KR20190006214A - Connector and converter - Google Patents

Abstract

Disclosed are a connector with secured airtightness by a first sealing member between a case and a conductive member, and a converter including the same. The connector comprises: the case which contains a plastic resin material; the conductive member of which at least a part is arranged in the case; and the first sealing member which is arranged between the case and the conductive member and includes a plastic resin material. The conductive member extends front and rear and includes a rod part which is arranged in the first sealing member. The first sealing member is to be in contact with the case and the rod. In a contact part between the first sealing member and the case, a volume of a portion coupled to the case is bigger than a volume of a portion coupled to the first sealing member.

Description

CONNECTOR AND CONVERTER

This embodiment relates to a connector and a converter.

The following description provides background information for the present embodiment and does not describe the prior art.

With the emergence of environmentally friendly vehicles using electric power, it is required to reduce the weight and size of electric parts for vehicles.

The vehicle DC-DC converter is a device for controlling the DC voltage in the vehicle. Particularly, in an electric vehicle, a voltage of a current generated in a battery is changed and supplied to a motor. In addition, when the electric vehicle goes down the slope road, the motor serves as a generator to charge the battery. In this case, the electric current generated by the motor is changed and supplied to the battery.

The main components of the converter are a primary coil through which an external current flows, a secondary coil from which an induced current is generated by a current flowing through the primary coil, and an inductor coil which is electrically connected to the secondary coil to rectify the induced current. On the other hand, the induction current of the inductor coil is transmitted to the connector through the bus bar. An external cable is docked to the connector to deliver the induced current to the motor.

A connector is manufactured by inserting and injecting a metal conductive member into a plastic case, and there is a problem that a foreign matter flows into the inside of the converter due to a gap between the conductive member and the case.

In the present embodiment, it is desired to provide a connector having high air-tightness and a connector including the connector.

The connector of this embodiment includes a case including a plastic resin material; At least a part of which is disposed in the case; And a first sealing member disposed between the case and the conductive member and including a plastic resin material, wherein the conductive member includes a rod extending in the front-rear direction and having the first sealing member disposed therein, The sealing member may be in contact with the case and the rod and the volume of the portion where the case is fused at the contact portion of the first sealing member and the case may be larger than the volume of the portion where the first sealing member is fused.

Wherein the first sealing member includes a first sealing portion and a second sealing portion disposed behind the first sealing portion and having a rear surface exposed to the outside of the case, wherein the first sealing portion and the second sealing portion have axes And the rod may pass through the first sealing portion and the second sealing portion in the front-rear direction, and the diameter of the second sealing portion may be larger than the diameter of the first sealing portion.

Wherein the first sealing portion is disposed between the front surface and the side surface and includes a first curved portion that is curved so as to decrease in diameter toward the front side and the second sealing portion is disposed at a portion connected to the first sealing portion, And a second curve that is curved to reduce the diameter.

Wherein the conductive member further comprises a bracket vertically curved or bent at the front end of the rod and a terminal disposed in the bracket, the case including at least a portion of the rod and at least a portion of the first sealing member A support portion that is disposed in front of the receptacle and supports the bracket, and a first engagement portion and a second engagement portion that are disposed on one side and the other side of the support portion, respectively.

And a second sealing member disposed in the receiving portion, wherein the receiving portion is in the form of a column extending in the front-rear direction, and the second sealing member can be disposed along the outer peripheral surface of the receiving portion.

The first sealing member may further include an adhesive layer adhering to the rod.

An exterior member; A main board disposed inside the exterior member; A primary coil disposed on the main board; A secondary coil generating an induced current by the current of the primary coil; An inductor coil for rectifying an induction current generated in the secondary coil; A bus bar extending from the inductor coil; And a connector electrically connected to the bus bar, wherein the connector comprises: a case coupled to the exterior member and including a plastic resin material; At least a part of which is disposed in the case; And a first sealing member disposed between the case and the conductive member, the conductive sealing member including a plastic resin material, the conductive member extending in the front-rear direction, the first sealing member being disposed, And a rod portion electrically connected to a bus bar, wherein the first sealing member is in contact with the case and the rod, and a portion where the case is thermally fused is formed at a contact portion between the first sealing member and the case, The first sealing member may be larger than the heat-sealed portion.

In the present embodiment, the first sealing member disposed between the case and the conductive member provides the connector with airtightness. Further, the present invention provides a converter including the connector.

1 is a perspective view of the converter of the present embodiment as viewed from the front.
2 is a perspective view of the connector of this embodiment as viewed from the rear.
3 is an exploded perspective view of the connector of this embodiment as viewed from the rear.
4 is a sectional view showing the connector of this embodiment.

