuit, is convenient for promote circular telegram balladeur train 278 through the cooperation of bar logical groove 225 and screw hole seat 226 mutually supporting and carries out electrically conductive operation and fix its position, prevents to connect and leads to the outage from time to time, and overall operation is simple, and the practicality is strong and excellent in use effect.

Still further, the method comprises:

in an alternative embodiment: the clamping assembly 23 comprises a handle 231, a clamping through pipe 232 and a clamping hole 233, wherein the handle 231 is fastened on the top of the protective shell 221 by bolts and corresponds to the rod 2131 in position, the clamping through pipe 232 is fastened on the surface of the handle 231 by bolts and is communicated with the interior of the protective shell 221, the clamping hole 233 is symmetrically formed in the surface of the clamping through pipe 232 and corresponds to the elastic clamping rod 2134 in position, and one end of the rod 2131 penetrates into the clamping through pipe 232 and is clamped and fixed on the inner wall of the clamping hole 233 by the elastic clamping rod 2134.

In this embodiment, the following description is given of the present invention. The elastic clamping rod 2134 comprises a clamping rod and a spring, wherein a rod hole is formed in the surface of the rod 2131 corresponding to the position of the clamping rod, one end of the clamping rod is slidably connected with the inner wall of the rod hole, and the spring is connected between the clamping rod and the inner wall of the rod hole.

In this embodiment, the following description is given of the present invention. The clamping holes 233 are provided with two rows, when the electric connection end 273 moves to the inner wall of the fixed clamping seat 277, the elastic clamping rod 2134 is clamped and fixed with the inner wall of the lowermost group of clamping holes 233, and when the lower cutting seat 215 contacts with the upper cutting seat 223 to cut off a line, the elastic clamping rod 2134 is clamped and fixed with the inner wall of the uppermost group of clamping holes 233.

In this embodiment, the following description is given of the present invention. Further explain joint assembly 23's structure and relation of connection, during the use, the casing 22 is convenient for push down in the handle 231 design, joint siphunculus 232 and draw-in hole 233 design are convenient for cooperate with body of rod 2131 and elasticity card pole 2134 to be convenient for fix casing 22 height, whole easy operation, the practicality is strong and excellent in use effect.

Still further, the method comprises:

in an alternative embodiment: the wire assembly 24 includes a first mounting base 241, a first connecting gear 242, a second mounting base 243, a driving wheel 244, a first driving gear 245, a first driving belt 246, a driven wheel 247, an inlet tube seat 248, a supporting tube seat 249 and a first positioning block 2410, wherein the first mounting base 241 is symmetrically fastened on the inner wall of the protective shell 221 and is located on the outer side of the rod body 2131, the first connecting gear 242 is rotationally connected on the inner wall of the first mounting base 241 and corresponds to the tooth portion 2132, the first connecting gear 242 is meshed with the tooth portion 2132, the second mounting base 243 is symmetrically fastened on the inner wall of the protective shell 221 and is located on one side of the first mounting base 241, the driving wheel 244 is rotationally connected on the inner wall of the second mounting base 243, one end of the first connecting gear 242 and one end of the driving wheel 244 respectively penetrates out of the first mounting base 241 and the second mounting base 243 and is fixedly connected with the first driving gear 245, two groups of the first driving gears 245 are arranged in the same direction and are connected through the first driving belt 246, the driven wheel tube seat 247 is symmetrically rotationally connected on the inner wall of the protective shell 221 and is located on one side of the driving wheel 244, the inlet 248 is respectively located on the inner wall of the opposite side of the supporting tube seat 248 and is located on the inner wall of the opposite side of the support tube seat 248 and is located on the inner side of the opposite to the inner wall of the support hole 222 and is located on the opposite side of the inner support hole 222 and is located on the inner side of the opposite side of the inner side of the support hole, corresponding support 248, and is located on the inner support 248, and is located opposite side, and is located on the opposite side, and is located opposite end, and is opposite to the support material, and is located on the support material, and support material.

In this embodiment, the following description is given of the present invention. The driving wheel 244 is matched with the driven wheel 247, a wire slot (not shown in the figure) is formed in the surface of the driven wheel 247, and the driving wheel 244 is connected to the inner wall of the wire slot (not shown in the figure) in a sliding manner.

