KR20160111655A - Easy replacement of radiation socket - Google Patents

Abstract

The present invention relates to an easily replaceable heat dissipation socket. More specifically, the present invention provides the heat dissipation socket comprising: a fastening unit having a fastening groove to enable a fixed wing of a power socket to be fastened in the fastening groove; and a mounting unit having a cover fixing wing to be coupled to a coupling groove of a cover formed in a fog lamp. The present invention relates to the heat dissipation socket, preventing, in advance, a fire from occurring in the heat dissipation socket.

Description

{Easy replacement of radiation socket}

The present invention relates to a heat-dissipating socket which can be easily replaced, and more particularly, it relates to a heat-dissipating socket for preventing detachment of the light-emitting member when connecting a light-emitting member mounted on a vehicle and emitting a light, The present invention relates to a heat-dissipating socket which can be easily replaced even in a variable power socket.

BACKGROUND ART As automobile fog lamps widely used in the past, there have been proposed various types of fog lamps for automobiles, such as the Korean Utility Model Publication No. 1997-0002657 (publication date: March 31, 1997) , A structure of an automobile fog lamp in the public utility model 20-2008-0002866, a structure of a fog lamp for a vehicle in a public utility model 20-2008-0002867, and a snaptogger automobile LED lamp assembly in an application No. 10-2003-0021938 And a 'fog lamp for a vehicle' of Registration Practice No. 20-0423412.

The fog lamp for automobiles disclosed in Korean Utility Model Publication No. 1997-0002657 has a reflecting plate which is spaced apart from the glass surface of the main body and inside the protective case by a predetermined distance and which has a coupling groove formed in the center hole of the reflecting plate, And a rubber cover having a guide tube protruding therefrom is inserted into the center hole of the protective case to seal the guide tube and the power source line of the bulb socket is inserted into the guide tube to be released to the outside.

In the conventional automobile fog lamp constructed as described above, a reflection plate is provided on the glass surface of the main body and the inside of the protective case, and the glass surface and the protective case are integrally joined by the coupling bolts on the outside of the main body, Since the bulb socket with the bulb is caught and the rubber cover is put on the center hole of the protective case, the inside of the protective case is completely sealed from the outside, and the power line comes out through the projected guide pipe of the rubber cover. Can be prevented.

However, the conventional automobile fog lamp structure thus configured has a problem in that it consumes a large amount of electric power, frequently breaks due to generation of high temperature and vibration, and shortens the service life of the bulb.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a fog lamp which can be fastened to a coupling groove formed in a cover, And a fixing part formed with a coupling groove having the same shape as the fixed blade shape of the power socket can be formed. Thus, even if the shape of the fixed blade varies depending on the automobile or manufacturer, The light emitting diodes (LEDs) can be used by replacing the fastening parts. The light emitting diodes (LEDs) can be replaced by a circuit using a PCB (PRINTED CIRCUIT BOARD) or PWB (PRINTED WIRING BOARD) This is a technical task that has been completed.

According to an aspect of the present invention, there is provided a heat dissipation socket connected to a power socket connected to a vehicle fog lamp cover to radiate light, the heat dissipation socket being connected to the power socket, And a mounting portion formed with a cover fixing blade connected to the coupling groove of the cover, the other side being constituted by a fastening portion formed with a fastening groove for fastening the stationary blade and fastened. .

According to the present invention, it is possible to mount a heat-dissipating socket having a fastening groove in accordance with the shape of a fixed blade of a power socket that varies according to the type of a vehicle or a manufacturer, When the fastening part of the heat dissipating socket is of a detachable type, the fastening groove of the fastening part can be changed according to the shape of the fixed blade of the power socket to be replaced, and the power supplied to the light emitting part is made of PCB or PWB, When the cover is connected to the heat sink socket and the heat sink socket connected to the power socket, a rubber ring is formed, respectively, so that the waterproof function is increased, and the light emitting member is used for a long time And it is possible to reduce the additional cost of replacing a socket due to a failure, which is a great invention.

1 is a perspective view showing a connection between a power socket and a heat-dissipating socket in the configuration of the present invention;
2 is a perspective view showing a heat dissipation socket in the structure of the present invention;
Fig. 3 is a side view showing the heat-dissipating socket in the constitution of the present invention
4 is a front view showing a heat-dissipating socket in the structure of the present invention;
Fig. 5 is a rear view showing the heat-dissipating socket in the constitution of the present invention
Fig. 6 is a rear view showing that the auxiliary draw-in groove is formed in the draw-in portion of the heat-
7 is a perspective view showing a plate to be coupled to a heat-
8 is a perspective view showing that a rubber ring is coupled to an auxiliary fixing blade of a heat dissipating socket in the structure of the present invention;
9 is a perspective view showing that a rubber ring is coupled to a fixed blade of a power socket in the configuration of the present invention;
10 is a perspective view showing a connection to the present invention;
11 is a perspective view showing another embodiment of Fig. 9
12 is a side cross-sectional view showing an embodiment of a heat-

Accordingly, the heat-dissipating socket easily replaceable according to the present invention will now be described.

