CN218100842U - Wire-dividing sheath - Google Patents

Abstract

The utility model discloses a wire separating sheath, include: an elastomer, which in turn comprises: the wire-branching section is provided with at least two wire-branching outlet holes communicated with the terminal mounting holes; the elastic body is provided with a closing-in at the port of the terminal mounting hole or/and is provided with at least one annular bulge on the inner wall of the terminal mounting hole, the elastic body is provided with a closing-in at the port of the branching wire outlet hole or/and is provided with at least one annular bulge on the inner wall of the branching wire outlet hole. Separated time sheath mainly used power equipower terminal's protection.

Description

Wire-dividing sheath

Technical Field

The utility model relates to a protector to binding post, concretely relates to protection binding post's separated time sheath.

Background

It is well known that in many applications, terminals require splitting and connection to multiple cables. At present, after a wiring terminal is separated from a wire, two methods are mainly used for protecting the wiring terminal: one method is to adopt a heat-shrinkable tube to sleeve the wiring terminal of the wiring terminal and the wiring terminal of the cable and perform heat shrinkage molding, and the method cannot eliminate the gap between the core wires and has poor sealing performance (because complete sealing cannot be achieved); the other method is to adopt a mould for injection molding type encapsulation, the method has complex process and high cost, and the glue layer can not be normally used once being damaged in the using process, thereby greatly increasing the maintenance cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the wire distributing sheath has the advantages of good sealing performance, low cost and convenience in disassembly and assembly.

In order to solve the technical problem, the utility model discloses a technical scheme does: a split-wire sheath, comprising: an elastomer, which in turn comprises: the elastic body is provided with at least two branching outlet holes communicated with the terminal mounting holes at the branching section; the elastic body is provided with a closing-in at the port of the terminal mounting hole or/and is provided with at least one annular bulge on the inner wall of the terminal mounting hole, the elastic body is provided with a closing-in at the port of the branching wire outlet hole or/and is provided with at least one annular bulge on the inner wall of the branching wire outlet hole.

As a preferable scheme, in the splitting sheath, a transition connection portion is disposed between the combining section and the splitting section of the elastic body, a cable installation chamber is disposed in the transition connection portion, a combining port connected with the terminal installation hole is disposed at one end of the cable installation chamber close to the combining section, and splitting ports connected with the splitting outlet holes in a one-to-one correspondence manner are disposed at one end of the cable installation chamber close to the splitting section.

Preferably, in the branching sheath, the branching section of the elastic body includes a cylindrical mounting portion corresponding to and independent from the branching outlet hole, and an inner hole of the cylindrical mounting portion is the branching outlet hole.

In a preferred embodiment, in the one type of the distribution sheath, the elastomer body is provided with two distribution holes in the distribution section thereof.

As a preferable scheme, in the split line sheath, the elastomer is made of soft rubber; as a further preferable scheme, the soft rubber is rubber.

The beneficial effects of the utility model are that: the separated time sheath be the elastomer for the dismouting of separated time sheath is very convenient, and, because the elastomer is provided with binding off or/and is provided with at least one annular bellying on the inner wall of terminal mounting hole in the port department of terminal mounting hole, make binding post's sealing performance protected, because the elastomer is provided with binding off or/and is provided with at least one annular bellying on the inner wall of separated time wire hole in the port department of separated time wire hole, make its sealing performance with the wiring end of cable obtain the guarantee. In addition, the transition connecting part is arranged between the doubling section and the branching section, so that the bending of the cable is ensured to be more flexible; in addition, the cylindrical installation parts which are mutually independent are arranged, so that the weight of the wire distributing sheath is reduced, and the material cost is reduced.

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the branching sheath of the present invention.

Fig. 2 is a schematic view of the cross-sectional structure of the wire distributing sheath of the present invention.

Fig. 3 is a schematic perspective view of the terminal.

Fig. 4 is a structural diagram of the service state of the wire distributing sheath of the present invention.

Fig. 5 is a sectional view of the wire distributing sheath according to the present invention.

The reference numerals in fig. 1 to 5 are: 1. the cable connector comprises a connecting terminal, 2, an elastic body, 21, a doubling section, 210, a terminal mounting hole, 2101, a closing-in part, 2102, an annular convex part, 22, a transition connecting section, 220, a cable arranging chamber, 23, a branching section, 231, a first cylindrical mounting part, 2310, a first branching wire outlet hole, 23101, a closing-in part, 23102, an annular convex part, 232, a second cylindrical mounting part, 2320, a second branching wire outlet hole, 23201, a closing-in part, 23202, an annular convex part, 31, a first cable, 32 and a second cable.

