KR102555976B1 - High voltage connector - Google Patents

Abstract

The present invention is a high voltage that can improve assembly and contact between high voltage terminals and minimize separation between high voltage terminals when the fastening direction with the device-side connector and the cable connection direction are perpendicular and the high voltage terminal is composed of a plurality of terminals. It's about connectors.

Description

High voltage connector {HIGH VOLTAGE CONNECTOR}

The present invention relates to high voltage connectors. More specifically, the present invention improves assembly and contact between high voltage terminals and minimizes separation between high voltage terminals when the fastening direction with the device-side connector and the cable connection direction are perpendicular and the high voltage terminal is composed of a plurality of terminals. It's about high voltage connectors that can do it.

An electric vehicle includes a battery, an inverter, a motor, and the like, and these components can be connected with a cable and a high-voltage connector constituting a high-voltage power supply connection device.

Such a high voltage connector must be stably maintained even when vibration and shock are applied during driving.

In particular, in a high-voltage connector in which a device-side connector and a cable are connected, when the fastening direction between connectors and the connecting direction of the cable are different, for example, in the orthogonal direction, the high-voltage terminal may be configured to be assembled with a plurality of parts.

In this case, each terminal constituting the high voltage terminal may be interposed with a washer or a spring to ensure an electrical connection state in addition to a physical assembly state.

According to the prior art, contact was ensured by interposing a leaf spring or the like between the terminals, but there was a problem in that the contact between the terminals deteriorated over time, and the use of special tools was required during the assembly process, resulting in poor workability.

In addition, when a leaf spring or the like is bent and disposed between the terminals, a problem in that the spring or the like is easily separated or separated has occurred.

The present invention is a high voltage that can improve assembly and contact between high voltage terminals and minimize separation between high voltage terminals when the fastening direction with the device-side connector and the cable connection direction are perpendicular and the high voltage terminal is composed of a plurality of terminals. Provide a connector as a problem to be solved.

In order to solve the above problems, the present invention constitutes a high voltage power connection device composed of a pair of connectors, and a high voltage connector fastened to a device side connector and connected to a cable, comprising: a plurality of high voltage terminals; an inner housing in which the high voltage terminal is mounted; and an outer housing accommodating the inner housing, wherein each of the high voltage terminals includes a first terminal to which the high voltage terminal of the device-side connector is connected, a second terminal assembled with the first terminal and connected to a cable, and The high voltage connector may include a spring connection piece interposed between the first terminal and the second terminal to mutually lock the first terminal and the second terminal.

Here, the spring contact piece may be a coil spring configured in a ring shape.

In addition, the first terminal constituting the high voltage terminal may be inserted into the second terminal in a horizontal direction, and the second terminal may be connected to the first terminal in an 'L' shape.

The cable may be inserted into and connected to a connection groove formed under a second terminal constituting the high voltage terminal.

Here, the front end of the first terminal is provided with a connection groove into which the high voltage terminal of the device-side connector is inserted, the rear end of the first terminal is inserted into a connection hole formed on the upper part of the second terminal, and the spring connection piece may be mounted between an outer circumferential surface at a rear end of the first terminal and an inner circumferential surface of a connection hole formed at an upper end of the second terminal.

In addition, seating grooves are formed on both sides of an outer circumferential surface of the rear end of the first terminal constituting the high voltage terminal and an inner circumferential surface of the connection hole formed at an upper end of the second terminal, in which the spring connection piece is seated, so that the first terminal and the second terminal are seated. The terminals can be mutually locked in an assembled state.

In this case, an interlock terminal configured to form a closed circuit by blocking power supplied to the high voltage terminal by being connected or disconnected according to connection or disconnection of a pair of connectors constituting the high voltage power connection device may be further included. .

According to the high-voltage connector according to the present invention, when the fastening direction of the device-side connector and the high-voltage connector and the cable connection direction are perpendicular and the high-voltage terminal is composed of a plurality of terminals, a spring connection piece is provided between the terminals constituting the high-voltage terminal. The contact between terminals can be improved.

In addition, according to the high-voltage connector according to the present invention, the spring connection piece composed of a ring-shaped coil spring is seated in the seating groove of the first terminal constituting the high-voltage terminal, and the rear end of the first terminal is positioned in a determined state. When inserted into the fastening hole of the second terminal, the outer circumferential area of the spring contact piece is seated in the seating groove on the inner circumferential surface of the fastening hole, so that a mutual locking function between the first terminal and the second terminal may be provided.

In addition, according to the high voltage connector according to the present invention, the assembly of the high voltage terminal can be performed without a separate special tool and the assembly efficiency can be improved.