A heat dissipation socket 200 according to the present invention is a heat dissipation socket connected to a power socket connected to a vehicle fog lamp cover to emit light. The heat dissipation socket 200 is connected to the power socket 100, And a cover fixing blade 221 connected to the cover 300 is formed on the other side of the fixing part 210. The fixing part 210 is formed with a fixing groove 211 for fixing the fixing blade 110 to be inserted into the fixing part 100, (220).

The coupling groove 211 is formed in the same shape as that of the fixed blade 110 and the cover fixing blade 221 is formed in the same shape as the coupling groove formed in the cover 300.

Inside the coupling groove 211, a lead-in groove 213 having a predetermined angle is formed.

The mounting portion 220 is formed with a light-emitting member using a light-emitting diode (LED).

A through hole 410 having the same shape as that of the fixed blade 110 is formed between a portion where the fixed blade 110 of the power socket 100 is formed and a coupling portion 210 of the heat dissipating socket 200 400).

A rubber ring r is respectively formed in the fixed blade 110 of the power socket 100 or the cover fixing blade 221 of the heat dissipating socket 200.

The fastening part 210 and the mounting part 220 are integrally or separately formed.

The heat-dissipating socket 200 is made of aluminum.

In the conventional fog lamp structure, a generally used fog lamp is constituted of a power socket, a light emitting member for emitting light is connected to one side of the power socket, and a part of the light emitting member and the power socket .

The light emitting member passes through the power socket and is supplied with power from a battery of a vehicle through a coated wire connected to the power socket. Power is supplied to the light emitting member by the control system of the vehicle (automatic or manual) .

However, in the related art, the wire covering the light emitting diodes is often melted and short-circuited to cause breakage of the light emitting diodes. Therefore, it is troublesome to replace the light emitting diodes and the cost of replacement In order to prevent frequent replacement of the light emitting diodes, when connecting the heat-dissipating heat-dissipating socket with the power socket, the shape of the connecting groove of the fixed blade and the cover of the power socket may be different So that there is a problem in that it is inconvenient for replacement.

1 to 12, the heat-dissipating socket easily replaceable according to the present invention will be described in more detail.

Referring to FIGS. 1 to 6, the heat-dissipating socket 200 of the present invention is connected to the power socket 100.

At this time, a coupling part 210 having a coupling groove 211 having a certain depth is formed on one side of the heat dissipation socket 200 so that the fixed blade 110 formed in the power socket 100 can be inserted and fastened. And a mounting portion 220 having a cover fixing blade 221 connected to the coupling groove formed in the cover 300 is formed on the other side.

The fixed blade 110 of the power socket 100 is inserted into the coupling groove 211 of the coupling part 210 formed in the heat dissipation socket 200 to be connected to each other, (221) to the coupling groove of the cover (300).

5, 6 and 12, the coupling groove 211 is formed in the same shape as that of the fixed blade 110, and the cover fixing blade 221 is formed in the cover 300 And is formed in the same shape as the engaging groove.

The shape of the coupling groove 211 and the shape of the cover fixing blade 221 may be different depending on the type of the automobile and the manufacturer and the shape of the fixed blade 110 of the power socket 100 and the shape of the coupling groove formed in the cover 300 So that they can be formed in the same manner according to the shape to be differently fastened.

Referring to FIG. 6, an inlet groove 213 having a predetermined angle is formed in the coupling groove 211.

The inlet recess 213 has a predetermined angle in the inside of the coupling groove 211 to increase the fastening force of the power socket 100 fastened to the fastening groove 211 with respect to the fixed blade 110, 110 can be rotated at the predetermined angle, and the fastening force for the fixed blade 110 fastened by the entrance groove 213 having a predetermined angle can be increased.

The mounting portion 220 is formed with a light-emitting member using a light-emitting diode (LED).

The light emitting member is mounted on the mounting portion 220 to emit light, and a light emitting diode that has recently been spotlighted is used.

This is because a power line passing through the power socket 100 is connected to a circuit using a printed circuit board (PWB) or a PWB (printed wiring board) to light the light emitted from the light emitting diode It will diverge.