In this embodiment, the following description is given of the present invention. When the wire assembly 24 is used, the shell 22 descends to synchronously drive the first mounting base 241 to descend, and in the descending process, the first connecting gear 242 on the inner wall of the shell is meshed with the tooth part 2132 on the trigger rod 213 to synchronously drive the first connecting gear 242 to rotate, the first connecting gear 242 rotates to synchronously drive the first transmission gear 245 to rotate, the first transmission gear 245 rotates to synchronously drive the driving wheel 244 through the first transmission belt 246, and the driving wheel 244 rotates to sequentially convey a circuit which is removed from the inlet tube seat 248 to the inside of the through hole 100 of the support tube seat 249 and the first positioning block 2410 through mutual matching with the driven wheel 247.

Still further, the method comprises:

in an alternative embodiment: the peeling assembly 25 comprises a third mounting base 251, a second connecting gear 252, a fourth mounting base 253, a third connecting gear 254, a second transmission gear 255, a second transmission belt 256, a fourth connecting gear 257, a first sliding base 258, a first toothed bar 259, a wire stripper 2510 and a second positioning block 2511, wherein the third mounting base 251 is symmetrically fastened on the inner wall of the protective shell 221 and is positioned on one side of the first mounting base 241 by bolts, the second connecting gear 252 is rotatably connected on the inner wall of the third mounting base 251 and corresponds to the tooth 2132, the second connecting gear 252 is meshed with the tooth 2132, the fourth mounting base 253 is symmetrically fastened on the inner wall of the protective shell 221 and is positioned on one side of the third mounting base 251, the third connecting gear 254 is rotatably connected on the inner wall of the fourth mounting base 253, one end of the second connecting gear 252 and one end of the third connecting gear 254 respectively penetrates out of the third mounting base 251 and the fourth mounting base 253 and is fixedly connected with the second transmission gear 255, the two groups of second transmission gears 255 are arranged in the same direction and connected through a second transmission belt 256, a fourth connecting gear 257 is symmetrically and rotationally connected on the inner wall of the protective shell 221 and positioned on one side of the third connecting gear 254, the fourth connecting gear 257 is correspondingly positioned and meshed with the third connecting gear 254, a first sliding base 258 is symmetrically fastened on the inner wall of the protective shell 221 and positioned on one side of the fourth connecting gear 257 by a bolt, a first toothed bar 259 is slidingly connected on the inner wall of the first sliding base 258, one end of the first toothed bar 259 is correspondingly positioned and meshed with the fourth connecting gear 257 and is rotationally connected with a wire stripper 2510 at the other end, a second positioning block 2511 is fixedly connected on one end surface of the first toothed bar 259 and positioned on one side of the wire stripper 2510, one side surface of the second positioning block 2511 away from the first toothed bar 259 is attached on one side surface of the first positioning block 2410 away from the support tube seat 249, the end of the ganged clamping assembly 26 remote from the tapered portion 2133 extends out of the stripper 2510 and is slidably attached to the inner wall of the second locating block 2511.

In this embodiment, the following description is given of the present invention. The bottom of the shell 22 is provided with a discharge outlet for conveniently withdrawing the peeled epidermis.

In this embodiment, the following description is given of the present invention. The first rack 259 is provided with teeth at positions corresponding to the positions of the fourth connecting gear 257.

In this embodiment, the following description is given of the present invention. A limiting rod is arranged on the surface of the second positioning block 2511 at a position corresponding to the position of the wire stripper 2510.

