KR20200008239A - High voltage connector - Google Patents

Abstract

The present invention relates to a high-voltage connector capable of keeping the combination of an external housing, an internal housing and a shield shell stable. The high-voltage connector includes: an external housing forming the exterior of a high-voltage connector; an internal housing combined with the inside of the external housing and storing a terminal delivering a current and a signal; and a shield shell installed between the external and internal housings to block electromagnetic waves and noise. At this point, the shield shell comprises: a first lance for combination with the external housing; and a second lance for combination with the internal housing. Moreover, the external housing includes a first fixing groove into which the first lance is inserted, and the internal housing includes a second fixing groove into which the second lance is inserted. In particular, the internal housing includes a pusher formed to support the first lance towards the first fixing groove.

Description

High Voltage Connector {HIGH VOLTAGE CONNECTOR}

The present invention relates to a high voltage connector, and more particularly to a high voltage connector for a vehicle including a shield shell for removing electromagnetic waves and noise.

In recent years, as the number of electrical components used in automobiles increases, the proportion of wire harnesses for connecting them also increases. Various voltages are supplied from low voltage to high voltage according to the use and function of electric parts, and thus connectors used in electric parts are divided into low voltage and high voltage.

Among the above-mentioned connectors, a cable having a high current is connected to the high voltage connector, and electromagnetic waves, noise, etc. are generated around the cable due to the high current. In order to block such electromagnetic waves and noise, a shield shell is provided inside the high voltage connector.

Korean Utility Model Publication No. 2013-0002432 (April 24, 2013) discloses a connector provided with a shield shell for removing electromagnetic waves and noise.

The connector includes an outer housing forming an outer appearance of the connector, an inner housing installed inside the outer housing, and a shield shell provided between the outer housing and the inner housing to block electromagnetic waves and noise.

The shield shell is made of a conductive metal to block electromagnetic waves and noise. That is, a thin metal plate is rolled and bent so that both ends are in contact with each other to be manufactured in a hollow pipe shape that is opened in the front-back direction.

The circumference of the shield shell is provided with a plurality of lances, such as an outer lance for coupling with the outer housing, an inner lance for coupling with the inner housing and a lance for preventing misassembly of the shield shell.

The conventional connector described above is coupled to the outer housing through the lance of the shield shell coupled to the inner housing, and the inner housing coupled to the outer housing is separated during the assembly of the wire harness. In particular, when the amount of the lance affecting the release force strength of the inner housing is small, the phenomenon occurs that damages the outer housing and is separated.

Republic of Korea Utility Model Publication No. 2013-0002432 (2013.04.24.)

An object of the present invention is to provide a high voltage connector that can stably maintain a combined state of an outer housing, an inner housing, and a shield shell, to solve the aforementioned problems of the prior art.

In addition, an object of the present invention is to provide a high-voltage connector that can be automatically corrected to meet the appropriate locking amount when assembling the inner housing even if the lance provided in the shield shell is deformed or there is a height deviation.

The high voltage connector according to the present invention for achieving the above object, the outer housing forming the appearance of the high voltage connector, the inner housing that is coupled to the inside of the outer housing and transmits a current and a signal, and the outer housing And a shield shell installed between the inner housing and blocking electromagnetic waves and noise.

In this case, the shield shell is provided with a first lance for coupling with the outer housing and a second lance for coupling with the inner housing. In addition, a first fixing groove into which the first lance is inserted is formed in the outer housing, and a second fixing groove into which the second lance is inserted is formed in the inner housing. In particular, the inner housing is formed with a pusher for supporting the first lance to the first fixing groove side.

According to the present invention configured as described above, when the outer and inner housings and the shield shell are coupled, the first lance is supported by the pusher to be inserted and fixed in the first fixing groove, so that the coupling state can be stably maintained, and the wire harness In the process of assembling the inner housing can be prevented from being separated from the shield shell.

In addition, since the present invention is configured to include a pusher for supporting the first lance, even if the lance is deformed or a height deviation occurs during production and assembly process can be automatically corrected to meet the appropriate locking amount.

