CN213093400U - Wire diverter - Google Patents

Abstract

The utility model provides an electric wire shunt, which comprises a main body part, a conductor connecting pipe and a sealing insulating layer, wherein the main body part comprises a main wire core connected to a main wire and at least one main body part shunt core connected to the main wire core of the main body part, the main body part shunt core is connected with a shunt core of the shunt wire, and the main body part is wrapped with the insulating layer; the conductor connecting pipe comprises a first conductor connecting pipe for inserting the main line wire core and the main body part main wire core and a second conductor connecting pipe for inserting the branch wire core and the main body part branch wire core, and the first conductor connecting pipe and the second conductor connecting pipe are connected with the main body part, the main line wire core and the branch wire core in a clamping mode due to the fact that external extrusion force is received; the sealing insulating layer comprises a first sealing insulating layer arranged outside the main body part and a second sealing insulating layer arranged outside the first conductor connecting pipe and the second conductor connecting pipe. The electric wire shunt can realize the shunting of the main electric wire to the branch electric wire and has better use safety.

Description

Wire diverter

Technical Field

The utility model relates to an electric wire reposition of redundant personnel technical field, in particular to electric wire shunt.

Background

In the prior art, a small-sized wire shunt is mainly used for shunting wires, and the wire shunt is connected by using an adhesive tape when in use, but the shunt has the following defects when in use: 1. the joint is easy to age due to untight adhesion, and the moisture-proof and waterproof effects are poor, so that potential safety hazards are generated; 2. the adhesive tape is liable to be aged, and poor conduction is caused as the adhesiveness of the adhesive tape is lowered, and in severe cases, a fire is caused.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing an electric wire shunt to improve the reposition of redundant personnel effect of sinle silk, and can effectively prolong the life of electric wire.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

a wire diverter connected to a main electrical wire arranged for disconnection to divert current from the main electrical wire to at least one branch electrical wire, the wire diverter comprising:

the main body part comprises a main body part main wire core connected to the main wire core of the main wire to form a main body part main wire core which is conducted by the main wire after the main wire is disconnected, and at least one main body part branch wire core connected to the main body part main wire core, the main body part branch wire core is connected with the branch wire core of the branch wire, and an insulating layer is wrapped outside the main body part;

the conductor connecting pipe comprises a first conductor connecting pipe for inserting the main line wire core and the main body part main wire core and a second conductor connecting pipe for inserting the branch wire core and the main body part branch wire core, and the main line wire core, the main body part main wire core and the main body part branch wire core are clamped in the first conductor connecting pipe and the main body part branch wire core and the branch wire core are clamped in the second conductor connecting pipe due to the fact that the first conductor connecting pipe and the second conductor connecting pipe bear external extrusion force;

and the sealing insulating layer comprises a first sealing insulating layer coated outside the first conductor connecting pipe and a second sealing insulating layer coated outside the second conductor connecting pipe, two ends of the first sealing insulating layer respectively extend to the insulating layer and the outer side of a main wire skin of the main wire, and two ends of the second sealing insulating layer respectively extend to the insulating layer and the outer side of a branch wire skin of the branch wire.

Further, the main body piece is made of a metal material.

Further, the conductor connecting pipe is made of a metal material.

Further, the first sealing insulating layer and the second sealing insulating layer are insulating heat shrink tubes.

Compared with the prior art, the utility model discloses following advantage has:

(1) electric wire shunt, through setting up main part and conductor connecting pipe, can constitute main electric wire and a plurality of connection of dividing between the electric wire to can realize the reposition of redundant personnel of main electric wire to a plurality of branch electric wires. In addition, can carry out insulation protection to the main part through the insulating layer, and can also play better insulating seal effect in conductor connecting pipe department through first sealing insulation layer and second sealing insulation layer, do benefit to and improve the safety in utilization of main electric wire under the reposition of redundant personnel state. In addition, through setting up the conductor connecting pipe, through adopting the conductor connecting pipe, can be convenient for press from both sides thread sinle silk and main part owner sinle silk to and separated time sinle silk and main part branch sinle silk press from both sides tight connection, compare in traditional sticky tape and connect, this kind of connected mode who adopts the conductor connecting pipe is simple, and the fastening nature of connecting is good, does benefit to the life who prolongs whole electric wire shunt.

(2) The main part and the conductor connecting pipe are made of metal materials, and have the advantages of convenience in processing and good using effect.