Hereinafter, some embodiments of the present invention will be described with reference to exemplary drawings. In describing the components in the drawings, the same components are denoted by the same reference numerals whenever possible, even if they are displayed on other drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected, coupled, or connected to the other component, It is to be understood that another element may be "connected "," coupled ", or "connected" between elements.

Hereinafter, the converter 10 of the present embodiment will be described with reference to the drawings. 1 is a perspective view showing a converter of the present embodiment. The "forward and backward direction" can be defined as the forward and backward directions shown in the drawing. In this case, "forward and backward direction" may be the direction in which the rod 210 extends.

The converter 10 may be a DC-DC converter used in a vehicle. For example, the converter 10 can be supplied with an electric current from an external power source (such as a lithium ion battery) and supply the voltage to an external electronic device (such as a motor) by boosting or reducing the voltage. Thereby, the number of revolutions of the motor or the like can be controlled.

The converter 10 includes an outer member 1, a main substrate 2, a primary coil 3, a secondary coil 4, an inductor coil 5, a bus bar (not shown) ).

The exterior member 1 may be in the form of a hollow block with the top open. However, the upper surface of the exterior member 1 can be closed by a separate cover (not shown). A space for accommodating the main board 2, the primary coil 3, the secondary coil 4, the inductor coil 5, and a bus bar (not shown) may be provided in the exterior member 1 have. A hole through which the connector 1000 penetrates may be formed on the side wall of the exterior member 1. [

The main board 2 may be a printed circuit board (PCB). A primary coil 3, a secondary coil 4, an inductor coil 5, and a bus bar may be disposed on the main board 2. [

The primary coil 3 is mounted on the main board 2 and can receive current from an external power supply device. The secondary coil 4 may be disposed apart from the primary coil 3. In the secondary coil 4, a current induced by the current of the primary coil 3 can be generated. The current induced in the secondary coil 4 may have a voltage that is boosted or lowered than that of the primary coil 3. The current induced in the secondary coil 4 can be rectified in the inductor coil 5. The bus bar may be disposed between the inductor coil 5 and the connector 1000 to electrically connect the inductor coil 5 and the connector 1000.

A cable (not shown) of an external electronic device is docked to the connector 1000, so that an induced current that is stepped up or stepped down can be supplied to the external electronic device.

Hereinafter, the connector 1000 of the present embodiment will be described with reference to the drawings. Fig. 2 is a perspective view of the connector of the present embodiment as viewed from the rear, Fig. 3 is an exploded perspective view of the connector of the present embodiment as viewed from the rear, and Fig. 4 is a sectional view of the connector of this embodiment.

Hereinafter, a case where the connector 1000 is mounted on the converter 10 will be described as an example. It should be noted, however, that the connector 1000 of the present embodiment can be mounted and used in various kinds of electronic apparatuses. That is, the use of the connector 1000 of the present embodiment is not limited to a converter. The connector 1000 may include a case 100, a conductive member 200, a first sealing member 300, and a second sealing member 400.

The case 100 can form an appearance of the connector 1000. [ The case 100 may be coupled to the outer sheath 1 of the converter 10. [ In this case, a part of the case 100 may be disposed in the exterior member 1, and the remaining part may be disposed outside the exterior member 1. [

At least a part of the conductive member 200 and at least a part of the first sealing member 300 may be disposed in the case 100. The case 100 can accommodate at least a part of the conductive member 200 and at least a part of the first sealing member 300. A part of the conductive member 200 and a part of the first sealing member 300 may be exposed to the outside of the case 100. [ A second sealing member 300 may be disposed on the case 100.

The case 100 may include a receiving portion 110, a supporting portion 120, a first coupling portion 130, and a second coupling portion 140. The receiving portion 110, the supporting portion 120, the first coupling portion 130, and the second coupling portion 140 may be integrally formed.

The receiving portion 110 may be located behind the supporting portion 120. The receiving portion 110 may have a cylindrical shape with a central axis extending in the front-rear direction. On the side surface of the accommodating portion 110, grooves 110-1 are formed along the circumferential direction and are formed as an inner side. The second sealing member 300 may be disposed in the groove 110-1.

At least a portion of the rod 210 of the conductive member 200 may be disposed in the receiving portion 110. That is, the receiving portion 110 can receive at least a part of the rod 210. [ In this case, the rear portion of the rod 210 may be exposed to the outside of the accommodating portion 110.