1 is a perspective view of a high voltage connector according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of a high voltage connector according to an embodiment of the present invention.
3 is a cross-sectional view of a high voltage connector according to an embodiment of the present invention.
Figure 4 is an exploded perspective view of a high voltage connector according to another embodiment of the present invention.
5 is a cross-sectional view of a high voltage connector according to another embodiment of the present invention.
Figure 6 is an exploded perspective view of a high voltage connector according to another embodiment of the present invention.
7 is a cross-sectional view of a high voltage connector according to another embodiment of the present invention.

With reference to the accompanying drawings will be described embodiments of the present invention; In the following description of embodiments according to the present invention, and in adding reference numerals to the components of each drawing, the same reference numerals are added to the same elements as much as possible even though they are shown in different drawings.

The present invention is a high voltage connector used in a battery pack of an electric vehicle, and more particularly, a high voltage connector that blocks electromagnetic waves and noise generated in the course of transmitting current and signals.

A high voltage connector according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3.

The high voltage connector 1 includes an outer housing 100 forming an outer appearance of the connector, an inner housing 200 coupled to the inside of the outer housing 100, and an outer housing 100 and the inner housing 200. It is configured to include a shield shell 300 is installed.

The outer housing 100 is a pipe shape of an elliptical cross section extending in the coupling direction of the connector. The outer housing 100 has a form that is opened back and forth so that a part of the mating connector (not shown) can be inserted, and a cable (not shown) connected to the terminal (not shown) can be extended to the outside.

Guide means 110 for guiding a mating direction of the mating connector are provided at both side surfaces of the outer housing 100. The upper surface of the outer housing 100 is provided with a locking means 120 for maintaining a state of engagement with the mating connector coupled through the guide means 110.

Inside the outer housing 100, a space 130 for installing the inner housing 200 and the shield shell 300 is formed. First fixing grooves 140 for coupling with the shield shell 300 are formed at both sides of the inner wall of the space 130 (see FIG. 3).

The first fixing groove 140 is a portion into which the first lance 330 is inserted when the shielding shell 300 is coupled, and has a rectangular cross section extending in the coupling direction of the connector. In this case, the first fixing groove 140 may be formed deeper than 0.8 mm, which is an appropriate locking amount of the first lance 330 so as to stably maintain the coupling state with the shield shell 300.

The inner housing 200 is an elliptical cross-section pipe shape that can be coupled to the inner space 130 of the outer housing 100. The inner housing 200 has a shape that is opened back and forth so that a part of the mating connector (not shown) can be inserted, and a cable (not shown) connected to the terminal (not shown) can be extended to the outside.

The second fixing groove 210 for coupling with the shield shell 300 is formed on the upper surface of the inner housing 200. That is, when the shield shell 300 is coupled to the second lance 340 is inserted into the second fixing groove 210.

The pusher 220 supporting the first lance 330 is provided at both sides of the inner housing 200. The pusher 220 has a cantilever shape extending in the coupling direction of the connector from the side of the inner housing 200, and one end of the free end protrudes out of the inner housing 200 to support the first lance 330.

Since the pusher 220 supports the first lance 330 toward the first fixing groove 140 when the outer housing 100 and the shield shell 300 are coupled, the first lance 330 is produced and assembled. Even if is deformed or a height deviation occurs in the first lance 330, the first lance 330 is automatically corrected to meet an appropriate locking amount (for example, 0.8 mm in this embodiment).

Meanwhile, a space 230 is formed inside the inner housing 200 to accommodate a terminal (not shown) that transmits current and a signal.

The shield shell 300 is installed between the outer housing 100 and the inner housing 200 to block electromagnetic waves and noise.

Looking at the structure of the shield shell 300, it consists of a body 310 surrounding the inner housing 200, and a cover 320 provided at the rear end of the body (310).

Body 310 is a pipe shape of elliptical cross-section extending in the longitudinal direction of the connector. Both sides of the body 310 are provided with a first lance 330 for coupling with the outer housing 100, the second lance 340 for coupling with the inner housing 200 on the upper surface of the body 310. Is prepared.

A cutout 350 is formed at a side of the body 310, and the first lance 330 is positioned inside the cutout 350. At this time, the cutout 350 is formed in a Y-shape laid sideways, the first lance 330 is formed in a Y-shape corresponding to the cutout 350, which is the strength of the first lance 330 To reinforce.

