WO2021193729A1

WO2021193729A1 - Cable connector

Info

Publication number: WO2021193729A1
Application number: PCT/JP2021/012273
Authority: WO
Inventors: 崇口山; 中村　淳一; 玄介小泉; 邦裕中野
Original assignee: 株式会社カネカ
Priority date: 2020-03-26
Filing date: 2021-03-24
Publication date: 2021-09-30
Also published as: CN115210978A; CN115210978B; JPWO2021193729A1; JP7667135B2

Abstract

Provided is a cable connector that does not allow cables to be reconnected easily when the cables are unintentionally separated. A cable connector 1 according to one embodiment of the present invention is provided with: a connection member 23 to which a cable C1 is electrically connected; a housing H (10, 12, 21, 22) for holding the connection member 23; and insulating mechanisms M (13, 24) for providing insulation between the cable C1 and the connection member 23 when the cable C1 is separated from the connection member 23 due to tension acting on the cable C1.

Description

Cable connector

The present invention relates to a cable connector.

A general solar cell module has a main body in which a plurality of solar cell cells are sealed, and a cable for connecting to an external circuit extending from the main body and performing, for example, voltage adjustment, orthogonal conversion, and the like. Such a cable is usually connected to an external circuit by a cable connector such as a connector or a terminal box. It is desired that such a cable connector can reliably make an electrical connection. Therefore, for example, as described in Patent Document 1, many techniques for improving the connectivity of the cable connector have been proposed.

Japanese Unexamined Patent Publication No. 2012-123043

For example, if a vehicle equipped with a solar cell module causes an accident, or if the cable of the solar cell module is unintentionally disconnected from the external circuit for some reason, a short circuit, ground fault, etc. will occur on the side of the external circuit. There is a possibility that a problem has occurred. In such a situation, if the cable of the solar cell module is unintentionally reconnected, electricity may suddenly flow, causing a secondary disaster such as an electric shock or an energized fire.

Therefore, an object of the present invention is to provide a cable connector that does not easily reconnect when an unintended cable separation occurs.

The cable connector according to one aspect of the present invention separates the cable from the connecting member by electrically connecting the cable, a housing holding the connecting member, and applying tension to the cable. In this case, an insulating mechanism for insulating the cable and the connecting member is provided.

In the cable connector according to one aspect of the present invention, the insulating mechanism is held in the housing and contains an insulating agent having fluidity, and is fixed to the cable, and the cable is connected from the connecting member. It may have a breaking member that breaks the insulating container and allows the insulating to flow out when separated.

In the cable connector according to one aspect of the present invention, the housing has a passage groove through which at least a part of the breaking member passes when the cable is connected to the connection member, and the passage groove is the cable. It may have a transverse groove portion extending in a direction different from the extending direction of the cable, and may be formed so as to bypass the insulating container and guide the breaking member to the end side of the cable in the extending direction of the insulating container. ..

In the cable connector according to one aspect of the present invention, the passage groove may have a tip groove portion extending in the extending direction of the cable on the leading end side of the insulating container in the extending direction of the cable.

In the cable connector according to the above aspect, the housing may have an openable / closable lid for holding the insulating container.

In the cable connector according to one aspect of the present invention, the insulating mechanism may have an elastic member in which a slit is formed and an opening into which the cable can be inserted is formed by elastic deformation.

According to the present invention, it is possible to provide a cable connector that does not easily reconnect when an unintended cable separation occurs.

It is a perspective view which shows the cable connector which concerns on 1st Embodiment of this invention. It is sectional drawing of the cable connector of FIG. It is sectional drawing which shows the cable connector which concerns on 2nd Embodiment of this invention. It is a perspective view which shows the cable connector which concerns on 3rd Embodiment of this invention. It is sectional drawing of the cable connector of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. For convenience, hatching, member codes, etc. may be omitted, but in such cases, other drawings shall be referred to. Further, the dimensions of the various members in the drawings are adjusted for convenience so that they can be easily seen. Further, in the following description, the same components as those in the above-described embodiment may be designated by the same reference numerals and duplicate description may be omitted.

