CN110600959B - Fusion connecting device of multi-core cable - Google Patents

Abstract

The invention provides a fusion connecting device of a multi-core cable, and belongs to the technical field of machinery. The multi-core wire solves the technical problems that the multi-core wire is troublesome to connect, shortens after being connected and the like. The utility model provides a melting connecting device of multicore cable, includes the base, the base on be provided with fixed subassembly one and fixed subassembly two that are used for fixed wire, fixed subassembly one sets up with fixed subassembly two relatively, the base on be provided with the electromagnetic coil subassembly that is used for melting the electric wire, the electromagnetic coil subassembly includes electromagnetic coil one and electromagnetic coil two, electromagnetic coil one can dismantle with electromagnetic coil two and be connected, the base be provided with the drive mechanism that drives electromagnetic coil two and reciprocate, electromagnetic coil one and electromagnetic coil two can form the heating channel one and the heating channel two that are used for melting the wire. The invention has the advantages of simple connection of the multi-core wire and no shortening after connection.

Description

Fusion connecting device of multi-core cable

Technical Field

The invention belongs to the technical field of machinery, and particularly relates to a fusion connecting device for a multi-core cable.

Background

When the wires are connected, the traditional connection mode is a grouping winding wiring method, a section of 10 CM-15 CM of insulating sheath is removed from 2 butted stranded copper wires respectively, (note: the larger the wire section is, the insulation length is prolonged), then each stranded wire at two wiring positions is divided into a plurality of strands of copper wires to form a separated horn shape (the length of the residual bidirectional original stranded copper wire is about 5CM, the larger the wire section is, the length is prolonged), then the skewers are compacted by using adhesive pliers at intervals, the bidirectional outer single wires are wound tightly one by one, and finally, the insulation treatment is carried out by using an electric adhesive tape.

The connection mode can cause the shortening of the electric wire, if the total length of the circuit is not enough after the circuit is connected for many times, new electric wire filling needs to be added again for each maintenance, and the maintenance is troublesome, and the device for directly connecting the electric wires together in a melting way is designed, so that the problems of troublesome connection and electric wire shortening are solved.

Disclosure of Invention

The invention aims to solve the problems of the prior art, provides a fusion connecting device of a multi-core cable, and solves the problems that the multi-core cable is troublesome to connect and shortens after being connected.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a melting connecting device of multicore cable, includes the base, its characterized in that, the base on be provided with fixed subassembly one and fixed subassembly two that are used for fixed wire, fixed subassembly one sets up with fixed subassembly two relatively, the base on be provided with the electromagnetic coil subassembly that is used for the melting electric wire, the electromagnetic coil subassembly includes electromagnetic coil one and electromagnetic coil two, electromagnetic coil one can dismantle with electromagnetic coil two and be connected, the base be provided with the drive mechanism that drives electromagnetic coil two and reciprocate, electromagnetic coil one and electromagnetic coil two can form the heating passageway one and the heating passageway two that are used for melting the wire.

The working principle of the invention is as follows: the first electric wire penetrates into the first fixing component, one end of the first electric wire extends into the first heating channel, the second electric wire penetrates into the second fixing component, the two ends of the second electric wire extend into the second heating channel, one end of the first electric wire and the two ends of the second electric wire are located in the same plane, the first electric wire and the two ends of the first electric wire are melted through the first electromagnetic ring and the second battery ring, and then the first electric wire and the two ends of the first electric wire are connected together in a melting mode.

The invention has high connection efficiency, does not need to strip a longer wire insulating layer, can avoid the problem of over short wire during connection and has higher connection efficiency.