In addition, according to the high-voltage connector according to the present invention, since the spring connection piece is formed of a ring-shaped coil spring, the reliability of contact by elasticity can be improved.

1 shows a perspective view of a fastening state of a pair of connectors constituting a high voltage power connection device.
2 shows a perspective view of a disconnected state of a pair of connectors constituting a high voltage power connection device.
3 shows an exploded perspective view of a high voltage connector according to the present invention.
4 shows a perspective view of a high voltage terminal of a high voltage connector according to the present invention.
FIG. 5 is an exploded perspective view of the high voltage terminal shown in FIG. 4 .
6 is a cross-sectional view of the high voltage terminal shown in FIG. 4;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content will be thorough and complete, and the spirit of the invention will be sufficiently conveyed to those skilled in the art. Like reference numbers indicate like elements throughout the specification.

FIG. 1 shows a perspective view of a pair of connectors constituting a connection device for high voltage power in a fastened state, and FIG. 2 shows a perspective view of a pair of connectors constituting a connection device for high voltage power in a disconnected state.

The connector constituting the power connection device 1 shown in FIGS. 1 and 2 relates to the high voltage connector 100 according to the present invention in which the connector 200 mounted on the device side and the cable 180 to be fastened are connected. will be.

The high voltage connector 100 according to the present invention includes an interlock terminal and a high voltage terminal for power and constitutes the connection device 1 for high voltage power shown in FIG. 1 .

The connection device 1 for high voltage power of the present invention may include first and device-side connectors having shapes corresponding to each other. For convenience of explanation, a pair of connectors 100 and 200 having corresponding shapes are referred to as a high voltage connector 100 and a device-side connector 200 .

The high voltage connector 100 constituting the high voltage power connection device 1 of the present invention may be a connector to which the high voltage power cable 180 is connected.

In addition, the device-side connector 200 coupled to the high voltage connector 100 may be a connector mounted on a device, for example, a battery, an inverter, or a motor.

The high voltage power cable 180 may be connected to a high voltage terminal (see 130 in FIG. 2 ) for power supply of the high voltage connector 100 through the rear holder 160 of the high voltage connector 100 .

As shown in FIG. 2 , the high voltage connector 100 and the device side connector 200 constituting the high voltage power connection device 1 shown in FIG. 1 may be detachably configured.

In addition, when both connectors 100 and 200 are suddenly disconnected while high voltage power is supplied through the high voltage terminal of the connector, an arc or the like may be generated to damage parts or cause safety accidents. To this end, the high voltage power connection device 1 according to the present invention may provide a power cut-off function by disconnecting the interlock terminals 140 and 240.

The device-side connector 200 coupled to the high-voltage connector 100 may be mounted on a device housing, and the outer housing 210 of the device-side connector 200 is a fastening means such as a bolt (b) on the device side. A flange 260 or the like may be provided so as to be fixed to the housing (w). The flange 260 may be formed with a fastening hole for fastening a bolt (b) or the like.

The outer housing 210 of the device-side connector 200 may be made of resin or a metal material, and when it is made of a metal material, the high voltage connector 100 includes the cable 180 and the outer housing ( 110) can be grounded to the housing of the device-side connector 200.

As shown in FIG. 2 , the high voltage connector 100 according to the present invention is provided with a pair of high voltage terminals 130a and 130b on the left and right, and the device side connector 200 is also connected to the high voltage terminal of the high voltage connector 100. A pair of connected high voltage terminals 230a and 230b are provided.

However, each high voltage connector may increase or decrease the number of high voltage terminals and connected cables depending on the type of power.

Each of the high voltage terminals 130 and 230 provided in each of the connectors 100 and 200 may be classified into a male type terminal or a female type terminal according to their shape, as shown in FIG. The high voltage terminals 130a and 130b of the high voltage connector 100 are configured as female type terminals, and the high voltage terminals 230a and 230b of the device-side connector 200 are male type terminals. Although shown, the high voltage terminals 130a and 130b may be configured as male terminals and the high voltage terminals 230a and 230b may be configured as female terminals.

The high voltage terminals 130a and 130b of the high voltage connector 100 and the high voltage terminals 230a and 230b of the device-side connector 200 shown in FIG. 2 are mounted inside the inner housing constituting each connector.

The inner housing 135 of the high voltage connector 100 shown in FIG. 2 protects the respective high voltage terminals 130a and 130b and at the same time has cylindrical guide parts 135a and 135b for guiding the connector mounting process. can include In addition, the device-side connector 200 includes an inner housing provided with accommodating portions 235a and 235b capable of accommodating the pair of cylindrical guide portions 135a and 135b of the high voltage connector 100. (235) is provided.

