KR20240029266A - Connector for high voltage core wire - Google Patents

Abstract

The present invention relates to a high-voltage core wire connector that improves assembly workability by fixing the position of the shield shell while it is inserted into the shield net by a pressure fixing guide.
The disclosed high-voltage core wire connector includes an inner housing connected to the core wire of the core wire, a shield shell that covers the inner housing to expose the inner housing, is inserted into the shielding network of the core wire to block electromagnetic waves, and the shield shell blocks the shielding. It is characterized by including a pressure fixing guide that guides the position to be fixed by pressure from an external force when inserted into the net.

Description

Connector for high voltage core wire {CONNECTOR FOR HIGH VOLTAGE CORE WIRE}

The present invention relates to a connector for high-voltage core wires, and more specifically, to a connector for high-voltage core wires that improves assembly workability by fixing the position of the shield shell while it is inserted into the shielding net by a pressure fixing guide. .

Generally, connectors are provided in wire harnesses and/or electrical components and serve to supply power or transmit signals. These connectors are divided into low-voltage and high-voltage types depending on the purpose and function of the electrical component, and the use of high-voltage connectors is increasing with the development of electric vehicles.

A cable through which a high current is applied is installed in a high-voltage connector, and at this time, electromagnetic waves due to the high current are generated around the cable. In order to block electrical interference such as electromagnetic waves, a shield shell is provided in the high voltage connector.

Meanwhile, a core wire for electromagnetic wave shielding is used in the high-voltage connector, and a shielding net is provided between the inner and outer insulating layers of the core wire, and the shielding net is pressed from the shield shell by a ring-shaped shield clip.

The shield shell provided in a conventional high-voltage connector is folded to cover the outer insulating layer of the core wire with the shielding net provided on the core wire, positioned to accommodate the peripheral surface of the shielding net, and then pressed against the shield shell through the shield clip. I'm doing it.

However, this type of shield clip not only has the problem of deteriorating assembly workability as it gets caught in the shielding net in the process of moving the shield shell to a position where it can be compressed while inserted into the core wire, but also has the problem of deteriorating assembly workability. If twisting occurs in the core wire in this state, there is a problem in that it is separated from the shield shell due to the low fixing force and the compression is released.

Therefore, there is a need to improve this.

Related background technology includes Republic of Korea Patent Publication No. 10-2021-0170196 (published on June 28, 2021, name: Connector).

The present invention was created in response to the above-mentioned need, and its purpose is to provide a high-voltage core wire connector that improves assembly workability by fixing the position of the shield shell by the pressure fixing guide while inserted into the shielding net. there is.

In order to achieve the above object, the high-voltage core wire connector according to the present invention includes an inner housing connected to the core wire of the core wire, covers the inner housing to be exposed, and is inserted into the shielding network of the core wire to block electromagnetic waves. It is characterized in that it includes a shield shell and a pressure fixing guide that guides the shield shell to be fixed in position by applying pressure from an external force while the shield shell is inserted into the shielding net.

The pressure fixing guide is provided to be movable on the core wire so as to be caught by a clamp ring and the clamp ring that are forcibly inserted into the shielding net to be accommodated in the shield shell, and when caught by the clamp ring, it is deformed by an external force and the core It is characterized by including a shield clamp that compresses the wire and the shielding net, respectively.

The clamp ring is provided with an expansion pressure jaw that presses the shielding net to expand its diameter when inserted into the shielding net, and the shield crimp includes a first pressing part that covers the circumferential surface of the core wire in a compressible manner, A second compression portion formed larger than the diameter of the first compression portion to compressably cover the shielding net, and a locking connection portion connecting the first compression portion and the second compression portion so that it can be caught by the clamp ring. It is characterized by

The high-voltage core wire connector according to the present invention has a structure in which the shield shell is inserted into the shielding net and the position is fixed by the pressure fixing guide, thereby not only improving assembly workability, but also preventing twisting of the core wire. It has the effect of preventing the shield shell from breaking away.

Figure 1 is a perspective view showing a connector for a high-voltage core wire according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a connector for high-voltage core wires according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing a connector for a high-voltage core wire according to an embodiment of the present invention.
Figure 4 is an operational diagram showing a process in which a high-voltage core wire connector is installed on a core wire according to an embodiment of the present invention.

Hereinafter, an embodiment of a high-voltage core wire connector according to the present invention will be described with reference to the attached drawings. In this process, the thickness of lines or sizes of components shown in the drawing may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

Figure 1 is a perspective view showing a connector for high-voltage core wires according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a connector for high-voltage core wires according to an embodiment of the present invention, and Figure 3 is an exploded perspective view showing a connector for high-voltage core wires according to an embodiment of the present invention. It is a cross-sectional view showing a connector for a high-voltage core wire according to an embodiment of the present invention, and Figure 4 is an operational diagram showing a process in which the connector for a high-voltage core wire according to an embodiment of the present invention is installed on a core wire.

As shown in Figures 1 to 4, the high-voltage core wire connector 1 according to an embodiment of the present invention includes an inner housing 10, a shield cell 20, and a pressure fixing guide 30. .

The inner housing 10 is connected to the core wire 3a of the core wire 3. This inner housing 10 is made of an insulating material and is provided with a terminal (not shown) that is connected to the core wire 3a so as to be able to conduct electricity.

In addition, the shield shell 20 covers the inner housing 10 to be exposed and is inserted into the shielding net 3b of the core wire 3 to block electromagnetic waves.

This shield shell 20 is accommodated to surround the inner housing 10 by the pressure fixing guide 30 and is fixed in position while being inserted into the shielding net 3b to play the role of shielding electromagnetic waves, and is a metal plate. It is manufactured through processing.