In this embodiment, the following description is given of the present invention. When the peeling assembly 25 is used, when one end of the extrusion end 264 moves into the extrusion groove 200 on the surface of the wire stripper 2510, the inclined extrusion part 300 on the extrusion end 264 extrudes the extrusion groove 200 and synchronously drives one end of the wire stripper 2510 to shrink inwards, thereby synchronously driving the other end to shrink inwards and clamp a line and perform a cutting operation on the surface of the line, then the shell 22 descends and synchronously drives the third mounting base 251 to descend, and in the descending process, the second connecting gear 252 on the inner wall of the shell is meshed with the tooth part 2132 on the trigger rod 213 so as to synchronously drive the second connecting gear 252 to rotate, the second connecting gear 252 synchronously drives the second transmission gear 255 to rotate, the second transmission gear 255 synchronously drives the third connecting gear 254 to rotate through the second transmission belt 256, the third connecting gear 254 synchronously drives the fourth connecting gear 257 in meshed connection with the third connecting gear 254 to rotate, the fourth connecting gear 257 rotates to synchronously drive the first toothed bar 259 which is meshed with the fourth connecting gear 257 to move towards the side of the third mounting base 251 on the inner wall of the first sliding base 258, the first toothed bar 259 synchronously drives the wire stripper 2510 to move, the driving wheel 244 is arranged at the line inlet and is matched with the driven wheel 247 to convey and fix the line, the clamping force between the driving wheel 244 and the driven wheel 247 is larger than the skin peeling force of the wire stripper 2510, so that when the wire stripper 2510 moves, the line inner core cannot move, the wire stripper 2510 only drives the skin on the surface to move so as to perform peeling operation, meanwhile, the first toothed bar 259 synchronously drives the second positioning block 2511 to move, the second positioning block 2511 does not fit with the surface of the first positioning block 2410 after moving, thereby a gap convenient for the movement of the electric connection end 273 is left, the whole operation is simple, the practicability is strong and the use effect is good.

Still further, the method comprises:

in an alternative embodiment: the linkage clamping assembly 26 comprises a second sliding base 261, a second toothed bar 262, a tapered end 263 and an extrusion end 264, wherein the second sliding base 261 is symmetrically fastened on the inner wall of the protective shell 221 and located at one side of the first sliding base 258, the second toothed bar 262 is slidably connected on the inner wall of the second sliding base 261, the tapered end 263 and the extrusion end 264 are respectively disposed on the outer surfaces of the two ends of the second toothed bar 262, the tapered end 263 is disposed on the outer surface of one end of the second toothed bar 262 close to the tapered portion 2133 and corresponds to the tapered portion 2133 in position, the tapered end 263 is slidably connected on the surface of the tapered portion 2133 and is matched with the external dimension of the tapered portion 2133, the extrusion end 264 is disposed on the outer surface of one end of the second toothed bar 262 close to the wire stripper 2510, and one end of the extrusion end 264 penetrates out of the wire stripper 2510 and is slidably connected on the inner wall of the second positioning block 2511.

In this embodiment, the following description is given of the present invention. Further explaining the structure and connection of the interlocking clamping assembly 26, when in use, as the housing 22 descends, the tapered end 263 descends and contacts the surface of the tapered portion 2133, and is slidingly connected, as the housing 22 descends continuously, the tapered end 263 starts to move towards the side of the wire stripper 2510 under the extrusion of the tapered portion 2133, the tapered end 263 moves to synchronously drive the second toothed bar 262 to move towards the side of the wire stripper 2510 inside the second sliding base 261, and synchronously drive the extrusion end 264 to move towards the side of the wire stripper 2510, and when the extrusion end 264 moves into the extrusion groove 200 on the surface of the wire stripper 2510, the inclined extrusion part 300 on the extrusion end 264 extrudes the extrusion groove 200 and synchronously drives one end of the wire stripper 2510 to shrink inwards, so that the other end is synchronously driven to shrink inwards and clamp a wire, and a cutting operation is performed on the surface of the wire, thereby facilitating the separation of the wire skin, and the whole operation is simple, high in practicability and good in use effect.

Still further, the method comprises:

in an alternative embodiment: the power supply connection assembly 27 comprises a fifth mounting base 271, a slide bar 272, an electric connection end 273, a guide wheel 274, a third positioning block 275, a reset spring 276, a fixed clamping seat 277, an electrified sliding frame 278, a built-in electric connection end 279 and a fixed screw rod 2710, wherein symmetrical bolts of the fifth mounting base 271 are fastened on the inner wall of the protective shell 221 and positioned on one side of the first positioning block 2410, the slide bar 272 is slidably connected on the inner wall of the fifth mounting base 271, the electric connection end 273 is in threaded connection with the outer surface of one end of the slide bar 272 far away from the electric connection end 273, one end of the guide wheel 274 is slidably connected on the outer surface of one end of the slide bar 272, which penetrates into the inner wall of one end of the shell 22 at a guide wheel 214, symmetrical bolts of the third positioning block 275 are fastened on the inner wall of the protective shell 221 and positioned on one side of the fifth mounting base 271, symmetrical bolts of the third positioning block 275 and one end of the slide bar 272 close to the guide wheel 274 are symmetrically connected with the reset spring 276, the symmetrical bolts of the fixed clamping seat 277 are fastened on the inner wall of the protective shell 221 and positioned on the other side of the first positioning block 2410, the electric connection end 273 corresponds to the position of the fixed clamping seat 277 and is slidably connected on the inner wall of the fixed clamping seat 277, one end of the slide bar 278 is rotatably connected on the inner wall of the side of the slide bar 278, one end of the electric connection end of the slide bar 278 is arranged on the inner wall of the inner surface of the guide wheel 278, which penetrates out of the bar 278 and penetrates out of the inner wall to the electric connection groove 278, and runs out of the electric connection surface of the electric connection groove 278.

In this embodiment, the following description is given of the present invention. The guide wheel seat 214 is conical, a guide groove is formed in the surface of the guide wheel seat 214 corresponding to the guide wheel 274, and the guide wheel seat 214 is slidably connected to the inner wall of the guide groove.

In this embodiment, the following description is given of the present invention. The fixed clamping seat 277 and the surface of the electric connecting end 273 are provided with conductive holes at positions corresponding to the positions of the built-in electric connecting end 279, one end of the built-in electric connecting end 279 is slidably connected with the inner wall of the conductive hole, and when one end of the built-in electric connecting end 279 is slidably connected with the inner wall of the conductive hole, the circuit, the electric connecting end 273 and the built-in electric connecting end 279 conduct electricity.

In this embodiment, the following description is given of the present invention. The energizing carriage 278 has a conductive member built therein, and two ends of the conductive member are respectively connected to one ends of two sets of built-in electrical terminals 279.

In this embodiment, the following description is given of the present invention. When the power supply connecting assembly 27 is used, the guide wheel 274 descends along with the shell 22 and contacts with the inner wall of one end of the guide wheel seat 214 penetrating into the shell 22, the guide wheel seat 214 is cone-shaped, the guide wheel 274 moves towards one side of the circuit under the extrusion of the guide wheel seat 214 along with the continuous descending of the shell 22, the guide wheel 274 synchronously drives the slide rod 272 to move, the slide rod 272 synchronously drives the electric connection end 273 to move, the electric connection end 273 contacts with the peeled circuit in the moving process and clamps the circuit on the inner wall of the clamping groove 400 on the surface of the circuit, the circuit positioned in the through hole 100 of the second positioning block 2511 is completely extracted and extruded to the inner wall of the clamping groove 400 along with the continuous movement of the electric connection end 273 and slides on the inner wall of the clamping groove 400 along with the movement of the electric connection end 273, until the electric connection end 273 is completely moved into the fixing clamping seat 277, the peeled circuit stops moving in the clamping groove 400, meanwhile, the guide wheel 274 also moves from the top of the guide groove on the surface of the guide wheel seat 214 to the bottom of the guide groove so as to limit and stop moving, the elastic clamping rod 2134 on the top of the rod body 2131 is just clamped and fixed on the inner wall of the clamping hole 233 of the bottommost group of clamping through pipes 232, thus realizing the fixation of the height of the shell 22, after the height of the shell 22 is fixed, the electric connection end 279 and the electric connection end 279 are connected to conduct electricity by pushing the electric connection sliding frame 278 to penetrate through one end of the strip-shaped through groove 225 so as to integrally push the electric connection sliding frame 278 to move upwards, the electric connection sliding frame 278 moves upwards synchronously to drive the built-in electric connection end 279 to move upwards, and when one end of the built-in electric connection end 279 penetrates out of the fixing clamping seat 277 and is connected to the inner wall of the electric connection end 273, meanwhile, the one end that circular telegram balladeur train 278 runs through out bar through the groove 225 also just removes to bar through the groove 225 top from bar through the groove 225 bottom, then through fixed screw 2710 with circular telegram balladeur train 278 with the screw hole seat 226 spiro union of bar through groove 225 top one side fixed can, when casing 22 rises, the guide pulley 274 also moves to the guide slot top along with it from the guide slot bottom on guide pulley seat 214 surface, under reset spring 276's pulling force effect, slide bar 272 also resets thereupon, and synchronous drive electric end 273 resets, whole easy operation, the practicality is strong and excellent in use effect.