At least a portion of the first sealing member 300 may be disposed in the receiving portion 110. That is, the receiving portion 110 can receive at least a part of the first sealing member 300. In this case, the rear surface of the first sealing member 300 may be exposed to the outside of the receiving portion 110.

The receptacle 110 may be disposed in a hole formed in the casing member 1 of the converter 10 when the converter 10 and the connector 1000 are coupled. The second sealing member 400 is disposed between the hole of the exterior member 1 and the receiving portion 110 so that the gap between the hole of the exterior member 1 and the receiving portion 110 can be eliminated. As a result, the airtightness of the converter 10 can be enhanced.

The support 120 may be positioned in front of the receptacle 110. The support 120 may be roughly in the form of a block. The support portion 120 may be formed to extend downward from the receiving portion 110.

At least a part of the rod 210 of the conductive member 200 and at least a part of the bracket 220 of the conductive member 200 can be accommodated in the support part 120. [ In this case, the front portion of the rod 210 may be received within the support 120. [ At least a part of the front surface of the bracket 220 may be exposed to the outside of the support portion 120. The support portion 120 may contact the rear surface of the bracket 220 to support the bracket 220.

The support portion 120 may be disposed outside the converter 10 when the converter 10 and the connector 1000 are coupled. In this case, the rear surface of the support portion 120 and the outer surface of the side wall of the exterior member 1 of the converter 10 can contact each other. Thus, the support portion 120 can be supported by the sheathing member 1 of the converter 10.

The first coupling part 130 and the second coupling part 140 may be disposed on one side and the other side of the support part 120, respectively. The first coupling portion 130 may be disposed on the right side surface of the support portion 120. The first coupling portion 130 may protrude rightward from the support portion 120. The second coupling portion 140 may be disposed on the left side surface of the support portion 120. The second coupling portion 140 may protrude leftward from the support portion 120. The first engaging hole 130-1 and the second engaging hole 130-2 are formed in the first engaging part 130 and the second engaging part 140, respectively, where a fixing member (screw, not shown) .

The first coupling portion 130 and the second coupling portion 140 may be disposed outside the converter 10 when the converter 10 and the connector 1000 are coupled. In this case, the rear surface of the first engaging portion 130 and the second engaging portion 140 and the outer surface of the side wall of the outer casing member 1 of the converter 10 can contact each other. In this state, the fixing member (screw) is inserted into each of the first coupling hole 130-1 and the second coupling hole 140-1, so that the converter 10 and the connector 1000 can be fastened.

The case 100 may include a plastic resin material. The case 100 can be manufactured by plastic injection. The case 100 may be manufactured by insert injection in a state where a combined body of the conductive member 200 and the first sealing member 300 is inserted.

The conductive member 200 may be a member electrically connected to the bus bar of the converter 10. [ The conductive member 200 can electrically connect between the bus bar and the cable of the external electronic device. The conductive member 200 may include a conductive metal material.

At least a portion of the conductive member 200 may be disposed in the case 100. The remaining part of the conductive member 200 may be disposed outside the case 100. One side of the conductive member 200 may be disposed in the exterior member 1 of the converter 10. [ The other side of the conductive member 200 may be disposed outside the sheathing member 1 of the converter 10. [

A first sealing member 300 may be disposed between the conductive member 200 and the case 100. The gap between the case 100 and the conductive member 200 by insert injection can be eliminated by the first sealing member 300. [ Therefore, it is possible to prevent contaminants from dipping into the inside of the converter 10 through the gap between the case 100 and the conductive member 200. As a result, the airtightness of the converter 10 can be enhanced.

The conductive member 200 may include a rod 210, a bracket 220, and a terminal 230. The rod 210, the bracket 220, and the terminal 230 may be integrally formed.

The rod 210 may be in the form of a flat bar extending in the anteroposterior direction. The first sealing member 300 may be disposed on the rod 210. At least a portion of the rod 210 may be disposed within the first sealing member 300. The rod 210 may pass through the first sealing member 300 in the front-rear direction.

At least a portion of the rod 210 may be disposed within the receiving portion 110 of the case 100. At least a portion of the rod 210 may be received in the receiving portion 110. In this case, the rear portion of the rod 210 may be exposed to the outside of the accommodating portion 110. As a result, the rear end of the rod 210 can be disposed in the exterior member 1 of the converter 10 and can be connected to the bus bar of the converter 10. [

A third coupling hole 210-1 may be disposed at the rear end of the rod 210. [ The third coupling hole 210-1 can penetrate the rear end portion of the rod 210 in the vertical direction (vertical direction). A fixing member (a rivet, a screw or the like, not shown) may be inserted into the third coupling hole 210-1 to connect the bus bar and the rod 210. [ As a result, the conductive member 200 can electrically connect between the bus bar and the cable of the external electronic device.

