CN219458269U - Automatic riveting device for power connection wire - Google Patents

Abstract

The utility model belongs to the technical field of riveting and discloses an automatic riveting device for a power supply connecting wire, which comprises an embedded part and a connecting part, wherein the embedded part and the connecting part are connected in parallel, second grooves are horizontally formed in the embedded part and the connecting part, power supply wires are arranged in the second grooves, and second conductive plates are arranged in the embedded part.

Description

Automatic riveting device for power connection wire

Technical Field

The utility model belongs to the technical field of riveting, and particularly relates to an automatic riveting device for a power supply connecting wire.

Background

The power connecting wire is necessary equipment of most electronic equipment, supplies power to the electronic equipment through the power connecting wire, and in the daily use process, the situation that the power connecting wire breaks often occurs due to abrasion and corrosion of external environment, so that in order to continue use, a user needs to wire the two power connecting wires, and the power connecting wires can continue to operate.

When carrying out the wiring step, need operating personnel strip the outside protective layer of two power connecting wires to twine fixed connection with the inside wire of power connecting wire, rethread adhesive tape seals the junction of two power connecting wires, and when operation step was comparatively loaded down with trivial details, insulating alone adopted the adhesive tape to seal, and the circumstances of very easily appearing leaking electricity takes place, has certain potential safety hazard, so designed an automatic riveting set of power connecting wire.

Disclosure of Invention

The utility model aims to provide an automatic riveting device for a power connection wire, which solves the problems that the wiring steps are complicated and the situation of electric leakage easily occurs in the prior art, and has certain potential safety hazard.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an automatic riveting set of power connecting wire, includes embedded part and connecting piece, embedded part and connecting piece parallel connection, and the equal level is provided with the second recess on embedded part and the connecting piece, the inside of second recess all is provided with the power cord, embedded part internally mounted has the second conductive plate, the one end of second conductive plate extends to the inside of second recess and contacts each other with the power cord, the outside of embedded part is extended to the other end of second conductive plate, the spread groove has been seted up for the position of second conductive plate to the connecting piece, the inside of spread groove is inlayed to the second conductive plate, the inside of connecting piece is provided with first conductive plate, the one end of first conductive plate is inlayed to the inside of spread groove and is contacted each other with the second conductive plate, the other end of first conductive plate extends to the inside of second recess and contacts each other with the power cord.

Preferably, the limiting sealing plate is installed at one end of the connecting part relative to the connecting part, the limiting groove is formed in the position of the embedding part relative to the limiting sealing plate, the limiting sealing plate is embedded into the limiting groove, the spring positioning block is installed on the outer side wall of the limiting sealing plate, the positioning groove is formed in the position of the limiting groove relative to the spring positioning block, and the spring positioning block is embedded into the positioning groove.

Preferably, the first groove is formed in the second groove, the hot melting plate is arranged in the first groove, the hot melting plate is embedded into the first groove, and the hot melting plate extends to the outer portion of the first groove relative to one surface of the power line.

Preferably, the upper end face of the limiting sealing plate is provided with a sealing groove, the upper end face of the limiting groove is provided with an insulating sealing plate corresponding to the sealing groove, and the insulating sealing plate is embedded into the sealing groove.

Preferably, the second conductive plate is provided with a fixing groove at a position opposite to the first conductive plate, and the first conductive plate is embedded into the fixing groove and is connected with the second conductive plate.

Preferably, the flexible protection layer is arranged on the outer sides of the second grooves of the embedded part and the connecting part, and the power line penetrates through the flexible protection layer and is embedded into the second grooves.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The embedded component, the connecting component, the second conductive plate and the like are arranged, and the power wire is respectively inserted into the second grooves of the embedded component and the connecting component when connected, so that the power wire is respectively connected with the second conductive plate and the first conductive plate, and then the second conductive plate is aligned with the connecting groove and embedded in the connecting groove and is connected with the first conductive plate, so that the wiring step is finished, and the problems that the wiring step is complicated and certain potential safety hazards exist under the condition that electric leakage is very easy to occur are solved.