(3) Adopt insulating pyrocondensation pipe to seal and insulate the conductor connecting pipe, have better dampproofing and waterproofing effect, and corrosion resisting property is excellent.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a schematic structural view of a main body member according to an embodiment of the present invention;

fig. 2 is a schematic structural view of the main body member, the main wire and the branch wires in a connection state according to the embodiment of the present invention;

fig. 3 is a schematic view of a connection state between a main wire and a main wire core of a main body according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a conductor connecting pipe according to an embodiment of the present invention;

description of reference numerals:

a-main body part, 1-main wire, 2-branch wire, 3-insulating layer, 4-main wire sheath, 5-branch wire sheath, 6-main wire core, 7-main body part main wire core, 8-main body part branch wire core, 9-first branch wire core, 10-first conductor connecting pipe, 11-second conductor connecting pipe, 12-first sealing insulating layer, 13-second sealing insulating layer.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "back", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The present embodiment relates to an electric wire diverter connected to a main electric wire 1 that is disposed in an open state to divert electric current of the main electric wire 1 to at least one branch electric wire 2. As shown in fig. 1 and 2, the electric wire shunt includes a main body piece a for constituting connection and shunt between a main electric wire 1 and a branch electric wire 2. In a specific structure, the main body part A comprises a main body part main wire core 7 connected between main wire core 6 of main wire 1 after disconnection, and two main body part branch wire cores 8 connected to main body part main wire core 7, and the output ends of the main body part branch wire cores 8 can be connected with branch wire cores 9 of the branch wires 2.

In this embodiment, the current on the main wire 1 can be continuously transmitted on the main wire core of the main wire 1 through the main body member main wire core 7, and the main body member main wire core 7 can also be transmitted to the two branch wires 2 through the main body member branch wire core 8, so that a better current division effect is realized. In addition, the main body part A is wrapped by the insulating layer 3, the insulating layer 3 is specifically a wire sheath, and the material of the insulating layer can be the same as that of a mature wire sheath in the prior art, so that the insulating effect of the joint between the main body part main wire core 7 and the main body part branch wire core 8 is better, the sealing performance is obviously improved, and the service life and the safety of the whole product are favorably improved.

It should be particularly noted that the main body member main core 7 and the main body member shunt core 8 are integrally formed, and are made of a metal material. Wherein, when the material of thread sinle silk 6 and separated time sinle silk 9 is the same, main part A is the same with the material of thread sinle silk 6, when the material of thread sinle silk 6 and separated time sinle silk 9 is different, main part A is the same with the material of thread sinle silk 6 or separated time sinle silk 9 to reach better electric current reposition of redundant personnel effect certainly, main part A and thread sinle silk 6 and separated time sinle silk 9 also can adopt different metal material in this embodiment, as long as can realize electrically conductive function can.

In addition, according to the use requirement of specific current splitting, the number of the main body part shunt core 8 and the shunt wires 2 in the embodiment can be increased or decreased.

The current shunting structure in this embodiment further includes a conductor connecting pipe for connecting the main body member a with the main line core 6 and the branch line core 9. As shown in fig. 2 and 4, the conductor connection pipe in the present embodiment includes a first conductor connection pipe 10 into which the main line core 6 and the main body piece main line core 7 are inserted, and a second conductor connection pipe 11 into which the branch line core 9 and the main body piece branch line core 8 are inserted. Specifically, the output end of the main wire core 6 and the input end of the main body part main wire core 7, and the output end of the main body part main wire core 7 and the input end of the main wire core 6 are inserted from both ends of the first conductor connecting pipe 10, respectively. The output end of the main body part branching core 8 and the input end of the branching core 9 are respectively inserted from both ends of the second conductor connecting pipe 11. Because the first conductor connecting pipe 10 and the second conductor connecting pipe 11 bear external extrusion force, the main line connecting wire core 6 and the main body part main wire core 7 are clamped in the first conductor connecting pipe 10, and the main body part branching wire core 8 and the branching wire core 9 are arranged in the second conductor connecting pipe 11.

The conductor connecting pipe in this embodiment is specifically a metal pipe, and it may be made of the same material as the main line wire core 6 or the branch line wire core 9. So set up, have better electrically conductive effect on the one hand, on the other hand still is convenient for receiving the extrusion force and warp to reach better clamping effect. In addition, the conductor connecting pipe can be pressed by using a tool such as pliers to provide the pressing force. Of course, in this embodiment, the conductor connecting pipe may also be made of a metal material different from the main line wire core 6 and the branch line wire core 9, as long as the function of electrical conduction can be achieved.

