KR102158260B1 - Connection structure to external charge/discharge connector of battery pack - Google Patents

Abstract

The present invention is a structure for securing an insulation distance in a connection groove connected to an external charge/discharge connector of a battery pack, a connection groove formed at an upper edge of the battery pack, a connection groove formed inside the connection groove, and an external charge/discharge connector A plurality of pin insertion ports arranged in a row to correspond to the plurality of connector pins arranged in, and configured to receive each connector pin individually inserted, a pair of pins formed on both sides of the pin insertion hole in the depth direction of the pin insertion hole It characterized in that it comprises a connector guide, an insulating lip formed on the upper side of the pin insertion hole to prevent the inflow of an external short factor when the connector pin is inserted into the pin insertion hole.

Description

Structure of the connection part connected to the external charge/discharge connector of the battery pack {CONNECTION STRUCTURE TO EXTERNAL CHARGE/DISCHARGE CONNECTOR OF BATTERY PACK}

The present invention relates to a connection part for connecting a battery pack and an external charging/discharging connector. More specifically, by forming an insulating lip protruding above the connection groove into which the external charging/discharging connector is inserted into the battery pack, the insulating lip is positioned above the external charging/discharging connector inserted into the connection groove. It relates to a structure that sufficiently secures an insulation distance that prevents the inflow of a short factor.

In the conventional small battery pack, its output and voltage are low, so when the external charging/discharging connector and the battery pack are connected, the risk of an external short circuit that may occur due to the inflow of an external short factor is not high, so the insulation distance has not been applied as an important factor.

1 and 2, the connection between the conventional battery pack 100 and the external charging/discharging connector 300 is the external charging/discharging corresponding to the pin insertion hole 120 formed in the connection groove 110. It has a structure in which the connector pin 310 of the connector 300 is inserted. Here, when the connector pin 310 is inserted into the pin insertion hole 120, a short factor is introduced from the outside so that it can be pinched between the connector pin 310 and the pin insertion hole 120. In addition, even after the external charging/discharging connector 300 is connected to the battery pack 100, the insulation distance is short, and thus there has been a problem that there are a number of paths through which a short factor is introduced from the outside.

However, in recent years, as the size of the battery pack increases rapidly in the direction of improving the output and increasing the voltage, the risk of an external short that may occur due to the inflow of an external short factor is also increased. It has been difficult to prevent the risk of an external short caused by the inflow of an external short factor with the existing insulation distance.

Accordingly, the present invention is to solve the above problems, and an object of the present invention is to provide a connection part structure that secures an insulation distance capable of preventing the inflow of an external short factor when a battery pack and an external charge/discharge connector are connected. will be.

In the structure of the connection part connected to the external charge/discharge connector of the battery pack,

Connection grooves formed at the upper edge of the battery pack, formed in the connection grooves, arranged in rows to correspond to a plurality of connector pins arranged in the external charge/discharge connector, and each connector pin that is individually inserted A plurality of pin insertion holes configured to receive, a pair of connector guides formed on both sides of the pin insertion hole in the depth direction of the pin insertion hole, and an external short when the connector pin is inserted into the pin insertion hole by being formed above the pin insertion hole It may be formed including an insulating lip that prevents the inflow of factors.

The connection groove has a shape corresponding to the external shape of the external charge/discharge connector, and may be formed by connecting the external charge/discharge connector in a horizontal direction to the bottom surface of the battery pack.

The connector guide may be parallel to the inner wall of the connection groove and may be formed perpendicular to the bottom surface of the connection groove.

The connector guide may be formed perpendicular to the bottom surface of the connection groove, and may be formed to be lower than a height at which the insulating lip is formed.

The connector guide may be formed to be received in a corresponding groove formed in the external connector so that the connector pin and the pin insertion hole are not misaligned.

The connector guide may be formed so as to suppress a shift of the connector in an arrangement direction of the pin insertion hole in a state where the connector pin is inserted into each pin insertion hole.

The insulating lip may protrude from one side of the outer peripheral portion of the connection groove, and may extend in a direction opposite to which the external charge/discharge connector is inserted.

The insulating lip may be positioned on an upper surface of the external charging/discharging connector when the external charging/discharging connector is inserted, and may be configured to suppress displacement of the connector while the connector pin is inserted into each pin insertion port.

The insulating lip may be formed shorter than a distance from an outer circumference of the pin insertion hole to one side of the battery pack.

When the edge portion of the battery pack in which the connection groove is formed is formed in a curved surface, the insulating lip may extend from an outer peripheral portion of the pin insertion hole to a point where the curved surface starts.