Still further, the method comprises:

in an alternative embodiment: through holes 100 are formed in the surfaces of the first positioning block 2410 and the second positioning block 2511, the through holes 100 on the surface of the first positioning block 2410, the through holes 100 on the surface of the second positioning block 2511, the feeding hole 222, the inlet tube seat 248 and the support tube seat 249 are all located on the same axis, an extrusion groove 200 and an inclined extrusion part 300 are respectively arranged at the corresponding positions of the surfaces of the second positioning block 2511 and the wire stripper 2510 corresponding to the extrusion end 264, the inclined extrusion part 300 is slidably connected to the inner wall of the extrusion groove 200 and is matched with the external dimension of the extrusion groove 200, a clamping groove 400 is formed in the surface of the electric connection end 273, and the clamping groove 400 is located on the same horizontal line with the through hole 100.

In this embodiment, the following description is given of the present invention. The inclined extrusion part 300 comprises an inclined part and a straight part, when the inclined part is contacted with the extrusion groove 200, one end of the wire stripper 2510 is synchronously driven to shrink inwards, so that the other end is synchronously driven to clamp a line and perform a cutting operation on the surface of the line, and when the straight part is contacted with the extrusion groove 200, the position of the wire stripper 2510 is fixed, so that the clamping force of the wire stripper 2510 is ensured to be fixed.

In this embodiment, the following description is given of the present invention. The through hole 100 is designed to facilitate the line to pass through, and simultaneously plays a role in guiding and limiting, the extrusion groove 200 is formed in the surface of the wire stripper 2510, the inclined extrusion part 300 on the extrusion end 264 can synchronously drive one end of the wire stripper 2510 to shrink inwards when passing through the extrusion groove 200, so that the other end is synchronously driven to clamp the line and perform the splitting operation on the surface of the line, the line skin is convenient to separate, the line which is close to the second positioning block 2511 and peeled can automatically enter the clamping groove 400 when moving through the clamping groove 400, the wire stripper is convenient to place and plays a certain role in limiting and fixing, the wire stripper can be prevented from displacement, the whole operation is simple, the practicability is strong, and the use effect is good.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a distribution lines emergency line temporary docking power supply unit of broken string for switch, includes base (1), its characterized in that: the temporary docking power supply device (2) is arranged at the top of the base (1);

the temporary butt joint power supply device (2) comprises a trigger component (21), a shell (22), a clamping component (23), a wire component (24), a peeling component (25), a linkage clamping component (26) and a power supply connecting component (27), wherein the trigger component (21) is arranged at the top of the base (1), the shell (22) is arranged at the top of the trigger component (21), the clamping component (23) is arranged at the top of the shell (22) and is communicated with the inside of the shell (22), one end of the trigger component (21) penetrates through the inside of the clamping component (23) and is fixedly clamped on the inner wall of the clamping component (23), the wire component (24), the peeling component (25) and the linkage clamping component (26) are sequentially arranged on the inner wall of the shell (22) from bottom to top and are positioned on the outer side of the trigger component (21), one end of the wire component (24), one end of the linkage clamping component (25) and one end of the wire component (26) far away from the trigger component (21) is connected with one end of the trigger component (21) in a sliding mode, one end of the linkage clamping component (26) is connected with the inner wall (25) on one side of the power supply component (27), one end of the power supply connecting component (27) is connected with one end of the triggering component (21), and the other end of the power supply connecting component penetrates out of the shell (22) and is fixedly connected with the outer surface of the shell (22) in a threaded manner;

