JP2006286535A - Relay connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a highly insulating relay connector that has a simple structure and is assembled appropriately. <P>SOLUTION: The relay connector for a high voltage comprises a plug pin connector and a socket contact connector. The plug pin connector comprises: a hollow plug pin holding section having a lance locking section; and a plug pin external cylinder section by providing a socket internal cylinder insertion groove at the outer-periphery side. The plug pin has a lance and is inserted into or is subjected to lance locking to the plug pin holding section. The socket contact connector comprises: a socket internal cylinder section having the lance locking section at the inner-periphery side; and a socket external cylinder section by providing a plug pin external cylinder insertion groove at the outer-periphery side. The socket contact has a lance and is inserted into or subjected to lance locking to the internal cylinder section of the socket, the socket internal cylinder section is inserted into the socket internal cylinder insertion groove at the side of the plug pin connector, and the plug pin external cylinder section is inserted into the plug pin external cylinder insertion groove at the side of the socket contact connector. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a relay connector for relaying a cable, and more particularly to a relay connector for high voltage.

When connecting cables for electric power or electric signals, a relay connector is often used on the way due to assembly and maintenance of electric / electronic equipment.
Since the high voltage connector is required to have high insulation, as shown in FIG. 2, the connecting portion of the plug pin 151 and the cable 150 is made into an integral molded body embedded in resin, while the socket contact 131 is also connected to the cable 130. Are known in which the connecting portions are integrally molded with resin embedded therein and fitted together.
However, when the adhesion at the time of molding is insufficient, there is a gap between the cable and the resin molded body (housing), and there is a possibility that current leaks along this gap.
In addition, since the cable to which the plug pin or the like is connected is insert-molded, the productivity is poor.
Further, in a construction site where a cable is disposed, there is a problem that the cable length cannot be adjusted by cutting the cable on the relay connector side in the relay connector integrally formed with the cable.
Japanese Patent Laid-Open No. 10-83858 discloses a high voltage connector in which a rubber bush is disposed at a connection portion with a cable, but the structure is complicated and the assemblability is not good.

Japanese Patent Laid-Open No. 10-83858

  In view of the above technical problem, an object of the present invention is to provide a relay connector having high insulation, a simple structure, and good assemblability.

  The present invention is a relay connector for high voltage, and the relay connector includes a plug pin connector and a socket contact connector. The plug pin connector includes a hollow plug pin holding portion having a lance locking portion, and an outer periphery thereof. A socket inner cylinder insertion groove is provided on the side to have a plug pin outer cylinder part. The plug pin has a lance and is inserted and locked to the plug pin holding part. The socket contact connector is lance locked on the inner peripheral side. A socket inner cylinder part having a socket portion and a plug pin outer cylinder insertion groove on the outer peripheral side thereof to have a socket outer cylinder part, and the socket contact has a lance and is inserted into the socket inner cylinder part and locked to the lance, The socket inner cylinder part is inserted into the socket inner cylinder insertion groove on the plug pin connector side, and the plug pin outer cylinder part is on the socket contact connector side. Characterized in that it is intended to fit into the plug pin barrel insertion groove.

By providing the plug pin connector with a hollow plug pin holding part having a lance locking part, the plug pin is connected to the end of the cable, and the plug pin lance is simply inserted into the hollow part of the plug pin holding part. Lock to the holding part.
In addition, the socket contact connector is provided with a socket inner tube portion having a lance locking portion on the inner peripheral side, so that the socket contact is connected to the end portion of the cable and inserted into the socket inner tube portion. The lance is locked to the inner cylindrical portion of the socket.
When the plug pin connector and the socket contact connector are connected, the socket inner cylinder portion is fitted into the socket inner cylinder insertion groove on the plug pin connector side, and the plug pin outer cylinder portion is fitted into the plug pin outer cylinder insertion groove on the socket contact connector side.
Accordingly, since the insulating cylinders overlap each other on the outer periphery of the connection portion between the plug pin and the socket contact, at least a triple insulation wall is formed, so that the creepage distance at the connection surface between the plug pin connector and the socket contact connector is increased. It can be made and has high insulation.

By covering the connection portion between the plug pin connector and socket contact connector and the cable with an insulating tube, leakage along the gap between the inside of the connector and the surface of the cable covering portion is prevented.
Therefore, the insulating tube may be a heat-shrinkable tube having elasticity and close contact between the cable and the connector.

  If a locking means for locking the connection state is provided between the plug pin connector and the socket contact connector, the safety as a high voltage relay connector is improved.