In the melting connection device of the multi-core cable, the first fixing component and the second fixing component have the same structure, the first fixing component and the second fixing component are at least provided with two fixing barrel assemblies, each fixing barrel assembly comprises an upper half barrel, a lower half barrel, a limiting gear, a limiting slide rod and a spring, the lower half barrel is fixed on a base, the upper half barrel is hinged on the lower half barrel, a lead channel for a lead to pass through is formed by the upper half barrel and the lower half barrel, a through hole communicated with the lead channel is formed in the lower half barrel, the limiting gear is rotatably arranged in the through hole, the limiting gear extends into the lead channel, the limiting slide rod is slidably arranged on the lower half barrel and is connected with the lower half barrel through the spring, the limiting gear can rotate towards the first electromagnetic ring and the second electromagnetic ring, and the limiting gear is limited by the limiting slide rod when rotating towards the direction far away from the first electromagnetic ring and the second electromagnetic ring, the lower half cylinder is provided with a limiting bulge, the upper half cylinder is provided with a limiting buckle matched with the limiting bulge, and the limiting buckle has elasticity.

Penetrate the electric wire into the wire passageway that first section of thick bamboo and second section of thick bamboo formed, the electric wire is at the in-process that penetrates, stop gear also rotates along with penetrating of electric wire, if the electric wire is when outwards extracting, stop gear can be spacing by stop slide bar, stall, the electric wire can not be extracted, manual striking stop slide bar makes stop slide bar break away from stop gear, the electric wire can be extracted this moment, when the electric wire after the melting welding takes out from the wire passageway, manual breaking away from spacing buckle from spacing arch, first section of thick bamboo is turned over from second section of thick bamboo, the electric wire can directly be taken out.

In the melting connection device of the multi-core cable, the lower half cylinder is provided with a limiting block, a sliding hole is formed in the limiting block, and a limiting sliding rod penetrates into the sliding hole.

In the fusion connecting device of the multi-core cable, the limiting sliding rod is provided with a manual shifting block. The shifting of the limiting slide rod is convenient.

In the fusion connecting device of the multi-core cable, the electromagnetic coil assembly further comprises a first guide porcelain cylinder, a second guide porcelain cylinder, a first push rod motor and a fixing frame, the first guide porcelain cylinder is fixed on the base, the first push rod motor is fixed on the base, the fixing frame is fixed on a push rod of the first push rod motor, the second guide porcelain cylinder is fixed on the fixing frame, a plurality of guide grooves are formed in the first guide porcelain cylinder, guide columns are arranged on the second guide porcelain cylinder and extend into the guide grooves, an upward first connecting notch is formed in the first guide porcelain cylinder, a downward second connecting notch is formed in the second guide porcelain cylinder, and the first connecting notch and the second connecting notch can form a circular connecting channel. The electric wire I penetrates into the first guide porcelain cylinder, the electric wire II penetrates into the second guide porcelain cylinder, at the moment, the first electromagnetic ring, the second electromagnetic ring is arranged to the first electric wire, the second electric wire is heated, the first electric wire, two end parts of the electric wire are melted, then the electric wire is made through the driving mechanism, the second guide porcelain cylinder is pressed to the first guide porcelain cylinder, the first connection notch is connected with the second connection notch, the internally melted metal is extruded and mixed together, the two wires are connected together, the total volume of the second electric wire is melted due to the fact that the inner space of the connection channel is smaller than the first electric wire, the first electric wire and the second electric wire are connected together in a better melting mode, and the. The push rod motor II can drive the fixing frame to move up and down, and the fixing frame drives the guide porcelain cylinder II to move up and down.

In the melting connecting device of the multi-core cable, the first electromagnetic ring comprises a plurality of semicircular copper rings and a fixed porcelain plate, the semicircular copper rings are fixed on the fixed porcelain plate, the fixed porcelain plate is fixed on the base, the connector is arranged on the semicircular copper rings, the second electromagnetic ring comprises a plurality of semicircular copper rings and a fixed porcelain plate, the semicircular copper rings are fixed on the fixed porcelain plate, and the connecting groove matched with the connector is formed in the semicircular copper rings. When the connected electric wire needs to be taken out, the first semicircular copper ring and the second semicircular copper ring are separated, and the electric wire is taken out from the middle of the first semicircular copper ring and the second semicircular copper ring. The first semicircular copper ring and the second semicircular copper ring are connected together to form a continuous electromagnetic ring assembly, and the electromagnetic ring assembly can form a heating magnetic field.