The trigger assembly (21) comprises a support post (211), a compression spring (212), a trigger rod (213), a guide wheel seat (214) and a lower cutting seat (215), wherein the support post (211) is uniformly connected with the top of the base (1) in a threaded manner, one end of the support post (211) far away from the top of the base (1) penetrates into the shell (22) and is slidingly connected with the inner wall of the shell (22), the compression spring (212) is sleeved outside the support post (211) and is positioned between the top of the base (1) and the bottom of the shell (22), the trigger rod (213) is fastened at the center of the top of the base (1) by bolts, one end of the trigger rod (213) penetrates into the clamping assembly (23) and is fixedly connected with the inner wall of the clamping assembly (23) by the clamping manner, one end of the wire assembly (24), the peeling assembly (25) and the linkage clamping assembly (26) are connected with one end of the trigger rod (213), the guide wheel seat (214) is symmetrically fastened on the top of the base (1) and positioned on two sides of the trigger rod (213), one end of the guide wheel seat (214) is fastened on the inner side of the shell (22) and is connected with one end of the lower cutting seat (27) symmetrically positioned on the outer side of the base (22), one end of the lower cutting seat (215) far away from the top of the base (1) is connected to the surface of the shell (22) in a sliding way;

The peeling assembly (25) comprises a third mounting base (251), a second connecting gear (252), a fourth mounting base (253), a third connecting gear (254), a second connecting gear (255), a second transmission belt (256), a fourth connecting gear (257), a first sliding base (258), a first toothed bar (259), a wire stripper (2510) and a second positioning block (2511), wherein the third mounting base (251) is symmetrically fastened on the inner wall of the protective housing (221) and is positioned on one side of the first mounting base (241), the second connecting gear (252) is rotatably connected on the inner wall of the third mounting base (251) and corresponds to the position of the tooth part (2132), the second connecting gear (252) is meshed with the tooth part (2132), the fourth mounting base (253) is symmetrically fastened on the inner wall of the protective housing (221) and is positioned on one side of the third mounting base (251), the third connecting gear (254) is rotatably connected on the inner wall of the fourth mounting base (253), the second connecting gear (252) and the third connecting gear (254) are rotatably connected with the third transmission belt (255) and fixedly connected with the second transmission belt (255) through the second transmission belt (2132), the fourth connecting gear (257) is symmetrically and rotationally connected to the inner wall of the protective shell (221) and is located on one side of the third connecting gear (254), the fourth connecting gear (257) is corresponding to the position of the third connecting gear (254) and is in meshed connection, the first sliding base (258) is symmetrically fastened on the inner wall of the protective shell (221) and is located on one side of the fourth connecting gear (257), the first toothed bar (259) is slidingly connected to the inner wall of the first sliding base (258), one end of the first toothed bar (259) is corresponding to the position of the fourth connecting gear (257) and is in meshed connection, the other end of the first toothed bar (259) is rotationally connected with a wire stripper (2510), the second positioning block (2511) is fixedly connected to one end surface of the first toothed bar (259) and is located on one side of the wire stripper (2510), one side surface of the second positioning block (2511) away from the first positioning block (2410) is attached to one side surface of the supporting tube seat (249), and one end of the clamping assembly (26) away from the conical part (2133) is penetrated out of the wire stripper and is slidingly connected to the outer portion (2511).

2. The emergency line temporary docking power supply device for a disconnection of a distribution line switch according to claim 1, wherein: trigger bar (213) are including body of rod (2131), tooth portion (2132), toper portion (2133) and elasticity kelly (2134), body of rod (2131) bolt-up is in base (1) top center department, tooth portion (2132), toper portion (2133) and elasticity kelly (2134) symmetry are from the bottom up in proper order set gradually on body of rod (2131) surface, tooth portion (2132) and toper portion (2133) are integrated into one piece setting with body of rod (2131), elasticity kelly (2134) sliding connection is at body of rod (2131) inner wall, the one end at body of rod (2131) top is kept away from base (1) one end penetration joint subassembly (23) inside and is fixed at joint subassembly (23) inner wall through elasticity kelly (2134), tooth portion (2132) and toper portion (2133) all are located inside casing (22), tooth portion (2) and wire subassembly (24) and wire subassembly (25) and toper portion (2133) are corresponding and are connected with body of rod (2131), tooth portion (2131) one end is kept away from the corresponding and is kept away from connecting the corresponding one end of tooth portion (2132) linkage (2134) and is connected with one end (21325) and is kept away from the corresponding end of connecting the linkage and sliding connection subassembly (2132).