According to an aspect of the present invention, an insulating lip is formed on the upper part of the connection groove to increase the insulation distance through which the external short factor can be introduced when the battery pack and the external charging/discharging connector are connected, thereby preventing the occurrence of a short circuit due to an external short factor. You can get the effect of preventing.

1 is a perspective view of a conventional battery pack and an external charge/discharge connector.
2 is an enlarged side view showing that an external charge/discharge connector is inserted and connected to a connection groove of a conventional battery pack.
3 is a perspective view of a battery pack and an external charge/discharge connector according to the present invention.
4 is an enlarged side view showing that an external charge/discharge connector is connected to a connection groove of a battery pack according to the present invention.

The terms or words used in this specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventor should appropriately define the concept of terms in order to describe his own invention in the best way. Based on the principle that it is possible, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so that they can be replaced at the time of application. It should be understood that there may be various equivalents and variations. In addition, in describing the present invention, when it is determined that related well-known technologies may obscure the subject matter of the present invention, detailed descriptions thereof will be omitted.

Hereinafter, with reference to the accompanying drawings will be described with respect to a preferred embodiment of the present invention. 3 is a perspective view of a battery pack and an external charge/discharge connector according to the present invention, and FIG. 4 is an enlarged side view illustrating that an external charge/discharge connector is connected to a connection groove of the battery pack according to the present invention.

Referring to FIGS. 3 and 4, the connection part structure connected to the external charge/discharge connector of the battery pack according to an embodiment of the present invention includes a connection groove 210 formed at an upper edge of the battery pack, and the connection groove 210. ) Formed in the interior, arranged in a row to correspond to the plurality of connector pins 410 arranged in the external charging/discharging connector 400, and configured to receive each connector pin that is individually inserted (220), a pair of connector guides 230a, 230b formed on both sides of the pin insertion hole 220 in the depth direction of the pin insertion hole 220, the pin insertion hole 220 in the depth direction of the pin insertion hole 220 ), and when the connector pin 410 is inserted into the pin insertion hole 220, an insulating lip 240 that prevents the inflow of an external short factor is included.

First, the connection groove 210 is formed at the upper edge of the battery pack 200 and has a shape corresponding to the external shape of the external charge/discharge connector 400 connected to the connection groove 210. In addition, the connection groove 210 is configured such that the external charge/discharge connector 400 can be connected to the bottom surface (not shown) of the battery pack 200 in a horizontal direction. In this embodiment, when the external shape of the external charging/discharging connector 400 is a rectangular parallelepiped shape, the connection groove 210 having a shape corresponding thereto is described, but is not limited thereto, and may be provided in various shapes such as circular or polygonal have.

The plurality of pin insertion holes 220 are formed on one wall surface of the connection groove 210 corresponding to the surface on which the plurality of connector pins 410 are formed, and heat up to correspond to the plurality of connector pins 410. And configured to receive each connector pin that is individually inserted and arranged.

The connector guides 230a and 230b are formed in a pair on both sides of the pin insertion hole 220 in the depth direction of the pin insertion hole 220, and are parallel to the inner wall of the connection groove 210, and the connection groove 210 ) Is formed perpendicular to the bottom surface 250.

In addition, the connector guide (230a, 230b) is accommodated in correspondence with the corresponding grooves (420a, 420b) formed on both sides of the connector pin (410) so that the connector pin (410) and the pin insertion hole (220) are not misaligned. It is configured to be.

The connector guides 230a and 230b are formed to suppress the left and right shift of the connector 400 in the arrangement direction of the pin insertion holes 220 in a state in which the connector pins 410 are inserted into the respective pin insertion holes 220 .

In the present embodiment, the connector guides 230a and 230b are described as being formed on both sides of the pin insertion hole 220, but the connector guides 230a and 230b according to the shape of the external charging/discharging connector 400 If it is formed at a position corresponding to the corresponding groove (420a, 430b), the position is not limited.

The connector guide is formed perpendicular to the bottom surface 250 of the connection groove 210 and is formed to be lower than the height at which the insulating lip 240 is formed.

In addition, the insulating lip 240 is formed on the upper side of the pin insertion hole 220 to prevent the introduction of an external short factor when the connector pin 410 is inserted into the pin insertion hole 220.

The insulating lip 240 is formed to protrude from one side of the outer circumferential portion of the connection groove 210, and is formed to extend in a direction opposite to which the external charge/discharge connector 400 is inserted.