The wire shunt in this embodiment further includes a sealing insulation layer, as shown in fig. 2 and 3, the sealing insulation layer specifically includes a first sealing insulation layer 12 wrapped around the first conductor connecting pipe 10, and a second sealing insulation layer 13 wrapped around the second conductor connecting pipe 11. And both ends of the first sealing insulation layer 12 extend to the outside of the insulation layer 3 and the main wire sheath 4 of the main wire 1 respectively, and both ends of the second sealing insulation layer 13 extend to the outside of the insulation layer 3 and the branch wire sheath 5 of the branch wire 2 respectively, so that the use safety of the whole wire shunt is improved. The insulating layer 3 here is also the wire sheath on the body part a described above.

In this embodiment, the first sealing insulating layer 12 and the second sealing insulating layer 13 are both insulating heat shrinkable tubes, and here, the conductor connecting tube is sealed and insulated by using the insulating heat shrinkable tubes, so that the waterproof and moistureproof effects are good, and the corrosion resistance is excellent.

When the electric wire shunt according to the present embodiment is used, first, the main body piece main core 7 and the main body piece shunt core 8 are inserted into one end of the first conductor connecting pipe 10 and one end of the second conductor connecting pipe 11, respectively; then, the main line wire core 6 and the branch line wire core 9 are respectively inserted into the other ends of the first conductor connecting pipe 10 and the second conductor connecting pipe 11; next, the first conductor connection pipe 10 and the second conductor connection pipe 11 are clamped by using a tool such as a pincer, so that the main line wire core 6, the branch line wire core 9, and the main body piece a are fixed in the first conductor connection pipe 10 and the second conductor connection pipe 11; finally, a first insulation heat-shrinkable tube 12 is sleeved outside the first conductor connecting tube 10, a second insulation heat-shrinkable tube 13 is sleeved on the second conductor connecting tube 11, and the two ends of the first insulation heat-shrinkable tube 12 are ensured to extend and wrap the main wire sheath 4 and the main body piece A wire sheath, and the two ends of the second insulation heat-shrinkable tube 13 extend and wrap the branch wire sheath 5 and the main body piece A wire sheath, so that the installation is completed.

The electric wire shunt according to the present embodiment is configured such that the main body member a and the conductor connecting pipe are provided to connect the main electric wire 1 and the plurality of branch electric wires 2, thereby shunting the main electric wire 1 to the plurality of branch electric wires 2. In addition, the insulating layer 3, the first sealing insulating layer 12 and the second sealing insulating layer 13 can also have a good insulating effect, and the use safety of the main electric wire 1 in a shunt state is improved. In addition, by adopting the conductor connecting pipe, the main line wire core 6 and the main body piece main wire core 7, and the branching wire core 9 and the main body piece branching wire core 8 can be connected by clamping. Compare in traditional sticky tape connection, this kind of connected mode who adopts the conductor connecting pipe is simple, and the fastening nature of connecting is good, does benefit to the life of extension whole electric wire shunt.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A wire diverter connected to a main electric wire (1) in a disconnected setting to divert current of the main electric wire (1) to at least one branch electric wire (2), characterized by comprising:

the main body part (A) comprises a main body part main wire core (7) which is connected to a main wire core (6) of the main wire (1) to form a main body part main wire core (7) which is conducted with the main wire (1) after being disconnected, and at least one main body part branch wire core (8) which is connected to the main body part main wire core (7), the main body part branch wire core (8) is connected with a branch wire core (9) of the branch wire (2), and an insulating layer (3) wraps the main body part (A);

the conductor connecting pipe comprises a first conductor connecting pipe (10) for inserting the main line wire core (6) and the main body part main wire core (7) and a second conductor connecting pipe (11) for inserting the branch line wire core (9) and the main body part branch line core (8), and the main line wire core (6), the main body part main wire core (7) and the main body part branch line core (8) are clamped in the second conductor connecting pipe (11) due to the fact that the first conductor connecting pipe (10) and the second conductor connecting pipe (11) bear external extrusion force;

the sealing insulating layer comprises a first sealing insulating layer (12) coated outside the first conductor connecting pipe (10) and a second sealing insulating layer (13) wrapped outside the second conductor connecting pipe (11), the two ends of the first sealing insulating layer (12) extend to the insulating layer (3) and the main wire sheath (4) of the main wire (1) respectively, and the two ends of the second sealing insulating layer (13) extend to the insulating layer (3) and the branch wire sheath (5) of the branch wire (2) respectively.

2. The wire diverter of claim 1, wherein: the main body piece (A) is made of metal materials.

3. The wire diverter of claim 1, wherein: the conductor connecting pipe is made of metal materials.

4. The wire diverter according to any one of claims 1 to 3, wherein: the first sealing insulating layer (12) and the second sealing insulating layer (13) are insulating heat shrink tubes.

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