3. The temporary docking power supply device for a broken emergency line for a distribution line switch according to claim 1, wherein: the shell (22) comprises a protecting shell (221), a feeding hole (222), an upper cutting seat (223), a limiting sliding groove (224), a strip-shaped through groove (225) and a threaded hole seat (226), wherein the protecting shell (221) is arranged at the top of a compression spring (212) and is connected with the outer surface of a supporting post rod (211) in a sliding mode, the feeding hole (222) is symmetrically arranged on the surface of the protecting shell (221) and is communicated with the inside of the protecting shell (221), the feeding hole (222) corresponds to one end position of a wire assembly (24) and is communicated with the inside of the protecting shell, the upper cutting seat (223) is symmetrically fastened on the surface of the protecting shell (221) through bolts and is positioned on one side of the feeding hole (222), the limiting sliding groove (224) is symmetrically arranged on the surface of the protecting shell (221) and is positioned on the other side of the feeding hole (222), the upper cutting seat (223), the feeding hole (222), the limiting sliding groove (224) and the lower cutting seat (215) are all positioned on the same vertical line, one end of the lower cutting seat (215) far away from the top of the base (1) is connected with the inner wall of the limiting sliding groove (224) in a sliding mode and is correspondingly attached to the upper cutting seat (24) and is arranged on one end of the surface of the protecting shell (27), the screw hole seat (226) is fastened on the surface of the protective shell (221) and is positioned on one side of the top of the strip-shaped through groove (225), one end of the power supply connecting component (27) penetrates out of the strip-shaped through groove (225) and is connected to the inner wall of the strip-shaped through groove (225) in a sliding mode, and one end of the power supply connecting component (27) penetrating out of the strip-shaped through groove (225) is connected to the inner wall of the screw hole seat (226) in a threaded mode.

4. The emergency line temporary docking power supply device for a disconnection of a distribution line switch according to claim 1, wherein: the clamping assembly (23) comprises a handle (231), a clamping through pipe (232) and a clamping hole (233), wherein the handle (231) is fastened at the top of the protective shell (221) through bolts and corresponds to the rod body (2131), the clamping through pipe (232) is fastened on the surface of the handle (231) and is communicated with the interior of the protective shell (221), the clamping hole (233) is symmetrically formed in the surface of the clamping through pipe (232) and corresponds to the elastic clamping rod (2134), and one end of the rod body (2131) penetrates into the clamping through pipe (232) and is clamped and fixed on the inner wall of the clamping hole (233) through the elastic clamping rod (2134).

5. The emergency line temporary docking power supply device for a disconnection of a distribution line switch according to claim 1, wherein: the wire assembly (24) comprises a first mounting base (241), a first connecting gear (242), a second mounting base (243), a driving wheel (244), a first transmission gear (245), a first transmission belt (246), a driven wheel (247), an inlet tube seat (248), a supporting tube seat (249) and a first positioning block (2410), wherein the first mounting base (241) is symmetrically fastened on the inner wall of the protective shell (221) and is positioned on the outer side of the rod body (2131), the first connecting gear (242) is rotatably connected on the inner wall of the first mounting base (241) and corresponds to the tooth part (2132), the first connecting gear (242) is meshed with the tooth part (2132), the second mounting base (243) is symmetrically fastened on the inner wall of the protective shell (221) and is positioned on one side of the first mounting base (241), one end of the first connecting gear (242) and one end of the driving wheel (244) respectively penetrate through the first mounting base (241) and the second mounting base (243) and are fixedly connected with the first transmission belt (245) to the outside, the first connecting gear (245) is fixedly connected with the first transmission belt (245), the driven wheel (247) is symmetrically and rotationally connected to the inner wall of the protective shell (221) and is located on one side of the driving wheel (244), the inlet tube seat (248) and the supporting tube seat (249) are respectively and symmetrically fastened on the inner wall of the protective shell (221) and are located on the left side and the right side of the driving wheel (244), one end of the inlet tube seat (248) corresponds to and is communicated with the feeding hole (222), the first positioning block (2410) is symmetrically fastened on the inner wall of the protective shell (221) and is located on the outer side of one end, far away from the driving wheel (244), of the supporting tube seat (249), and the feeding hole (222), the inlet tube seat (248), the supporting tube seat (249) and the first positioning block (2410) are all located on the same axis.