<First Embodiment>
FIG. 1 is a perspective view of the cable connector 1 according to the first embodiment of the present invention. FIG. 2 is a cross-sectional view of the cable connector 1 of FIG.

The cable connector 1 of the present embodiment is a connector that concentrically connects the first cable C1 and the second cable C2. The cable connector 1 includes a male connector 10 attached to the end of the first cable C1 and a female connector 20 attached to the end of the second cable C2 and connected to the male connector 10.

The first cable C1 and the second cable C2 can each have a core wire Cw and an insulating coating Ci that covers the core wire Cw. The male side connector 10 or the female side connector 20 is connected to the first cable C1 and the second cable C2 in a state where the insulating coating Ci at the end is removed and the core wire Cw is exposed.

The male connector 10 extends from the male fixing portion 11 mounted on the outer periphery of the tip end portion of the insulating coating Ci of the first cable C1 and the male fixing portion 11, and the core wire Cw of the first cable C1 is exposed. It has a protective cylinder 12 that covers the outside of the portion at intervals, and a breaking member 13 that protrudes from the outer peripheral surface of the tip end portion of the protective cylinder 12.

The female side connector 20 extends from the female side fixing portion 21 mounted on the outer periphery of the tip end portion of the insulating coating Ci of the second cable C2 and the female side fixing portion 21, and the core wire Cw of the second cable C2 is exposed. The outer side of the portion is covered with a gap, and the outer cylinder 22 fitted to the outer periphery of the protective cylinder 12 of the male connector 10 and the female side fixing portion 21 are held to expose the core wire Cw of the second cable C2. A connecting member 23 that is fitted to the outside of the portion to be fitted and into which the core wire of the first cable C1 can be inserted by further projecting from the core wire Cw, and an insulating agent that is held by the outer cylinder 22 and has fluidity. It has an insulating container 24 for accommodating it.

The outer cylinder 22 has a passage groove 25 on its inner peripheral surface that receives the breaking member 13 of the male connector 10. The passage groove 25 has a receiving groove portion 251 having one end opened at the tip edge of the outer cylinder 22 (the end edge on the base end side of the first cable C1) and extending in the extending direction of the tip end portion of the first cable C1, and a receiving groove portion. A transverse groove portion 252 extending from the other end of the 251 in a direction different from the extending direction of the first cable C1, for example, in a circumferential direction of the outer cylinder 22 (a direction orthogonal to the extending direction of the first cable C1) as shown in the drawing. The tip groove portion 253 extending from the tip of the groove portion 252 to the tip side in the extending direction of the first cable C1 and the emergency groove portion 254 extending from the tip of the transverse groove portion 252 to the base end side of the first cable C1 and being terminated by the insulating agent container 24. And have.

The connecting member 23 is electrically connected to the core wire Cw of the second cable C2, and when the male side connector 10 and the female side connector 20 are connected, the core wire Cw of the first cable C1 is electrically connected. NS. Therefore, the connecting member 23 is formed of a conductive material such as copper.

The insulating agent container 24 is formed to be destructible by the destructive member 13. Specifically, the portion of the insulating container 24 that the breaking member 13 can come into contact with may be formed thinly, or the entire insulating container 24 may be formed using a material having a relatively low strength. On the contrary, the breaking member 13 has sufficient strength to break the insulating container 24. Therefore, the breaking member 13 may be formed of a material different from that of the protective cylinder 12. Further, the breaking member 13 may have a sharp edge so as to easily break the insulating container 24.

When the core wire Cw of the first cable C1 is separated from the connecting member 23 by applying tension to the first cable C1, the insulating agent container 24 is destroyed by the breaking member 13 that comes into contact with the emergency groove portion 254. As a result, the insulating agent to be contained is discharged. The insulating agent leaked from the insulating agent container 24 covers the connecting member 23 and prevents the core wire Cw of the first cable C1 from coming into contact with the connecting member 23 again. That is, the insulating container 24 and the breaking member 13 are connected to the first cable C1 when the core wire Cw is detached from the connecting member 23 due to a large external force such as pulling out from the cable connecting tool 1 acting on the cable C1. It constitutes an insulation mechanism M that insulates from 23.