Meanwhile, the pressure fixation guide 30 guides the shield shell 20 to be fixed in position by applying pressure from an external force while the shield shell 20 is inserted into the shield net 3b.

That is, the pressurized fixing guide 30 guides the end of the shielding net 3b to advance toward the shield shell 20 and is connected to the core wire 3 to prevent the shield shell 20 from leaving the shielding net 3b. It serves to connect the shield shell (20).

For this purpose, the pressure fixing guide 30 can be moved to the core wire 3 so as to be caught by the clamp ring 31 and the clamp ring 31 that is forcibly inserted into the shield net (3b) to be accommodated in the shield shell 20. It is provided and includes a shield crimp 32 that is deformed by external force when caught by the crimp ring 31 and compresses the core wire 3 and the shield net 3b, respectively.

Here, the clamp ring 31 is formed in the shape of a hollow circular tube so that it is larger than the diameter of the core wire 3, and when inserted into the shielding net 3b, an expansion pressure is applied to expand the diameter of the shielding net 3b. A chin portion 31a is provided.

In addition, the shield crimp 32 is formed with a first crimp portion 32a that accommodates the circumferential surface of the core wire 3 to be able to crimp, and is formed to be larger than the diameter of the first crimp portion 32 to form a shielding net 3b. It includes a second compression portion 33 that can be compressed and a locking connection portion 32c that connects the first compression portion 32a and the second compression portion 32b so that it can be caught on the expansion pressure jaw portion 31a.

That is, assemble the crimp ring (31), inner housing (10), and shield shell (30) with the shield crimp (32) inserted into the core wire (3), and then attach the shield crimp (32) to the core wire (3). When moved to the end side, the moment the locking connection portion 32c of the shield crimp 32 is caught on the clamp ring 31, the first crimp portion 32a is placed in a position to accommodate the circumferential surface of the core wire 3, and the second crimp portion 32a The compression portion 32b guides the end of the shielding net 3 toward the shield shell 30 and is positioned to accommodate the peripheral surface of the shielding net 3b.

As a result, the shield clamp 32 is attached to the peripheral surface of the core wire 3 and the peripheral surface of the shielding net 3b in which the shield shell 30 is accommodated through the first crimping portion 32a and the second crimping portion 32b. Since each can be compressed, not only can the shielding holding power of the shield shell 30 be improved, but it is also possible to prevent the shield shell 30 from being separated when the core wire 3 is twisted.

Hereinafter, the operation and effect of the high-voltage core wire connector according to an embodiment of the present invention will be examined with reference to the accompanying drawings.

Looking at the process of assembling a high-voltage core wire connector according to an embodiment of the present invention, first, the shield clamp 32 is inserted into the peripheral surface of the core wire 3, and then the expansion pressure jaw portion 31a of the clamp ring 31 is The crimp ring 31 is forcibly inserted into the shielding net 3a to expand the diameter of the shielding net 3b provided on the core wire 3.

Subsequently, the inner housing 10 is connected to the core wire 3a provided in the core wire 3 so that the terminal 11 can conduct electricity, and then the shield shell 20 is made to cover the crimp ring 31 to accommodate. Insert the shield shell (20) into the shield net (3b).

Then, the shield crimp (32) is moved toward the shield shell (20) so that the locking connection part (32c) of the shield crimp (32) is caught on the expansion pressure jaw part (31a) of the crimp ring (31), and then the shield crimp (32) The first compression portion (32a) and the second compression portion (32b) are each pressurized to enable compression to form a shield clamp ( Complete assembly by fixing 32) in position.

As a result, in the high-voltage core wire connector according to the present invention, when the shield crimp 32 is moved toward the shield shell 20, the shield net 3b moves in the same direction as the moving direction of the shield crimp 32, so the shield crimp (32) 32) is prevented from getting caught on the end of the shielding net (3b), which not only improves assembly workability, but also doubles the circumferential surface of the core wire (3) and the shielding net (3b) in which the shield shell (20) is accommodated. Since it can be compressed, the fixing force can be improved.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will recognize that various modifications and other equivalent embodiments are possible therefrom. You will understand.

Therefore, the true technical protection scope of the present invention should be determined by the scope of the patent claims below.

1: Connector for high voltage core wire 3: Core wire
3a: core wire 3b: shielding net
10: Inner housing 20: Shield shell
30: Pressure fixing guide 31: Clamping ring
31a: expansion pressure jaw 32: shield clamp
32a: first compression portion 32b: second compression portion
32c: Locking connection

Claims (3)

An inner housing connected to the core wire of the core wire;
a shield shell that exposes the inner housing and is inserted into the shielding network of the core wire to block electromagnetic waves; and
A pressure fixing guide that guides the shield shell to be fixed in position by applying pressure from an external force while the shield shell is inserted into the shielding net;
A connector for high voltage core wire, characterized in that it includes.
According to paragraph 1,
The pressurized fixing guide,
A clamping ring forcibly inserted into the shielding net to be accommodated in the shield shell; and
A shield crimp provided to be movable on the core wire so as to be caught by the crimp ring, and deformed by an external force when caught by the crimp ring, thereby compressing the core wire and the shielding net, respectively;
A connector for high voltage core wire, characterized in that it includes.
According to paragraph 2,
The clamp ring is provided with an expansion pressure jaw that presses the shielding net to expand the diameter of the shielding net when inserted into the shielding net,
The shield clamp is,
a first crimping portion that covers the circumferential surface of the core wire to enable crimping;
a second compression portion formed to be larger than the diameter of the first compression portion and covering the shielding net in a compressible manner; and
a locking connection part connecting the first pressing part and the second pressing part so as to be caught by the clamping ring;
A connector for high voltage core wires comprising a.

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