In the fusion connecting device of the multi-core cable, the driving mechanism comprises a second push rod motor and a lifting frame, the second push rod motor is fixed on the base, the lifting frame is fixed on a second push rod of the push rod motor, and the second fixed porcelain plate is fixed on the lifting frame. The second push rod motor drives the lifting frame to move up and down, the lifting frame drives the second fixed porcelain plate to move up and down, and the second fixed porcelain plate drives the second semicircular copper ring to move up and down.

In the fusion connecting device of the multi-core cable, a plurality of cross flow holes are formed in the first guide ceramic cylinder and the second guide ceramic cylinder. The influence of the first guide ceramic cylinder and the second guide ceramic cylinder on the magnetic field prevents the heating efficiency from becoming low.

In the fusion connecting device of the multi-core cable, the first guide ceramic cylinder and the first heating channel are concentrically arranged, and the second guide ceramic cylinder and the second heating channel are concentrically arranged. This design enables the fastest melting of the wire.

In the fusion connecting device for the multi-core cable, a distance is formed between the central axis of the first heating channel and the central axis of the second heating channel. The wires in the first heating channel and the second heating channel are positioned at the position where the magnetic fields are most dense, and the temperature rises most quickly.

Compared with the prior art, the invention has the following advantages:

1. the invention has high connection efficiency, does not need to strip a longer wire insulating layer, can avoid the problem of over short wire during connection and has higher connection efficiency.

2. Penetrate the electric wire into the wire passageway that first section of thick bamboo and second section of thick bamboo formed, the electric wire is at the in-process that penetrates, stop gear also rotates along with penetrating of electric wire, if the electric wire is when outwards extracting, stop gear can be spacing by stop slide bar, stall, the electric wire can not be extracted, manual striking stop slide bar makes stop slide bar break away from stop gear, the electric wire can be extracted this moment, when the electric wire after the melting welding takes out from the wire passageway, manual breaking away from spacing buckle from spacing arch, first section of thick bamboo is turned over from second section of thick bamboo, the electric wire can directly be taken out.

3. The electric wire I penetrates into the first guide porcelain cylinder, the electric wire II penetrates into the second guide porcelain cylinder, at the moment, the first electromagnetic ring, the second electromagnetic ring is arranged to the first electric wire, the second electric wire is heated, the first electric wire, two end parts of the electric wire are melted, then the electric wire is made through the driving mechanism, the second guide porcelain cylinder is pressed to the first guide porcelain cylinder, the first connection notch is connected with the second connection notch, the internally melted metal is extruded and mixed together, the two wires are connected together, the total volume of the second electric wire is melted due to the fact that the inner space of the connection channel is smaller than the first electric wire, the first electric wire and the second electric wire are connected together in a better melting mode, and the.

Drawings

FIG. 1 is a schematic of the present invention.

Fig. 2 is a schematic view of a first fixing assembly of the present invention.

FIG. 3 is a connection diagram of a first semicircular copper ring and a second semicircular copper ring in the invention.

Fig. 4 is a side view of the first solenoid and the second solenoid of the present invention.

FIG. 5 is a cross-sectional view of a first solenoid and a second solenoid of the present invention.