The relay connector for high voltage according to the present invention covers the terminal portion by alternately projecting the cylindrical outer tube portion and the socket inner tube portion, so that the creeping surface of the path from the terminal portion to the outside of the connector through the fitting surface The distance can be very long.
In addition, since the gap between the connected cable and the connector is covered with an insulating tube, the insulating property against leakage from the terminal portion to the outside of the connector along the coated surface of the cable is high.

  It can be assembled simply by inserting a plug pin or socket contact with a lance and covering it with an insulating tube.

A desirable structure of the relay connector according to the present invention will be described below with reference to the drawings.
1 (a) shows a longitudinal sectional view of the socket contact connector 20 and the plug pin connector 40 before the cable is attached, FIG. 1 (b) shows a state where the cable is connected, and FIG. 1 (c) shows a connection of the cable. The state which carried out the fitting connection of the made connector is shown.
In FIG. 1 (a), a socket contact connector 20 has a socket inner cylinder portion 26 that protrudes in a cylindrical shape in the connector fitting direction, and a tube mounting cylinder portion 27 that protrudes in a cylindrical shape on the opposite side. Through-hole-shaped cable insertion hole 24 is formed.
The heat-shrinkable tube 28 has an adhesive 28b on the inner surface, and is provided on the tube mounting cylinder portion by providing an extra length portion 28a having a predetermined length, leaving the opposite side in the fitting direction.
The heat shrink tube may be provided in the connector in advance, or may be attached after the cable is connected.
A plug pin outer cylinder insertion groove 23 formed of a cylindrical gap is provided on the outer side of the socket inner cylinder part 26, and is fitted from the socket contact connector base part 21 constituting the boundary part between the socket inner cylinder part 26 and the tube mounting cylinder part 27. A socket outer cylinder portion 22 is provided that protrudes in a cylindrical shape in the direction.
The socket outer cylinder portion 22 is provided so as to protrude from the socket inner cylinder portion 26 toward the fitting direction so as to cover the socket inner cylinder portion 26.
The plug pin connector 40 includes a plug pin holding portion 46 that protrudes from the cylindrical plug pin connector base portion 41 in a substantially cylindrical shape in the fitting direction, and a tube mounting cylinder portion 47 that protrudes in a cylindrical shape on the opposite side. ing.
And the plug pin holding | maintenance part 46, the plug pin connector base part 41, and the tube attachment cylinder part 47 connect each internal space, and form the cable insertion hole 44 of a through-hole shape.
The heat-shrinkable tube 48 has an adhesive 48b on the inner surface, is attached to the tube mounting cylinder portion outer periphery 47a, and is provided with an extra length portion 48a having a predetermined length, leaving the opposite side in the fitting direction.
A socket inner cylinder insertion groove 43 having a cylindrical gap is provided on the outside of the plug pin holding part 46, and is fitted from the plug pin connector base part 41 (a boundary part between the plug pin holding part 46 and the second tube mounting cylinder part 47). A plug pin outer cylinder portion 42 that protrudes in a cylindrical shape in the direction is provided so as to protrude from the plug pin holding portion 46 toward the fitting direction.
In the embodiment of the connector shown in FIG. 1, a lock claw portion 29 for locking the fitting state between the socket contact connector 20 and the plug pin connector 40 is formed on the socket contact connector 20. A lock receiving portion 49 for engaging the claw portion 29 is formed.

Cables 30 and 50 having connection terminals connected thereto are inserted into the socket contact connector 20 and the plug pin connector 40 from the openings 28c and 48c, respectively, and locked as shown in FIG.
In the cable insertion hole 24 of the socket contact connector 20, the cable 30 attached to the conductor 30a by crimping the socket contact 31 as a terminal is inserted.
And the lance 31a of the socket contact 31 is latched by the lance latching | locking part 26b formed by making the socket inner cylinder part inner wall 26a protrude inward.
Further, the insertion position of the socket contact 31 is restricted by the locking portion 26c.
The heat-shrinkable tube 28 is heated and shrunk by applying hot air, and the adhesive 28b inside the tube 28 is melted so as to adhere to and adhere to the cable covering portion 30b.
The heat shrinkable tube 28 seals and insulates the opening 25a of the gap 25 between the tube mounting cylinder 27 and the cable cover 30b.
In the cable insertion hole 44 of the plug pin connector 40, the cable 50 attached to the conductor portion 50a by crimping the plug pin 51 as a terminal is inserted.
And the lance 51a of the plug pin 51 is latched by the lance latching | locking part 46a formed in the recess shape in the plug pin holding | maintenance part 46. FIG.
Further, the insertion position of the plug pin 51 is restricted by the locking portion 46b.
The heat-shrinkable tube 48 is heat-shrinked so as to adhere to and adhere to the cable covering portion 50b, and the opening 45a of the gap 45 between the tube mounting tube portion 47 and the cable covering portion 50b is sealed and closed to insulate.
This cable connection is made by cutting the lengths of the cables 30 and 50 into predetermined lengths, peeling off the covering portions at the ends, attaching the socket contacts 31 or plug pins 51 by pressure bonding, and inserting them into the cable insertion holes 24 and 44, respectively. Since only the heat-shrinkable tubes 28 and 48 are contracted, the cable mounting operation can be easily performed at the construction site.
For this reason, the length of the cable can be adjusted in the field, so that it is not necessary to pre-measure the cable length, so that it is very economical and efficient, and excellent in maintainability.