With the male side connector 10 and the female side connector 20 connected, the male side fixing portion 11, the protective cylinder 12, the female side fixing portion 21 and the outer cylinder 22 are exposed portions of the core wire Cw of the first cable C1. 2 A housing H that accommodates an exposed portion of the core wire of the cable C2 and a connecting member 23 that connects the core wire Cw of the first cable C1 and the core wire Cw of the second cable C2 and is insulated from the outside is formed. .. Therefore, the male-side fixing portion 11, the protective cylinder 12, the female-side fixing portion 21, and the outer cylinder 22 are preferably formed of an insulating material such as resin.

When connecting the male side connector 10 and the female side connector 20, at least a part of the breaking member 13 is inserted into the passing groove 25, and the breaking member 13 is inserted so that at least a part of the breaking member 13 passes through the passing groove 25. It is moved along the passage groove 25. As a result, the breaking member 13 bypasses the insulating container 24 and reaches the tip end side of the first cable C1 of the insulating container 24 in the extending direction. That is, the passage groove 25 guides the breaking member 13 to prevent contact with the insulating container 24 when the male connector 10 and the female connector 20 are connected, thereby preventing unintended damage to the insulating container 24. do.

Since the passing groove 25 has the tip groove portion 253, the core wire Cw of the first cable C1 is not rotated with respect to the connecting member 23 at the final stage of the connection between the male side connector 10 and the female side connector 20. It can be inserted straight. As a result, it is possible to prevent unnecessary twisting of the core wire Cw of the first cable C1.

As described above, the cable connector 1 according to the present embodiment causes the insulating agent to flow out from the insulating container 24 when the first cable C1 is unintentionally separated from the connecting member 23, and the first cable C1. Can be prevented from being easily reconnected to the second cable C2 to prevent electric shock and energized fire.

Further, the cable connector 1 covers the connecting member 23 with the insulating agent leaked from the insulating agent container 24 when the first cable C1 is unintentionally separated from the connecting member 23. Therefore, for example, the first cable C1 It is possible to prevent short circuits, electric leakage, etc. that may be caused by water entering through the opening through which the cable has escaped, or for example, an inexperienced user forcibly attaches the first cable C1 or other wiring to the connecting member 23 in an attempt to restore the device. It is possible to improve safety by preventing connection.

<Second Embodiment>
FIG. 3 is a cross-sectional view of the cable connector 1A according to the second embodiment of the present invention. The cable connector 1A of the present embodiment is a terminal box.

The cable connector 1A is arranged inside the box-shaped housing 30, the terminal block 40 to which the cable C is connected, and the cable C and the terminal block when the cable C is pulled out from the housing 30. It is provided with an insulation mechanism 50 that insulates the space from the 40.

The housing 30 has a box-shaped main body 31 having an opening on one side and a lid 32 that seals the opening of the main body 31. The lid portion 32 may be detachable from the main body portion 31, or may be connected to the main body portion 31 so as to be openable and closable by a hinge or the like.

The terminal block 40 faces the connecting member 42, the base portion 41 fixed to the main body portion 31 of the housing 30, the connecting member 42 having the plate-shaped portion 421 to which the core wire Cw of the cable C is electrically connected, and the connecting member 42. It can be configured to have a holding plate 43 for sandwiching the core wire Cw of the cable C between the connecting member 42 and a screw 44 for pressing the holding plate 43 against the connecting member 42. Although not shown, for example, the output wiring of the solar cell module is connected to the connecting member 42.

The insulating mechanism 50 has a breaking member 51 attached to the cable C, and an insulating container 52 held by the lid 32 and containing a fluid insulating agent. Further, the insulating mechanism 50 may include a holding member 53 having a groove 531 in which the cable C is arranged and the insulating agent leaked from the insulating agent container 52 is held in a space where the cable C can be arranged.