In the figure, 1, a base; 2. a first electromagnetic coil; 2a, a semicircular copper ring I; 2a1, connector; 3. a second electromagnetic coil; 3a, a semicircular copper ring II; 3a1, connecting groove; 4. a first heating channel; 5. a second heating channel; 6. an upper half cylinder; 7. a lower half cylinder; 7a, a through hole; 8. a limit gear; 9. a limiting slide bar; 9a, manually shifting blocks; 10. a spring; 11. a wire passage; 12. a limiting bulge; 13. a limiting buckle; 14. a limiting block; 15. a first guide porcelain cylinder; 15a, a guide groove; 16. a second guide porcelain cylinder; 16a, a guide post; 17. a push rod motor I; 18. a fixed mount; 19. a connecting channel; 20. fixing the first porcelain plate; 21. fixing a second porcelain plate; 22. a push rod motor II; 23. a lifting frame; 24. and (4) an alternating flow hole.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, a melting connecting device of multicore cable, including base 1, be provided with fixed subassembly one and fixed subassembly two that are used for fixed wire on the base 1, fixed subassembly one sets up with fixed subassembly two relatively, be provided with the electromagnetic coil subassembly that is used for melting the electric wire on the base 1, the electromagnetic coil subassembly includes electromagnetic coil one 2 and electromagnetic coil two 3, electromagnetic coil one 2 can be dismantled with electromagnetic coil two 3 and be connected, base 1 is provided with the drive mechanism that drives electromagnetic coil two 3 and reciprocate, electromagnetic coil one 2 and electromagnetic coil two 3 can form heating channel one 4 and heating channel two 5 that are used for melting the wire.

The working principle of the invention is as follows: the first electric wire penetrates into the first fixing component, one end of the first electric wire extends into the first heating channel 4, the second electric wire penetrates into the second fixing component, the two ends of the first electric wire extend into the second heating channel 5, the one end of the first electric wire and the two ends of the second electric wire are located in the same plane, the first electric wire and the two ends of the first electric wire are melted through the first electromagnetic coil 2 and the second battery coil, and then the first electric wire and the two ends of the first electric wire are connected together in a melting mode.

The invention has high connection efficiency, does not need to strip a longer wire insulating layer, can avoid the problem of over short wire during connection and has higher connection efficiency.

Specifically, the first fixing component and the second fixing component have the same structure, the first fixing component and the second fixing component are both at least provided with two fixing cylinder assemblies, each fixing cylinder assembly comprises an upper half cylinder 6, a lower half cylinder 7, a limiting gear 8, a limiting slide rod 9 and a spring 10, the lower half cylinder 7 is fixed on the base 1, the upper half cylinder 6 is hinged on the lower half cylinder 7, the upper half cylinder 6 and the lower half cylinder 7 form a lead channel 11 for a lead to pass through, the lower half cylinder 7 is provided with a through hole 7a communicated with the lead channel 11, the limiting gear 8 is rotatably arranged in the through hole 7a, the limiting gear 8 extends into the lead channel 11, the limiting slide rod 9 is slidably arranged on the lower half cylinder 7, the limiting slide rod 9 is connected with the lower half cylinder 7 through the spring 10, the limiting gear 8 can rotate towards the first electromagnetic ring 2 and the second electromagnetic ring 3, the limiting gear 8 can be limited by the limiting slide rod 9 when rotating towards the direction far away from the first electromagnetic ring 2 and the second electromagnetic ring 3, the lower half cylinder 7 is provided with a limiting bulge 12, the upper half cylinder 6 is provided with a limiting buckle 13 matched with the limiting bulge 12, and the limiting buckle 13 has elasticity.

The electric wire is penetrated into a wire channel 11 formed by the upper half cylinder 6 and the lower half cylinder 7, in the penetrating process of the electric wire, the limiting gear 8 also rotates along with the penetration of the electric wire, if the electric wire is outwards pulled out, the limiting gear 8 can be limited by the limiting slide rod 9, the electric wire stops rotating, the electric wire cannot be pulled out, the limiting slide rod 9 is manually pulled, the limiting slide rod 9 is separated from the limiting gear 8, the electric wire can be pulled out at the moment, when the electric wire after fusion welding needs to be taken out from the wire channel 11, the limiting buckle 13 is manually separated from the limiting bulge 12, the upper half cylinder 6 is turned over from the lower half cylinder 7, and the electric wire can be directly taken out.

Specifically, the lower half cylinder 7 is provided with a limiting block 14, the limiting block 14 is provided with a sliding hole, and the limiting sliding rod 9 penetrates into the sliding hole.

Specifically, the limiting slide rod 9 is provided with a manual shifting block 9 a. The limiting slide rod 9 can be conveniently shifted.