The pair of guide parts 135a and 135b provided on the inner housing of the high-voltage connector 100 having such a structure is used to guide the device-side connector 200 during the mounting process of the high-voltage connector 100 and the device-side connector 200. of the inner housing 235 may be guided and inserted into the receiving portions 235a and 235b.

In addition, interlock terminals 140 and 240 are provided inside the inner housings 135 and 235 between the high voltage terminals 130a and 130b and the high voltage terminals 230a and 230b of the device-side connector 200. It can be.

The high-voltage connector 100 and the device-side connector 200 according to the present invention include interlock terminals 140 and 240 and high-voltage terminals 130 and 230 for power, respectively, and when both connectors 100 and 200 are separated, both Connection of the interlock terminals 140 and 240 of the connectors 100 and 200 may be first released.

The interlock terminals 140 and 240 provided in the high voltage connector 100 and the device-side connector 200 shown in FIG. 2 are respectively provided on the upper part of the high voltage terminals 130a and 130b and the high voltage terminals 230a and 230b. Although shown, the location can be changed.

When the device-side connector 200 is a device-side (power supply side) connector, the interlock terminal 140 of the high-voltage connector 100 may constitute a closed circuit. On the other hand, the interlock terminal 240 of the device-side connector 200 determines whether the interlock is connected and is connected to a power cut-off circuit or control unit for supplying or blocking power to block power supply through the high-voltage terminal according to the connection state of the terminal. can be connected to

As described above, in the connector shown in FIG. 2, each high voltage terminal is connected to the high voltage terminal of the device-side connector 200 before the interlock terminal in the process of fastening the connector, and in the process of disconnecting the connector, the interlock terminal 140, 240) to be separated from the high voltage terminals 130 and 230 of the device-side connector 200, so that the connection and release of the interlock terminals 140 and 240 determine when the power is supplied and when the power is cut off, the connection of the high voltage terminal is completed. The connection length of each terminal can be adjusted to be after and before separation.

This is to secure a time during which power to the high voltage terminals 130 and 230 is cut off according to disconnection of the interlock terminals 140 and 240 and at the same time to prevent an arc from occurring regardless of an operator's separation speed.

The interlock terminal 240 of the device-side connector 200 mounted on the device side is connected to the power cutoff circuit inside the device, and in the process of separating both connectors 100 and 200, the interlock terminal of the high voltage connector 100 ( 140) is first disconnected, the power supplied to the high voltage terminals 230a and 230b of the device side connector 200 is cut off so that the high voltage connector 100 and the high voltage terminals of the device side connector 200 are separated. Power supplied through the terminals may be cut off.

In addition, since the interlock terminal 140 mounted on the side of the high voltage connector 100 only needs to form a simple closed circuit, a single integrated terminal can be used. However, as described above, when the power supply direction is changed, the configurations of the interlock terminals may be mutually changed.

3 shows an exploded perspective view of the high voltage connector 100 according to the present invention.

The high-voltage connector 100 according to the present invention constitutes a high-voltage power connection device composed of a pair of connectors, and is a high-voltage connector fastened to a device-side connector and connected to a cable. a high voltage terminal (130, see FIG. 4); an inner housing 150 to which the high voltage terminal 130 is mounted; and an outer housing 110 accommodating the inner housing 150, and the high voltage terminal 130 includes first terminals 131a and 131b to which the high voltage terminal of the device-side connector is connected, and the first terminal ( 131a, 131b) and the second terminals 133a and 133b to which the cable 180 is connected and interposed between the first terminal and the second terminal to connect the first terminals 131a and 131b and the second terminals 131a and 131b. It may be configured to include spring contact pieces (132a, 132b) that lock the terminals (133a, 133b) to each other.

In addition, the high voltage connector according to the present invention is connected or disconnected according to the fastening or disconnection of a pair of connectors constituting the high voltage power connection device, blocks the power supplied to the high voltage terminal, and interlock terminal 140 constituting a closed circuit. may further include.

The high-voltage connector 100 according to the present invention may be configured in a different direction from which the connection direction of the power cable 180 is connected to the device-side connector.

That is, in the high voltage connector 100 according to the present invention, as shown in FIGS. 1 to 3 , the cable 180 is vertically connected to the high voltage connector 100 and the high voltage connector 100 is connected to the device side connector in a horizontal direction. , so that the cable connection direction and the connector connection direction are perpendicular to each other.