Detailed Description

The following describes a specific embodiment of the wire-dividing sheath according to the present invention in detail with reference to fig. 1 to 5.

As shown in fig. 1 and fig. 2, the utility model discloses a wire separating sheath, include: an elastomer 2, the elastomer 2 in turn comprising: the combined line segment 21 and the branching segment 23, and the transition connecting segment 22 connecting the combined line segment 21 and the branching segment 23, the elastic body 2 is provided with a terminal mounting hole 210 on the combined line segment 21, the elastic body 2 is provided with a first cylindrical mounting part 231 and a second cylindrical mounting part 232 which are independent of each other on the branching segment 23, the inner hole of the first cylindrical mounting part 231 is a first branching outlet hole 2310 of the first cable 31, and the inner hole of the second cylindrical mounting part 232 is a second branching outlet hole 2320 of the second cable 32; the elastic body 2 is provided with a closing-in 2101 at the port of the terminal mounting hole 210 or/and is provided with two annular convex parts 2102 on the inner wall of the terminal mounting hole 210 (the number of the annular convex parts 2102 is determined according to the actual situation); the first cylindrical mounting part 231 is provided with a closing-in 23101 at the port of the first branch outlet hole 2310, and is provided with four annular convex parts 23102 on the inner wall of the first branch outlet hole 2310 (the annular convex parts 23102 are determined according to actual conditions); the second cylindrical mounting part 232 is provided with a closing-in 23201 at the port of the second branch wire outlet hole 2320, and four annular protruding parts 23202 are arranged on the inner wall of the second branch wire outlet hole 2320 (the annular protruding parts 23202 are determined according to actual conditions); the transition connection portion is provided with a cable installation chamber 220, one end of the cable installation chamber 220 close to the parallel line segment 21 is provided with a parallel line port connected with the terminal installation hole 210, and one end of the cable installation chamber 220 close to the branch line segment 23 is respectively provided with branch line ports connected with the first branch line outlet hole 2310 and the second branch line outlet hole 2320 in a one-to-one correspondence manner.

In practical application, the elastic body 2 is made of rubber or other elastic body materials; as shown in fig. 5, the elastic body 2 is provided with a closing-in 2101 only at the port of the terminal mounting hole 210, a closing-in 23101 at the port of the first branch line outlet hole 2310 (shown in fig. 1), and a closing-in 23201 at the port of the second branch line outlet hole 2320 (shown in fig. 1).

When mounting, the terminal block 1 shown in fig. 3 is connected to the core wires in one ends of the first and second cables 31 and 32, and then the first and second cables 31 and 32 are inserted into the first and second cylindrical mounting portions 231 and 232 in a one-to-one correspondence, and the terminal block 1 is placed in the terminal mounting hole 210 of the elastic body 2 and the wire segment 21 (the structure after mounting is shown in fig. 4).

In summary, the present invention is only a preferred embodiment, and is not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the shapes, structures, features and spirit of the claims of the present invention should be included in the scope of the claims of the present invention.

Claims (6)

1. A breakout enclosure, said breakout enclosure comprising: an elastomer, which in turn comprises: the wire-branching section is provided with at least two wire-branching outlet holes communicated with the terminal mounting holes; the elastic body is provided with a closing-in at the port of the terminal mounting hole or/and is provided with at least one annular bulge on the inner wall of the terminal mounting hole, the elastic body is provided with a closing-in at the port of the branching wire outlet hole or/and is provided with at least one annular bulge on the inner wall of the branching wire outlet hole.

2. The breakout sheath of claim 1, wherein: the elastomer be provided with transition connecting portion between doubling section and separated time section, be provided with the cable arrangement room in the transition connecting portion, the cable arrangement room is provided with the doubling mouth that links up with the terminal mounting hole near doubling section one end, the cable arrangement room is provided with the separated time mouth that links up with separated time wire hole one-to-one near separated time section one end.

3. The breakout sheath of claim 1, wherein: the branching section of the elastic body comprises cylindrical mounting parts which are in one-to-one correspondence with the branching outlet holes and are mutually independent, and inner holes of the cylindrical mounting parts are the branching outlet holes.

4. The breakout sheath of claim 1, wherein: the elastomer is provided with two branching outlet holes at the branching section.

5. A breakout sheath according to any one of claims 1 to 4, wherein: the elastomer is made of soft rubber.

6. The breakout sheath of claim 5, wherein: the soft glue is rubber.

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