Specifically, the electromagnetic coil assembly further comprises a first guide porcelain cylinder 15, a second guide porcelain cylinder 16, a first push rod motor 17 and a fixing frame 18, the first guide porcelain cylinder 15 is fixed on the base 1, the first push rod motor 17 is fixed on the base 1, the fixing frame 18 is fixed on a push rod of the first push rod motor 17, the second guide porcelain cylinder 16 is fixed on the fixing frame 18, a plurality of guide grooves 15a are formed in the first guide porcelain cylinder 15, guide columns 16a are arranged on the second guide porcelain cylinder 16, the guide columns 16a extend into the guide grooves 15a, an upward first connecting notch is formed in the first guide porcelain cylinder 15, a downward second connecting notch is formed in the second guide porcelain cylinder 16, and the first connecting notch and the second connecting notch can form a circular connecting channel 19. The electric wire one penetrates into the first guide porcelain section of thick bamboo 15, the electric wire two penetrates into the second guide porcelain section of thick bamboo 16, at this moment, first electromagnetic coil 2, second electromagnetic coil 3 sets up to electric wire one, two heats of electric wire, electric wire one, the both ends of electric wire melt, then make through drive mechanism, second guide porcelain section of thick bamboo 16 presses to first guide porcelain section of thick bamboo 15, make first connection gap link to each other with second connection gap, the metal that inside melts is mixed together by the extrusion, two wires are linked together, and because 19 inner spaces of interface channel are less than electric wire one, the total volume that the electric wire two melts, the melting that can be better by the extrusion department links together, first electric wire is more firm with the meeting of second connection of electric. The second push rod motor 22 can drive the fixing frame 18 to move up and down, and the fixing frame 18 drives the second guide porcelain cylinder 16 to move up and down.

Specifically, first electromagnetic ring 2 includes a plurality of semicircle copper rings 2a and fixed porcelain plate 20, and semicircle copper ring 2a is fixed on fixed porcelain plate 20, and fixed porcelain plate 20 is fixed on base 1, has connector 2a1 on semicircle copper ring 2a, and second electromagnetic ring 3 includes a plurality of semicircle copper rings two 3a and fixed porcelain plate two 21, and semicircle copper ring two 3a is fixed on fixed porcelain plate two 21, has the spread groove 3a1 with connector 2a1 adaptation on the semicircle copper ring two 3 a. When the connected electric wire needs to be taken out, the semicircular copper ring I2 a and the semicircular copper ring II 3a are separated, and the electric wire is taken out from the middle of the semicircular copper ring I2 a and the semicircular copper ring II 3 a. The semicircular copper ring I2 a and the semicircular copper ring II 3a are connected together to form a continuous electromagnetic ring assembly, and the electromagnetic ring assembly can form a heating magnetic field.

Specifically, the driving mechanism comprises a second push rod motor 22 and a lifting frame 23, the second push rod motor 22 is fixed on the base 1, the lifting frame 23 is fixed on a push rod of the second push rod motor 22, and the second fixed porcelain plate 21 is fixed on the lifting frame 23. The second push rod motor 22 drives the lifting frame 23 to move up and down, the lifting frame 23 drives the second fixed porcelain plate 21 to move up and down, and the second fixed porcelain plate 21 drives the second semicircular copper ring 3a to move up and down.

Specifically, the first guide ceramic cylinder 15 and the second guide ceramic cylinder 16 are provided with a plurality of alternating flow holes 24. The first guide porcelain cylinder 15 and the second guide porcelain cylinder 16 prevent the heating efficiency from becoming low due to the influence on the magnetic field.

Specifically, the first guide ceramic cylinder 15 and the first heating channel 4 are concentrically arranged, and the second guide ceramic cylinder 16 and the second heating channel 5 are concentrically arranged. This design enables the fastest melting of the wire.

Specifically, the central axis of the first heating channel 4 is spaced from the central axis of the second heating channel 5. The wires in the first heating channel 4 and the second heating channel 5 are located at the position where the magnetic fields are the most dense, and the temperature rises the fastest.