(2) The limiting sealing plate, the limiting groove and the spring positioning block are arranged, and when the limiting sealing plate is installed, the limiting sealing plate is embedded into the limiting groove along with the embedding of the second conductive plate, the spring positioning block is continuously compressed until the spring positioning block moves to the position of the positioning groove, the spring positioning block is embedded into the positioning groove to complete the fixation, the embedded part and the connecting part are further fixed, and the occurrence of disconnection is reduced.

Drawings

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

fig. 2 is an enlarged view at a in fig. 1;

FIG. 3 is an enlarged view at B in FIG. 1;

in the figure: 1. a power line; 2. a flexible protective layer; 3. a first groove; 4. an embedded component; 5. a connecting groove; 6. a fixing groove; 7. a second groove; 8. a first conductive plate; 9. a connecting member; 10. a second conductive plate; 11. a hot melt plate; 12. an insulating sealing plate; 13. sealing grooves; 14. a limiting groove; 15. a positioning groove; 16. a spring positioning block; 17. and limiting the sealing plate.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 and 3, the present utility model provides the following technical solutions: the utility model provides an automatic riveting set of power connecting wire, including embedded part 4 and connecting part 9, embedded part 4 and connecting part 9 parallel connection, and all the level is provided with second recess 7 on embedded part 4 and the connecting part 9, the inside of second recess 7 all is provided with power cord 1, embedded part 4 internally mounted has second conductive plate 10, the one end of second conductive plate 10 extends to the inside of second recess 7 and contacts each other with power cord 1, the other end of second conductive plate 10 extends to the outside of embedded part 4, connecting part 9 has seted up spread groove 5 for the position of second conductive plate 10, the inside of second conductive plate 10 embedding to spread groove 5, the inside of connecting part 9 is provided with first conductive plate 8, the one end of first conductive plate 8 is embedded to the inside of spread groove 5 and contacts each other with second conductive plate 10, the other end of first conductive plate 8 extends to the inside of second recess 7 and contacts each other with power cord 1, the inside of first recess 3 has been seted up first recess 3, the inside of first recess 3 is provided with hot melt plate 11, the inside of first recess 11 all is embedded to the inside of first recess 3 and the inside of first recess 3 is the outside of first recess 1 for the heat melt plate extension to the outside of first recess 3.

Through the technical scheme: during connection, the power line 1 is inserted into the second grooves 7 of the embedded part 4 and the connecting part 9 respectively, so that the power line 1 is connected with the second conductive plate 10 and the first conductive plate 8 respectively, the second conductive plate 10 is aligned to the connecting groove 5 and embedded in the connecting groove, the second conductive plate 10 is connected with the first conductive plate 8, the preliminary wiring step is completed, the hot melting plate 11 positioned in the first groove 3 is gradually melted through heat conduction of the shell outside the embedded part 4 and the connecting part 9 and extends to the inside of the second groove 7 and is mutually contacted with the power line 1, after the hot melting plate 11 is cooled, the power line 1 is connected and fixed with the inner wall of the second groove 7, finally, the two power lines 1 are completely connected, and the problems that the wiring step is complicated and electric leakage is easy to occur are solved.

Further, the second conductive plate 10 is provided with a fixing groove 6 corresponding to the first conductive plate 8, the first conductive plate 8 is embedded into the fixing groove 6 and is connected with the second conductive plate 10, the flexible protection layer 2 is installed on the outer sides of the second grooves 7 of the embedded component 4 and the connecting component 9, and the power line 1 penetrates through the flexible protection layer 2 and is embedded into the second grooves 7.

Specifically, when the second conductive plate 10 is embedded into the connecting groove 5 and connected with the first conductive plate 8, the first conductive plate 8 is embedded into the fixing groove 6 and connected with the second conductive plate 10 through the fixing groove 6 formed in the second conductive plate 10, so that the stability of connection is further enhanced, and in addition, the connecting part of the power line 1 and the embedded part 4 and the connecting part 9 is protected through the flexible protection layer 2, so that the possibility of fracture is reduced.