The breaking member 51 can be fixed to the outer periphery of the insulating coating Ci of the cable C by caulking or a fastening band, for example. Further, the breaking member 51 may be fixed to the core wire Cw of the cable C.

The cable connector 1A seals the housing 30 by connecting the cable C to the terminal block 40 with the lid 32 open and then sealing the main body 31 with the lid 32 that holds the insulating container 52. At the same time as the stopped state, the insulating container 52 is arranged at a position where it is destroyed by the breaking member 51 when the cable C is pulled out. As a result, when the cable C is separated from the connecting member 42, the insulating agent leaked from the insulating container 52 can suppress the reconnection of the cable C to the connecting member 42 unintentionally.

<Third Embodiment>
FIG. 4 is a perspective view of the cable connector 1B according to the third embodiment of the present invention. FIG. 5 is a cross-sectional view of the cable connector 1B of FIG. The cable connector 1B of the present embodiment is a terminal box.

The cable connector 1B is arranged inside the box-shaped housing 30, the terminal block 40 to which the cable C is connected, and the cable C and the terminal block when the cable C is pulled out from the housing 30. It is provided with an insulation mechanism 60 that insulates the space from the 40.

The insulating mechanism 60 in this embodiment has an elastic member 61 arranged inside the opening into which the cable C of the housing 30 is inserted. A slit 611 is formed in the elastic member 61, and the slit 611 is expanded by elastic deformation to form an opening into which the cable C can be inserted. The elastic member 61 is preferably deformable so that its volume can be compressed, and can be formed from, for example, sponge-like rubber.

In the cable connector 1B, when the cable C is pulled out from the housing 30, the elastic member 61 is restored to close the opening in which the cable C is inserted, so that the cable C is not easily reconnected to the connecting member 42. ..

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications and modifications can be made.

The guide groove does not have an emergency groove portion, and a part of the side wall on the cable base end side of the transverse groove portion may be formed by an insulating agent container. Further, the guide groove may not have a tip groove portion. The transverse groove portion may extend spirally around the central axis of the cable, or may be curved so that the inclination angle with respect to the extending direction of the cable changes.

1,1A, 1B Cable connector 10 Male side connector 11 Male side fixing part 12 Protective cylinder 13 Destruction member 20 Female side connector 21 Female side fixing part 22 Outer cylinder 23 Connecting member 24 Insulation container 25 Tongguogou 251 Receiving groove 252 Traverse Groove 253 Tip groove 254 Emergency groove 30 Housing 31 Main body 32 Lid 40 Terminal block 41 Base 421 Plate-shaped 42 Connecting member 43 Holding plate 44 Screw 50 Insulation mechanism 51 Destruction member 52 Insulation agent container 53 Holding member 531 Groove 60 Insulation Mechanism 61 Elastic member 611 Slit C cable C1 1st cable C2 2nd cable Ci Insulation coating Cw Core wire H Housing M Insulation mechanism

Claims

The connecting member to which the cable is electrically connected and
A housing that holds the connecting member and
An insulating mechanism that insulates between the cable and the connecting member when the cable is separated from the connecting member by applying tension to the cable.
Equipped with a cable connector.
The insulation mechanism
An insulating container held in the housing and containing a fluid insulating agent,
A destructive member fixed to the cable and destroying the insulating container to allow the insulating agent to flow out when the cable is separated from the connecting member.
The cable connector according to claim 1.
The housing has a passage groove through which at least a part of the breaking member passes when the cable is connected to the connecting member.
The passage groove has a transverse groove portion extending in a direction different from the extending direction of the cable, and guides the breaking member to the tip side of the insulating container in the extending direction of the cable by bypassing the insulating container. The cable connector according to claim 2, which is formed in such a manner.
The cable connector according to claim 3, wherein the passage groove has a tip groove portion extending in the extending direction of the cable on the extending direction end side of the cable of the insulating container.
The cable connector according to claim 2, wherein the housing has an openable / closable lid for holding the insulating container.
The cable connector according to claim 1, wherein the insulating mechanism has an elastic member in which a slit is formed and an opening into which the cable can be inserted is formed by elastic deformation.