As such, when the cable connection direction and the connector fastening direction are different, a method of bending the cable 180 at 90 degrees to connect it to the high voltage terminal inside the connector or configuring the high voltage terminal in an 'a' shape may be considered, but the cable 180 ) is bent at 90 degrees and connected inside the connector, it is not easy to work when considering the thickness of the electric vehicle power cable 180, etc., and when the high voltage terminal is configured in an 'L' shape, it is not easy to assemble the connector .

Therefore, a method of dividing the high voltage terminal into a plurality of terminals can be used.

As shown in FIG. 3, the high voltage terminal of the high voltage connector 100 is divided into first terminals 131a and 131b and second terminals 133a and 133b, and the high voltage terminal is also assembled during the assembly process of the connector. can have

Specifically, the high voltage terminal constituting the high voltage connector 100 according to the present invention is assembled with the first terminals 131a and 131b to which the high voltage terminals of the device-side connector are connected, and the first terminals 131a and 131b, and a cable It includes second terminals 133a and 133b to which 180 is connected, and additionally, spring connection pieces 132a and 132b interposed between the first terminals 131a and 131b and the second terminals 133a and 133b may further include.

The high voltage terminal of the high voltage connector 100 according to the present invention is constituted and the reason why the spring connection pieces 132a and 132b are provided between the first terminals 131a and 131b and the second terminals 133a and 133b is because of the assembled state. This is to improve contact between the first terminals 131a and 131b and the second terminal 133 in .

In general, elastic contact pieces applied to terminals adopt a structure of bending or bending a leaf spring, etc. The applied spring contact pieces 132a and 132b are characterized in that a coil spring structure configured in a ring shape is employed. The spring contact pieces 132a and 132b of the conventional bent leaf spring structure have reduced elasticity over time and it is difficult to ensure a stable contact state.

However, when the spring contact pieces 132a and 132b are configured in the form of bent leaf springs, it has been confirmed that the elastic force is not easily lowered and electrical connectivity can be stably maintained between objects to be connected if the shape is maintained.

As shown in FIG. 3 , the first terminals 131a and 131b constituting the high voltage terminal are horizontally mounted to the outer housing 110 via the inner housing at the front of the connector, and the second terminals 133a and 133b is connected to the cable 180 at the bottom and can be mounted on the outer housing 110 in a vertical direction.

In this case, each of the first terminals 131a and 131b is mounted on the outside of the guide portion, the spring contact piece 132 is mounted on the rear end of the first terminals 131a and 131b, and the spring contact piece 132a and 132b The first terminals 131a and 131b to which ) are mounted are vertically inserted into the outer housing 110 from below and assembled with the mounted second terminals 133a and 133b to complete the assembly of the high voltage terminal.

The outer housing 110 of the high voltage connector 100 may be provided with a lever member 120 for providing mounting force for mounting the device-side connector and for locking the mounted state.

As shown in FIG. 3 , components related to the high voltage terminal of the high voltage connector 100 according to the present invention adopt a structure in which each is inserted or seated and cooked so that assembly is possible without using a separate tool, and work skills are improved. It may not require much.

The high voltage terminal interposed with the spring connection piece 132 will be described in detail with reference to FIG. 4 and below.

4 is a perspective view of a high voltage terminal of the high voltage connector 100 according to the present invention, FIG. 5 is an exploded perspective view of the high voltage terminal shown in FIG. 4, and FIG. 6 is a cross-sectional view of the high voltage terminal shown in FIG. shows

The high voltage terminals shown in FIGS. 4 to 6 are illustrated in a state in which a housing or the like is removed for description or configuration mounted inside the high voltage connector.

As described above, the first terminal 131 constituting the high voltage terminal is inserted into the second terminal 133 in a horizontal direction, and the second terminal 133 is 'a' with the first terminal 131. It can be connected and assembled in the form of a ruler. This is because the fastening direction between the connectors and the cable connection direction are different, as described above.

Also, the conductor portion of the cable 180 may be inserted into and connected to a connection groove (see 133h in FIG. 6 ) formed under the second terminal 133 constituting the high voltage terminal.

4 and 5, the front end of the first terminal 131 is provided with a connection groove 131h into which the high voltage terminal of the device-side connector is inserted, and the rear end of the first terminal 131 is It is inserted into the connection hole 133p formed on the upper part of the second terminal 133, and the spring connection piece 132 is formed on the outer circumferential surface of the rear end of the first terminal 131 and the upper end of the second terminal 133. It may be mounted between the inner circumferential surfaces of the formed connection holes.

The reason why the first terminal 131 is inserted into the second terminal 133 in the horizontal direction is to prevent separation between terminals even when tension is applied to the power cable 180 . If the upper end of the second terminal 133 is configured to be vertically inserted into the first terminal 131, the inserted state of the second terminal 133 can be released when the cable 180 is pulled. am.