The first sealing member 300 may be disposed in the front-rear direction intermediate portion of the rod 210. The front portion of the rod 210 may be disposed within the support 120. The front portion of the rod 210 may be received in the support 120.

The bracket 220 may be located in front of the rod 210. The bracket 220 may be curved or bent downward (vertically) at the front end of the rod 210. The bracket 220 may be in the form of a circular plate including a front surface and a rear surface.

At least a portion of the bracket 220 may be disposed within the support 120. At least a portion of the bracket 220 may be received in the support 120. In this case, at least a part of the front surface of the bracket 220 may be exposed to the outside of the support 120. The rear surface of the bracket 220 can contact the front surface of the support 120. [ As a result, the bracket 220 can be supported by the support 120.

The terminal 230 can be docked with a cable of an external electronic device. Terminal 230 may be approximately riveted. The terminal 230 may be disposed on the bracket 220. The terminal 230 can pass through the bracket 220 in the front-rear direction. In this case, the head portion of the terminal 230 can be in contact with the rear surface of the bracket 220.

The first sealing member 300 can eliminate the gap between the case 100 and the conductive member 200. The first sealing member 300 may be disposed between the case 100 and the conductive member 200. The first sealing member 300 may be disposed at an intermediate portion of the rod 210 of the conductive member 200.

At least a portion of the first sealing member 300 may be disposed within the case 100. At least a portion of the first sealing member 300 may be received in the case 100. In this case, the rear surface of the first sealing member 300 may be exposed to the outside of the case 100.

The first sealing member 300 may include a first sealing portion 310 and a second sealing portion 320. The first sealing portion 310 and the second sealing portion 320 may be integrally formed.

The first sealing portion 310 and the second sealing portion 320 may have a cylindrical shape with axes arranged in the longitudinal direction. The first sealing portion 310 may be disposed at the front side, and the second sealing portion 320 may be disposed at the rear side. The first sealing portion 310 and the second sealing portion 320 may be connected to each other in the front-rear direction. The rod 210 of the conductive member 200 may pass through the first sealing portion 310 and the second sealing portion 320 in the front-rear direction. The diameter of the second sealing portion 320 may be larger than the diameter of the first sealing portion 310. As a result, the first sealing member 300 can be stably inserted into the case 100. Also, the first sealing portion 310 can be pressed forward by the second sealing portion 320. Therefore, the sealing effect in the first sealing portion 310 can be maximized.

The ordinary pollutants are drawn between the conductive member 200 and the case 100 through the gap between the conductive member 200 of the case 100 and the case 100 and moved from the front to the rear, It can penetrate into the inside. In the converter 10 of the present embodiment, it is possible to prevent the contaminants from entering the rear side more than the first sealing part 310 having a large sealing effect in the process of moving the contaminants from the front to the rear.

The rear surface of the second sealing portion 320 may be exposed to the outside of the case 100. The rear surface of the second sealing portion 320 may be exposed to the outside of the receiving portion 110 of the case 100. The first sealing member 300 has the same shape as that inserted from the rear to the case 100 forward. The connector 1000 of the present embodiment has a structure in which the outer surface of the first sealing member and the inner surface of the case 100 Can be completely brought into close contact with each other. As a result, the sealing effect can be increased.

The first sealing portion 310 may include a first curved portion 310-1 disposed between the front surface and the side surface and curved so as to decrease in diameter toward the front. The second sealing portion 320 may include a second curved portion 310-2 disposed at a portion connected to the first sealing portion 310 and curved to decrease in diameter toward the front. If the first bend section 310-1 and the second bend section 310-2 are angularly corners, the case 100 and the first sealing member 300 may not completely come into close contact with each other due to tolerance or the like . The first bend section 310-1 and the second bend section 310-2 of the present embodiment are structures for completely bringing the case 100 and the first sealing member 300 into close contact with each other.

The first sealing member 300 may include a plastic resin material. The first sealing member 300 may include an epoxy material. The first sealing member 300 may contact the rod 210 of the conductive member 200 and the case 100. The inner surface of the first sealing member 300 may be in contact with the outer surface of the rod 210 of the conductive member 200. The outer surface of the first sealing member 300 can contact the inner surface of the case 100.

In this embodiment, the first sealing member 300 and the conductive member 200 can be insert-injected and coupled. After the first sealing member 300 is cured, the combined body of the first sealing member 300 and the conductive member 200 and the case 300 may be insert-injected and coupled.