The insulating lip is positioned on the upper surface of the external charging/discharging connector when the external charging/discharging connector 400 is inserted into the connection groove 210, and at this time, the connector pins 410 are each pin insertion hole 220 ) To suppress the vertical shift of the external charging/discharging connector 400 in the inserted state.

In addition, the insulating lip is configured to be shorter than the distance from the outer periphery of the pin insertion port to one side of the battery pack 200, so that one side of the battery pack 200 is connected to the external charge/discharge connector 400 It touches one side of the system to form a stable bond.

On the other hand, when the edge of the battery pack 200 is curved, the insulating lip 240 is configured to extend from the outer circumference of the pin insertion hole to the point A shown in FIG. 2(a) where the curved surface begins.

Accordingly, the structure of the connection part connected to the external charge/discharge connector of the battery pack according to the present embodiment is, when the external charge/discharge connector 400 is inserted into the connection groove 210, the connection groove 210 The inner wall and the bottom surface and the insulating lip 240 surround the external charge/discharge connector in a pocket type.

Therefore, when the external charging/discharging connector 400 is inserted into the connection groove 210, a conductor such as a clip or a key is introduced and is caught between the external charging/discharging connector 400 and the insulating lip 240 As a result, since the external charge/discharge connector 400 is not inserted into the connection groove 210, a short circuit caused by external factors can be prevented in advance. And when the external charging/discharging connector 400 is inserted into the connection groove 210, the external charging/discharging connector 400 is limited to the left and right movement by the connector guide 230, and the insulating lip Since the vertical movement is restricted by (240), it is possible to block the inflow of the external short factor.

100, 200 battery pack
110, 210 connection groove
120, 220 pin insert
230 connector guide
240 insulation grain
300, 400 external charge/discharge connector
310, 410 connector pin
420 corresponding groove

Claims (10)

In the structure of the connection part connected to the external charge/discharge connector of the battery pack,
A connection groove formed at an upper edge of the battery pack;
A plurality of pin insertion holes formed in the connection groove, arranged in rows to correspond to a plurality of connector pins arranged in an external charging/discharging connector, and configured to receive each connector pin individually inserted;
A pair of connector guides formed on both sides of the pin insertion hole in the depth direction of the pin insertion hole;
An insulating lip formed on the upper side of the pin insertion hole to prevent the inflow of an external short factor when the connector pin is inserted into the pin insertion hole;
Including,
The insulating lip,
The connector guide is formed to be higher than the formed height, so that the plurality of connector pins are inserted into the plurality of pin insertion holes, and are positioned on the upper surface of the external charge/discharge connector, and It is configured to wrap the external charge/discharge connector in a pocket shape together with the bottom surface of the connection groove,
The connector guide,
A connection part structure connected to an external charge/discharge connector of a battery pack, characterized in that formed so as to be parallel to the inner wall of the connection groove inside the connection groove
The method of claim 1,
The connection groove,
It has a shape corresponding to the external shape of the external charge/discharge connector, and the external charge/discharge connector can be connected to the bottom surface of the battery pack in a horizontal direction. Connection structure
The method of claim 1,
The connector guide,
A connection part structure connected to an external charge/discharge connector of a battery pack, characterized in that it is formed perpendicular to the bottom surface of the connection groove
delete The method of claim 1,
The connector guide,
The connector structure connected to the external charging/discharging connector of the battery pack, characterized in that the connector pin and the pin insertion hole are not misaligned and are accommodated in a corresponding groove formed in the external charging/discharging connector.
The method of claim 1,
The connector guide,
A connection part structure connected to an external charge/discharge connector of a battery pack, characterized in that the connector pins are prevented from shifting in the arrangement direction of the pin insertion holes in a state where the connector pins are inserted into each pin insertion hole.
The method of claim 1,
The insulating lip,
A connection part structure connected to an external charging/discharging connector of a battery pack, characterized in that protruding from one side of the outer circumference of the connection groove and extending in a direction opposite to which the external charging/discharging connector is inserted
The method of claim 1,
The insulating lip,
The connector structure connected to the external charging/discharging connector of the battery pack, characterized in that the connector pin is configured to suppress the displacement of the connector in a state where the connector pin is inserted into each pin insertion hole
The method of claim 1,
The insulating lip,
A connection part structure connected to an external charge/discharge connector of a battery pack, characterized in that it is shorter than a distance from the outer circumference of the pin insertion port to one side of the battery pack
The method of claim 9,
The insulating lip,
When the edge portion of the battery pack in which the connection groove is formed is formed in a curved surface, the insulating lip extends from an outer peripheral portion of the pin insertion hole to a point where the curved surface starts. Connection structure

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