7, 10, and 11, a portion of the fixed blade 110 of the power socket 100 is coupled to a coupling portion 210 of the heat-dissipating socket 200, A plate 400 having through holes 410 having the same shape as that of the plate 400 is formed.

The plate 400 is connected between the fixed blade 110 and the fastening part 210 when the power socket 100 is connected to the heat dissipating socket 200 and the through hole 410 formed in the plate 400 Is formed in the same shape as the fixed vane 110 of the power socket 100 so that the plate 400 is first inserted into the fixed vane 110 of the power socket 100, 200).

At this time, the outer circumference of the coupling part 210 of the heat dissipating socket 200 and the outer circumference of the plate 400 are connected to each other using a connecting member to increase the fixing force for connecting the heat dissipating socket 200 and the plate 400.

Referring to FIGS. 8 and 9, a rubber ring r is respectively formed in the fixed blade 110 of the power socket 100 or the cover fixing blade 221 of the heat dissipating socket 200.

The rubber ring r prevents the gap between the grounded surfaces that are exposed when the power socket 100 and the heat-dissipating socket 200 are connected to each other and prevents the gap between the heat-dissipating sockets 200 and the cover 300) are mutually connected, it is also possible to prevent the gap on the ground surface that is touched and to exhibit the effect of waterproofing.

Also, the rubber ring r is fixed to a socket separate from the heat-dissipating socket 200, thereby increasing the binding force and preventing the inflow of water and foreign matter in advance.

The fastening part 210 and the mounting part 220 are integrally or separately formed.

The coupling part 210 and the mounting part 220 may be integrally formed to constitute one heat-dissipating socket 200. However, the coupling part 210 and the mounting part 220 may be configured to be detachable depending on the type of use, 110 and the shape of the coupling groove formed in the cover 300.

The fastening portion 210 having the same shape as the shape of the fixed blade 110 is used and the cover fixing blade 221 having the same shape as the shape of the coupling groove formed in the cover 300 The formed mounting portion 220 is used.

The heat-dissipating socket 200 is made of aluminum.

The aluminum material is a material having a high heat dissipation property to minimize the transfer of high heat due to the light emitted from the light emitting diaphragm. In the present invention, the aluminum material has a high heat dissipation property. I will not be limited.

According to the present invention, it is possible to mount the heat dissipation socket 200 having the fastening groove 211 formed in the shape of the fixed blade 110 of the power socket 100, When the coupling part 210 of the heat dissipation socket 200 is configured to be detachable, the coupling groove 211 of the coupling part 210 is inserted into the fixed blade 110 of the power socket 100 to be replaced, And the power supplied to the light emitting member can be configured by a PCB or a PWB to prevent a fire from being generated in the heat-dissipating socket 200 that radiates high heat, and the power socket 100, When the cover 300 connected to the heat-dissipating socket 200 and the heat-dissipating socket 200 is connected, the rubber ring r can be respectively configured to increase the water-proof function and to use the light-emitting member for a long time. So that the additional cost of socket replacement can be reduced.

100: power socket 110: fixed wing
200: Heat Socket
210: fastening portion 211: fastening groove 213:
220: mounting part 221: cover fixing blade
300: cover
400: Plate 410: Through hole
r: Rubber ring

Claims (8)

A heat radiation socket connected to a power socket connected to a vehicle fog lamp cover to emit light,
The heat dissipation socket 200 is connected to the power socket 100 and has a fastening part 210 formed with a fastening groove 211 for fastening the fixed blade 110 formed in the power socket 100 to one side. And a mounting part (220) having a cover fixing blade (221) connected to the coupling groove of the cover (300) is formed on the other side.
The method according to claim 1,
The coupling groove 211 is formed in the same shape as the shape of the fixed blade 110 and the cover fixing blade 221 is formed in the same shape as the coupling groove of the cover 300. Heat Socket.
The method according to claim 1,
Wherein an inserting groove (213) having a predetermined angle is formed in the coupling groove (211).
The method according to claim 1,
Wherein the mounting portion (220) is formed with a light-emitting member using a light-emitting diode (LED).
The method according to claim 1,
A through hole 410 having the same shape as that of the fixed blade 110 is formed between a portion where the fixed blade 110 of the power socket 100 is formed and a coupling portion 210 of the heat dissipating socket 200 400) are formed on the upper surface of the heat dissipation plate
The method according to claim 1,
Wherein a rubber ring (r) is formed on the fixed blade (110) of the power socket (100) or the cover fixing blade (221) of the heat dissipating socket (200).
The method according to claim 1,
Wherein the fastening part (210) and the mounting part (220) are integrally or separately formed.
The method according to claim 1,
Wherein the heat dissipation socket (200) is made of aluminum.

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