On the other hand, the first lance 330 has a cantilever shape extending in the coupling direction of the connector on the side of the body 310, it is bent in a multi-stage projecting outward toward the free end side. That is, the end of the first lance 330 is protruded to the outside of the shield shell 300 is inserted into the first fixing groove 140.

The second lance 340 is made by cutting the upper surface (or lower surface) of the body 310 in a U-shape and bending the inside to protrude into the shield shell 300. An end portion of the second lance 340 protruding into the shield shell 300 is inserted into the second fixing groove 210.

Here, the first lance 330 extends and protrudes toward the front of the body 310, the second lance 340 extends and protrudes toward the rear of the body 310, as described above, the first lance 330 When the second lance 340 is formed in a direction facing each other, the coupling force between the housings 100 and 200 and the shield shell 300 may be improved.

4 and 5 illustrate a high voltage connector according to another embodiment of the present invention.

The high voltage connector 1 according to the present embodiment includes an outer housing 100 that forms an outer appearance of the connector, and an inner housing 200 that is coupled to the inside of the outer housing 100 and receives terminals for transmitting current and signals. And a shield shell 300 installed between the outer housing 100 and the inner housing 200.

Some of the above-described configuration is the same as the above-described embodiment, detailed description of the same portion will be omitted.

The outer housing 100 is formed with an inner space 130 for installation of the inner housing 200 and the shield shell 300, the inner wall of both sides of the inner space 130 for coupling with the shield shell 300 The first fixing groove 140 into which one lance 330 is inserted is formed.

Second fixing grooves 210 into which the second lance 340 is inserted are formed on the upper surface of the inner housing 200, and the first lances are formed on both sides of the inner housing 200. An insertion groove 220 into which the 330 is inserted is formed.

When the outer housing 100 and the shield shell 300 are coupled, the second contact portion 334 of the first lance 330 is inserted into the insertion groove 220. The insertion groove 220 contacts the second contact portion 334 to support the first contact portion 332 of the first lance 330 to be inserted into the first fixing groove 140. Therefore, even if the first lance 330 is deformed or a height deviation occurs in the first lance 330 during the production and assembly process, the first lance 330 is adapted to meet an appropriate locking amount (for example, 0.8 mm in this embodiment). Calibrate automatically.

The shield shell 300 includes a body 310 surrounding the circumference of the inner housing 200 and a cover 320 provided at the rear end of the body 310.

Both sides of the body 310 are provided with a first lance 330 for coupling with the outer housing 100, the second lance 340 for coupling with the inner housing 200 on the upper surface of the body 310. Is prepared.

A c-shaped cutout 350 is formed at the side of the body 310, and the first lance 330 is positioned inside the cutout 350. The first lance 330 is a spring lance bent in a U shape to protrude outward and inward of the body 310, and includes a first contact portion 332 and an insertion groove 220 contacting the first fixing groove 140. ) Is a second contact portion 334 in contact with.

That is, the first lance 330 protrudes toward the outside of the body 310 toward the first contact portion 332, and protrudes toward the inside of the body 310 toward the second contact portion 334. In particular, an end portion of the second contact portion 334 extends toward the first contact portion 332 to limit deformation of the second contact portion 334.

6 and 7 illustrate a high voltage connector according to another embodiment of the present invention.

The high voltage connector 1 according to the present embodiment includes an outer housing 100 that forms an outer appearance of the connector, and an inner housing 200 that is coupled to the inside of the outer housing 100 and receives terminals for transmitting current and signals. And a shield shell 300 installed between the outer housing 100 and the inner housing 200.

Some of the above-described configuration is the same as the above-described embodiment, detailed description of the same portion will be omitted.

The outer housing 100 is formed with an inner space 130 for installation of the inner housing 200 and the shield shell 300, the inner wall of both sides of the inner space 130 for coupling with the shield shell 300 The first fixing groove 140 into which one lance 330 is inserted is formed.

The second fixing groove 210 into which the second lance 340 is inserted is formed on the upper surface of the inner housing 200 to be coupled to the shield shell 300.