The above components are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (9)

1. A melting connecting device of a multi-core cable comprises a base and is characterized in that a first fixing component and a second fixing component which are used for fixing a lead are arranged on the base, the first fixing component and the second fixing component are arranged oppositely, an electromagnetic coil component used for melting a wire is arranged on the base, the electromagnetic coil component comprises a first electromagnetic coil and a second electromagnetic coil, the first electromagnetic coil and the second electromagnetic coil are detachably connected, the base is provided with a driving mechanism which drives the second electromagnetic coil to move up and down, and the first electromagnetic coil and the second electromagnetic coil can form a first heating channel and a second heating channel which are used for melting the lead; the first fixing component and the second fixing component are the same in structure, the first fixing component and the second fixing component are at least provided with two fixing cylinder assemblies, each fixing cylinder assembly comprises an upper half cylinder, a lower half cylinder, a limiting gear, a limiting slide rod and a spring, the lower half cylinder is fixed on the base, the upper half cylinder is hinged on the lower half cylinder, a lead channel for a lead to pass through is formed by the upper half cylinder and the lower half cylinder, a through hole communicated with the lead channel is formed in the lower half cylinder, the limiting gear is rotatably arranged in the through hole and extends into the lead channel, the limiting slide rod is slidably arranged on the lower half cylinder and is connected with the lower half cylinder through the spring, the limiting gear can rotate towards the first electromagnetic ring and the second electromagnetic ring, the limiting gear can be limited by the limiting slide rod when rotating towards the direction far away from the first electromagnetic ring and the second electromagnetic ring, and the lower half cylinder is provided with a limiting bulge, the upper half cylinder is provided with a limiting buckle matched with the limiting bulge, and the limiting buckle has elasticity.

2. The fusion connecting device of claim 1, wherein the lower half tube has a stopper, the stopper has a slide hole, and the stopper slide rod penetrates into the slide hole.

3. The apparatus as claimed in claim 1, wherein the position-limiting slide bar has a manual shifting block.

4. The melting connection device of the multi-core cable as claimed in claim 1, wherein the electromagnetic coil assembly further comprises a first guide porcelain cylinder, a second guide porcelain cylinder, a first push rod motor and a fixing frame, the first guide porcelain cylinder is fixed on the base, the first push rod motor is fixed on the base, the fixing frame is fixed on a push rod of the first push rod motor, the second guide porcelain cylinder is fixed on the fixing frame, the first guide porcelain cylinder is provided with a plurality of guide grooves, the second guide porcelain cylinder is provided with guide posts which extend into the guide grooves, the first guide porcelain cylinder is provided with an upward first connection notch, the second guide porcelain cylinder is provided with a downward second connection notch, and the first connection notch and the second connection notch can form a circular connection channel.

5. The fusion connecting device of claim 1, wherein the first electromagnetic ring comprises a plurality of first semicircular copper rings and a first fixed porcelain plate, the first semicircular copper rings are fixed on the first fixed porcelain plate, the first fixed porcelain plate is fixed on the base, the first semicircular copper rings are provided with connectors, the second electromagnetic ring comprises a plurality of second semicircular copper rings and a second fixed porcelain plate, the second semicircular copper rings are fixed on the second fixed porcelain plate, and the second semicircular copper rings are provided with connecting grooves matched with the connectors.

6. The fusion connecting device of claim 5, wherein the driving mechanism comprises a second push rod motor and a lifting frame, the second push rod motor is fixed on the base, the lifting frame is fixed on the second push rod of the push rod motor, and the second fixed porcelain plate is fixed on the lifting frame.

7. The fusion connecting device of claim 4, wherein the first and second porcelain tubes have a plurality of cross-flow holes.

8. The fusion splicing apparatus of claim 4, wherein the first guiding ceramic cylinder is concentrically disposed with the first heating channel, and the second guiding ceramic cylinder is concentrically disposed with the second heating channel.

9. A fusion splicing apparatus for multiple cables as claimed in claim 1, wherein said first heating channel has a central axis spaced from a central axis of said second heating channel.

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