When the conductive member 200 and the case 300 are coupled by injection molding and the first sealing member 300 melted in the combination of the conductive member 200 and the case 300 after the case 300 is cured, The first sealing member 300 can not be brought into close contact with the conductive member 200 and the case 300 completely.

The volume of the portion (a, see FIG. 4) where the case 100 is fused at the contact portion between the first sealing member 300 and the case 100 is larger than the volume of the first sealing member 300 May be larger than the volume of the welded portion (b, see Fig. 4). That is, the portion (a) to be thermally fused by the case 100 at the contact portion between the first sealing member 300 and the case 100 is longer than the portion where the first sealing member 300 thermally fuses (b) many. This is because the first sealing member 300 is hardened, and then the molten case 100 is injected by insert injection. For reference, the fused portions (a, b) may mean a portion hardened after adhering to an adjacent member in a molten state (molten state).

On the other hand, in the modification of this embodiment, the first sealing member 300 may be an adhesive tape. That is, the first sealing member 300 may include an adhesive layer adhering to the rod 210 of the conductive member 200. In this case, the first sealing member 300 and the conductive member 200 can be joined by bonding rather than insert injection.

The second sealing member 400 may be a member that seals the gap between the hole of the exterior member 1 of the converter 10 and the receiving portion 110 of the case 100. The second sealing member 400 may be in the form of a ring. The second sealing member 400 may include an elastic material. The second sealing member 400 may be disposed along the outer peripheral surface of the receiving portion 110 of the case 100. The inner surface of the second sealing member 400 can contact the outer surface of the case 100. The second sealing member 400 may be disposed along the groove 110-1 of the case 100. [

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. Furthermore, the terms "comprises", "comprising", or "having" described above mean that a component can be implanted unless otherwise specifically stated, But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (7)

A case including a plastic resin material;
At least a part of which is disposed in the case; And
And a first sealing member disposed between the case and the conductive member, the first sealing member including a plastic resin material,
Wherein the conductive member extends in the front-rear direction and includes a rod in which the first sealing member is disposed,
Wherein the first sealing member is in contact with the case and the rod and the volume of the portion where the case is welded at the contact portion of the first sealing member and the case is larger than the volume of the portion where the first sealing member is fusion- .
The method according to claim 1,
Wherein the first sealing member includes a first sealing portion and a second sealing portion disposed behind the first sealing portion and having a rear surface exposed to the outside of the case,
Wherein the first sealing portion and the second sealing portion are in the shape of a cylinder having axes arranged in the forward and backward directions, the rod passing through the first sealing portion and the second sealing portion in the front-rear direction, and the diameter of the second sealing portion Wherein the first sealing portion is larger than the diameter of the first sealing portion.
3. The method of claim 2,
Wherein the first sealing portion includes a first curved portion disposed between a front surface and a side surface and curved so as to decrease in diameter toward the front,
Wherein the second sealing portion is disposed at a portion connected to the first sealing portion and includes a second curved portion curved so as to decrease in diameter toward the front side.
The method according to claim 1,
Wherein the conductive member further comprises a bracket vertically curved or bent at a front end of the rod, and a terminal disposed in the bracket,
The case includes a receiving portion for receiving at least a part of the rod and at least a part of the first sealing member, a support portion for supporting the bracket and disposed in front of the receiving portion, 1 coupling portion and a second coupling portion.
5. The method of claim 4,
Further comprising a second sealing member disposed in the accommodating portion, the accommodating portion is in the form of a column extending in the front-back direction, and the second sealing member is disposed along the outer circumferential surface of the accommodating portion.
The method according to claim 1,
Wherein the first sealing member further comprises an adhesive layer that bonds to the rod.
An exterior member;
A main board disposed inside the exterior member;
A primary coil disposed on the main board;
A secondary coil generating an induced current by the current of the primary coil;
An inductor coil for rectifying an induction current generated in the secondary coil;
A bus bar extending from the inductor coil; And
And a connector electrically connected to the bus bar,
Wherein the connector comprises:
A case coupled to the exterior member and including a plastic resin material;
At least a part of which is disposed in the case; And
And a first sealing member disposed between the case and the conductive member, the first sealing member including a plastic resin material,
Wherein the conductive member extends in the front-rear direction, the first sealing member is disposed, and the rear end includes a rod electrically connected to the bus bar,
Wherein the first sealing member is in contact with the case and the rod and the volume of the portion where the case is fused at the contact portion of the first sealing member and the case is larger than the volume of the portion where the first sealing member is fused, .

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