Referring to fig. 1-2, a limiting seal plate 17 is mounted at one end of the connecting part 9 opposite to the connecting part 9, a limiting groove 14 is formed at a position of the embedding part 4 opposite to the limiting seal plate 17, the limiting seal plate 17 is embedded into the limiting groove 14, a spring positioning block 16 is mounted on an outer side wall of the limiting seal plate 17, a positioning groove 15 is formed at a position of the limiting groove 14 opposite to the spring positioning block 16, the spring positioning block 16 is embedded into the positioning groove 15, a seal groove 13 is formed at an upper end face of the limiting seal plate 17, an insulating seal plate 12 is mounted at a position of the upper end face of the limiting seal plate 14 opposite to the seal groove 13, and the insulating seal plate 12 is embedded into the seal groove 13.

Through the technical scheme: during installation, the limiting sealing plate 17 is embedded into the limiting groove 14 along with the embedding of the second conductive plate 10, the spring positioning block 16 is continuously compressed until the spring positioning block 16 moves to the position of the positioning groove 15, the spring positioning block 16 is instantly released due to self elasticity, the spring positioning block 16 is embedded into the positioning groove 15 to complete fixation, the embedded part 4 and the connecting part 9 are further fixed, the occurrence of disconnection is reduced, in addition, during installation, the insulating sealing plate 12 positioned on the upper end surface of the limiting groove 14 is embedded into the sealing groove 13 through the opened sealing groove 13, the connection between the outside and the connecting groove 5 is blocked through the insulating sealing plate 12, the possibility of electric leakage is reduced, and the safety coefficient of equipment is improved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An automatic riveting set of power connecting wire, its characterized in that: including embedded part (4) and connecting piece (9), embedded part (4) and connecting piece (9) parallel connection, and all the level is provided with second recess (7) on embedded part (4) and connecting piece (9), the inside of second recess (7) all is provided with power cord (1), embedded part (4) internally mounted has second conducting plate (10), the one end of second conducting plate (10) extends to the inside of second recess (7) and contacts each other with power cord (1), the outside of embedded part (4) is extended to the other end of second conducting plate (10), connecting groove (5) have been seted up for the position of second conducting plate (10) to connecting piece (9), the inside of second conducting plate (10) embedding to connecting groove (5), the inside of connecting piece (9) is provided with first conducting plate (8), the one end of first conducting plate (8) imbeds to the inside of connecting groove (5) and contacts each other with second conducting plate (10), the other end of first conducting plate (8) extends to the inside of connecting groove (1).

2. An automatic riveting device for power connection wires according to claim 1, wherein: limiting sealing plates (17) are arranged at one ends of the connecting parts (9) relative to the connecting parts (9), limiting grooves (14) are formed in the embedded parts (4) relative to the positions of the limiting sealing plates (17), the limiting sealing plates (17) are embedded into the limiting grooves (14), spring positioning blocks (16) are arranged on the outer side walls of the limiting sealing plates (17), positioning grooves (15) are formed in the positions of the limiting grooves (14) relative to the spring positioning blocks (16), and the spring positioning blocks (16) are embedded into the positioning grooves (15).

3. An automatic riveting device for power connection wires according to claim 2, characterized in that: the inside of second recess (7) has seted up first recess (3), the inside of first recess (3) is provided with hot melt plate (11), hot melt plate (11) all imbeds to the inside of first recess (3), and hot melt plate (11) are the outside that extends to first recess (3) for the one side of power cord (1).

4. A power connection wire automatic riveting apparatus as claimed in claim 3 wherein: the upper end face of the limiting sealing plate (17) is provided with a sealing groove (13), an insulating sealing plate (12) is arranged at the position, corresponding to the sealing groove (13), of the upper end face of the limiting groove (14), and the insulating sealing plate (12) is embedded into the sealing groove (13).

5. The automatic power connection wire riveting device as claimed in claim 4, wherein: the second conductive plate (10) is provided with a fixing groove (6) relative to the first conductive plate (8), and the first conductive plate (8) is embedded into the fixing groove (6) and is connected with the second conductive plate (10).

6. The automatic power connection wire riveting device as claimed in claim 5, wherein: the flexible protection layer (2) is arranged on the outer sides of the second grooves (7) of the embedded part (4) and the connecting part (9), and the power line (1) penetrates through the flexible protection layer (2) and is embedded into the second grooves (7).