The shield shell 300 includes a body 310 surrounding the circumference of the inner housing 200 and a cover 320 provided at the rear end of the body 310.

Both sides of the body 310 are provided with a first lance 330 for coupling with the outer housing 100, the upper surface of the body 310, the second lance 340 for coupling with the inner housing 200. Is prepared.

A pair of cutouts 350 are formed on the side of the body 310 extending in a direction perpendicular to the coupling direction of the shield shell 300, and a first lance 330 is provided inside the cutouts 350. do.

The first lance 330 is composed of a pair spaced apart in a direction perpendicular to the coupling direction of the shield shell 300. An end portion of the first lance 330 protrudes out of the shield shell 300 and is inserted into the first fixing groove 140. At this time, the end of the first lance 330 is formed in a tapered shape that is wider toward the coupling direction of the shield shell 300.

While the present invention has been described through the preferred embodiments, the above-described embodiments are merely illustrative of the technical idea of the present invention, and various changes may be made without departing from the technical idea of the present invention. Those of ordinary skill will understand. Therefore, the protection scope of the present invention should be interpreted not by the specific embodiments, but by the matters described in the claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1: high voltage connector 100: outer housing
110: guide means 120: locking means
130: space 140: first fixing groove
200: internal housing 210: second fixing groove
220: pusher 230: space
300: shield shell 310: body
320: cover 330: first lance
340: second lance 350: incision

Claims (8)

An outer housing forming an appearance of the high voltage connector;
An inner housing coupled to an inside of the outer housing and containing a terminal for transmitting current and a signal; And
A shield shell installed between the outer housing and the inner housing to block electromagnetic waves and noise;
The shield shell is provided with a first lance for coupling with the outer housing and a second lance for coupling with the inner housing,
A first fixing groove into which the first lance is inserted is formed in the outer housing, and a second fixing groove into which the second lance is inserted is formed in the inner housing.
And a pusher for supporting the first lance toward the first fixing groove in the inner housing.
The method according to claim 1,
A Y-shaped cutout is formed at a side of the shield shell, and the first lance having a cantilever shape is provided inside the cutout.
The first lance is a high voltage connector, characterized in that formed in multiple stages protruding outward toward the free end side.
The method according to claim 2,
The pusher is a high-voltage connector, characterized in that the free end protrudes outwardly cantilever shape to support the first lance.
An outer housing forming an appearance of the high voltage connector;
An inner housing coupled to an inside of the outer housing and containing a terminal for transmitting current and a signal; And
A shield shell installed between the outer housing and the inner housing to block electromagnetic waves and noise;
The shield shell is provided with a first lance for coupling with the outer housing and a second lance for coupling with the inner housing,
A first fixing groove into which the first lance is inserted is formed in the outer housing, and a second fixing groove into which the second lance is inserted is formed in the inner housing.
The first lance may include a first contact part in contact with the first fixing groove and a second contact part in contact with the inner housing, wherein the first contact part and the second contact part are bent in a U shape. High voltage connector, characterized in that the.
The method according to claim 4,
The first lance protrudes outwardly toward the first contact portion, and protrudes inwardly toward the second contact portion.
An end portion of the second contact portion extends toward the first contact portion to limit deformation of the second contact portion.
An outer housing forming an appearance of the high voltage connector;
An inner housing coupled to an inside of the outer housing and containing a terminal for transmitting current and a signal; And
A shield shell installed between the outer housing and the inner housing to block electromagnetic waves and noise;
The shield shell is provided with a first lance for coupling with the outer housing and a second lance for coupling with the inner housing,
A first fixing groove into which the first lance is inserted is formed in the outer housing, and a second fixing groove into which the second lance is inserted is formed in the inner housing.
The first lance is a high voltage connector, characterized in that consisting of a pair spaced in a direction perpendicular to the coupling direction of the shield shell.
The method according to claim 6,
The shield shell is formed with a pair of cutouts extending in a direction perpendicular to the coupling direction of the shield shell, the pair of first lances are provided inside the cutout,
An end portion of the first lance protrudes outward of the shield shell and is inserted into the first fixing groove.
The method according to claim 7,
The end of the first lance is a high voltage connector, characterized in that the tapered shape widens toward the coupling direction of the shield shell.

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