6. The emergency line temporary docking power supply device for a disconnection of a distribution line switch according to claim 1, wherein: the linkage clamping assembly (26) comprises a second sliding base (261), a second toothed bar (262), a conical end (263) and an extrusion end (264), wherein the second sliding base (261) is symmetrically fastened on the inner wall of the protective shell (221) by bolts and is located on one side of the first sliding base (258), the second toothed bar (262) is slidably connected on the inner wall of the second sliding base (261), the conical end (263) and the extrusion end (264) are respectively arranged on the outer surfaces of the two ends of the second toothed bar (262), the conical end (263) is arranged on the outer surface of one end, close to the conical portion (2133), of the second toothed bar (262) and corresponds to the position of the conical portion (2133), the conical end (263) is slidably connected on the surface of the conical portion (2133) and is matched with the outer dimension of the conical portion (2133), the extrusion end (264) is arranged on the outer surface, close to one end of the wire stripper (2510), and one end of the extrusion end (264) penetrates through the outer surface of the wire stripper (2510) and is slidably connected on the inner wall of the second 2511.

7. The emergency line temporary docking power supply device for a disconnection of a distribution line switch according to claim 1, wherein: the power supply connecting assembly (27) comprises a fifth mounting base (271), a slide bar (272), an electric connection end (273), a guide wheel (274), a third positioning block (275), a return spring (276), a fixed clamping seat (277), a power-on sliding frame (278), an embedded electric connection end (279) and a fixing screw rod (2710), wherein the fifth mounting base (271) is symmetrically fastened on the inner wall of the protective housing (221) and positioned on one side of the first positioning block (2410), the slide bar (272) is slidingly connected on the inner wall of the fifth mounting base (271), the electric connection end (273) is in threaded connection with the outer surface of one end of the slide bar (272), the guide wheel (274) is rotationally connected on the outer surface of one end of the slide bar (272) far away from the electric connection end (273), one end of the guide wheel (274) is slidingly connected on the inner wall of one end of the guide wheel seat (214) penetrating into the inner part of the shell (22), the third positioning block (275) is symmetrically fastened on the inner wall of the protective housing (221) and positioned on one side of the fifth mounting base (2410), the third positioning block (272) is in threaded connection with the outer surface of the slide bar (274) which is symmetrically positioned on the other side of the guide wheel (274) and is close to the outer surface of the guide wheel (276), the utility model discloses a strip-shaped through groove (225) is fixed in a screw hole seat (226) inner wall, connect electric end (273) and fixed cassette (277) position correspondence and sliding connection at fixed cassette (277) inner wall, circular telegram balladeur train (278) sliding connection is at protecting crust (221) inner wall, built-in electric end (279) symmetry sets up on circular telegram balladeur train (278) surface and is connected, built-in electric end (279) one end runs through fixed cassette (277) outside and sliding connection at electric end (273) inner wall, circular telegram balladeur train (278) one end runs through out strip-shaped through groove (225) outside and sliding connection is at strip-shaped through groove (225) inner wall, circular telegram balladeur train (278) runs through the one end of strip-shaped through groove (225) outside and passes through dead screw (2710) threaded connection at screw hole seat (226) inner wall.

8. The emergency line temporary docking power supply device for a distribution line switch according to claim 7, wherein: the wire stripper is characterized in that through holes (100) are formed in the surfaces of the first positioning block (2410) and the second positioning block (2511), the through holes (100) on the surface of the first positioning block (2410), the through holes (100) on the surface of the second positioning block (2511), the feeding hole (222), the inlet tube seat (248) and the supporting tube seat (249) are all located on the same axis, an extrusion groove (200) and an oblique extrusion part (300) are respectively arranged at positions, corresponding to the extrusion end (264), of the surfaces of the second positioning block (2511) and the wire stripper, the oblique extrusion part (300) is slidably connected to the inner wall of the extrusion groove (200) and is matched with the external dimension of the extrusion groove (200), and a clamping groove (400) is formed in the surface of the electric connection end (273), and the clamping groove (400) is located on the same horizontal line with the through holes (100).