The connectors equipped with the cables are fitted together as shown in FIG.
The socket contact 31 and the plug pin 51 are fitted in the socket inner cylindrical portion 26 of the cable insertion hole 24 to connect the cables.
The outer side of the terminal portion 12 in which the socket contact 31 and the plug pin 51 are fitted covers the plug pin holding portion 46 so that the socket inner cylindrical portion 26 protrudes and squeezes in a cylindrical shape from the opposite side of the protruding direction.
The socket inner cylinder portion 26 is protruded in a cylindrical shape from the opposite side of the protruding direction so as to cover the plug pin outer cylinder portion 42 fitted into the plug pin outer cylinder insertion groove 23, and this plug pin outer cylinder portion 42 is The socket outer cylinder portion 22 protruding in a cylindrical shape from the opposite side of the protruding direction is covered so as to stagnate.
As a result, the creepage distance of the path extending from the terminal portion 12 of the socket contact connector 20 and the plug pin connector 40 to the outside of the connectors 20 and 40 along the fitting surface is made very long by the wall surface formed in an alternating manner. The insulation is very high.
In addition, since the path from the terminal portion 12 to the cable covering portions 30b and 50b covers and insulates the openings 25a and 45a of the gaps 25 and 45 with the heat-shrinkable tubes 28 and 48, respectively, it is a relay with excellent insulation. It is a connector.
The socket contact connector 20 and the plug pin connector 40 are locked in a fitted state by the lock claw portion 29 engaging with the lock receiving portion 49.
Since this lock can be released by pushing the pushing portion 29a of the lock claw portion 29, the fitting between the housings 20 and 40 can be easily released.

The longitudinal cross-sectional view of the Example of the high voltage relay connector which concerns on this invention is shown. The longitudinal cross-sectional view of the Example of the conventional high voltage relay connector is shown.

Explanation of symbols

10 High Voltage Relay Connector 20 Socket Contact Connector 22 Socket Outer Cylinder 23 Plug Pin Outer Cylinder Insertion Slot (Gap)
24 Cable insertion hole 25 Clearance 26 Socket inner cylinder part 26b Socket inner cylinder part lance locking part 27 Tube mounting cylinder part 28 Heat shrinkable tube 29 Lock claw part 29a Pushing part 30 Cable 31 Socket contact 31a Contact lance 40 Plug pin connector 42 Plug pin Outer cylinder part 43 Socket inner cylinder insertion groove (gap)
44 Cable insertion hole 46 Plug pin holding portion 46a Lance locking portion 47 Tube mounting tube portion 49 Lock receiving portion 50 Cable 51 Plug pin 51a Plug lance

Claims (3)

A relay connector for high voltage,
The relay connector consists of a plug pin connector and a socket contact connector.
The plug pin connector has a hollow plug pin holding part having a lance locking part and a plug pin outer cylinder part provided with a socket inner cylinder insertion groove on the outer peripheral side thereof,
The plug pin has a lance and is inserted and locked in the plug pin holding portion, and the socket contact connector has a socket inner tube portion having a lance lock portion on the inner peripheral side and a plug pin outer tube insertion groove on the outer peripheral side thereof. Has socket outer cylinder part,
The socket contact has a lance and is inserted and locked to the socket inner cylinder portion,
A relay connector characterized in that a socket inner cylinder portion is fitted into a socket inner cylinder insertion groove on the plug pin connector side, and a plug pin outer cylinder portion is fitted into a plug pin outer cylinder insertion groove on the socket contact connector side.   2. The relay connector according to claim 1, wherein a connecting portion between the plug pin connector and the socket contact connector and the cable is covered with an insulating tube.   The relay connector according to claim 1, further comprising a lock unit that locks a connection state between the plug pin connector and the socket contact connector.

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