The spring connection piece 132 is mounted between the outer circumferential surface of the rear end of the first terminal 131 and the inner circumferential surface of the connection hole formed at the upper end of the second terminal 133, and the second terminal constituting the high voltage terminal. Seating grooves in which the spring connection pieces 132 are seated may be formed on both sides of the outer circumferential surface of the rear end of the first terminal 131 and the inner circumferential surface of the connection hole 133p formed at the upper end of the second terminal 133 .

In the embodiment shown in FIG. 5, seating grooves (131g, etc.) are provided on the outer circumferential surface of the rear end of the first terminal 131 and the inner circumferential surface of the connection hole 133p formed on the upper end of the second terminal 133, respectively. is shown

In each seating groove, parts of the outer region and the inner region of the spring contact piece 132 are seated, respectively, to determine the position of the spring contact piece 132 in an assembled state, to prevent separation, and to secure the first and second terminals. When assembling, mutual locking function can be performed.

In this way, when the spring contact piece 132 is seated in the seating groove formed on the outer circumferential surface of the rear end of the first terminal 131 and the inner circumferential surface of the connection hole formed on the upper end of the second terminal 133, as shown in FIG. As described above, the position of the spring contact piece 132 is determined and separation is prevented, and each terminal is mutually locked in an assembled state to prevent the assembled state from being released.

In addition, when the rear end of the first terminal 131 is inserted into the fastening hole of the second terminal in a state where the spring contact piece 132 is seated in the seating groove of the first terminal 131 and its position is determined, the spring The outer circumferential area of the connection piece 132 is seated in the seating groove of the inner circumferential surface of the fastening hole, so that the first terminal 131 and the second terminal 133 can be provided with a mutual locking function.

Since the assembly process of the high voltage terminal does not require a separate fastening member fastening process and can be performed without a separate special tool, workability can also be improved.

According to the assembly structure of the high-voltage terminal 130 of the high-voltage connector 100, the fastening direction of the device-side connector and the high-voltage connector 100 and the connection direction of the cable 180 are perpendicular, and the high-voltage terminal 130 has a plurality of terminals. (131, 133), the spring connection piece 132 is provided between the terminals 131 and 133 constituting the high voltage terminal to improve the contact between the terminals 131 and 133, and the spring connection piece 132 ) is configured as a ring-shaped coil spring, the reliability of the contact supported by elasticity can be improved, and further, the separation phenomenon between the terminals constituting the high voltage terminal can be minimized.

Although this specification has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims described below. will be able to carry out Therefore, if the modified implementation basically includes the elements of the claims of the present invention, all of them should be considered to be included in the technical scope of the present invention.

100: high voltage connector
110: outer housing
130: high voltage terminal
132: spring connection piece
140: interlock terminal
200: device-side connector

Claims (7)

In the high-voltage connector constituting a high-voltage power connection device consisting of a pair of connectors, fastened to a device-side connector and connected to a cable,
a plurality of high voltage terminals;
an inner housing in which the high voltage terminal is mounted;
Including; an outer housing accommodating the inner housing,
Each of the high-voltage terminals is interposed between a first terminal to which the high-voltage terminal of the device-side connector is connected, a second terminal assembled to the first terminal and connected to a cable, and interposed between the first terminal and the second terminal to It is configured to include a spring contact piece for mutually locking the first terminal and the second terminal,
The first terminal constituting the high voltage terminal is inserted into the second terminal in a horizontal direction, and the second terminal is connected to the first terminal in an 'L'shape;
The rear end of the first terminal is inserted into the connection hole formed on the upper part of the second terminal, and the spring connection piece is formed on both the outer circumferential surface of the rear end of the first terminal and the inner circumferential surface of the connection hole formed on the upper end of the second terminal. A high voltage connector, characterized in that it is mounted in the groove, and the first terminal and the second terminal are mutually locked in an assembled state. According to claim 1,
The high-voltage connector according to claim 1, wherein the spring contact piece is a coil spring configured in a ring shape. delete According to claim 1,
The high voltage connector according to claim 1 , wherein the cable is inserted into and connected to a connection groove formed under a second terminal constituting the high voltage terminal. According to claim 1,
The high-voltage connector of claim 1, wherein a connection groove into which the high-voltage terminal of the device-side connector is inserted is provided at a front end of the first terminal. delete According to claim 1,
and an interlock terminal that is connected or disconnected according to the connection or disconnection of a pair of connectors constituting the high voltage power connection device to cut off power supplied to the high voltage terminal and constitute a closed circuit. connector.

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