JP2008071512A - Vehicular combination lamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently cool heat generated from lamp bulbs while diffusing it into a wide space part without using a heat shield plate or the like. <P>SOLUTION: A combination lamp is composed of a lamp-bulb light-emitting part 10, which comprises lamp bulbs, each lamp-bulb reflector part 51 provided around each lamp bulb 1, and a lamp-bulb housing part 71 that houses the lamp bulbs 1 and the lamp-bulb reflector parts 51, and a LED light-emitting part 20 which is provided at the upper part of the lamp-bulb light-emitting part 10 and comprises a plurality of LEDs 2, each LED reflector part 52 provided around each LED 2, and a LED housing part 72 that houses a plurality of the LEDs 2 and the LED reflector parts 52. A heat circulation path 6 is provided at a vertical wall part 77 that partitions the light-emitting parts 10, 20. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a combination lamp for a vehicle, and in particular, dissipates heat generated by light emission of the lamp bulb into a relatively wide space formed by the entire combination lamp housing, so as to be locally around the lamp bulb. The present invention relates to a combination lamp for a vehicle that has excellent cooling performance so as to avoid excessive temperature rise.

In a conventional vehicle lamp, particularly one having a heat-emitting light-emitting type lamp bulb, hot air stays in the housing due to light emission of the lamp bulb. As a result, there is a problem that the stay of hot air causes thermal deformation or the like around the vertical wall portion of the housing or around the reflector. In order to solve such problems, a heat shield plate made of an iron plate or the like is provided at an upper portion where the lamp bulb exists. And about such a heat insulation board, what was disperse | distributed to four directions etc. as described in patent document 1, etc. are mentioned so that the reflected heat from the said lamp bulb may not concentrate on one part, etc. It is done.
JP-A-7-134903

  By the way, in the above-mentioned heat shield plate type or reflector type method, special members or parts for attaching and fixing the heat shield plate or the reflector plate are required, and the structure of the housing or the reflector is complicated. However, there is a problem that the manufacturing cost of the entire lamp assembly is inevitably high. In order to solve such problems, it is an object of the present invention to provide a vehicle combination lamp excellent in heat dissipation and cooling that does not require the use of a heat shield or a reflector. Is the purpose (problem).

  In order to solve the above problems, the following measures are taken in the present invention. That is, in the first invention according to the first aspect, the lamp bulb and the lamp bulb are surrounded by a vehicle combination lamp having a hybrid light emitting section formed of a lamp bulb and a plurality of LEDs. A lamp bulb light-emitting portion comprising a lamp bulb reflector portion, a lamp bulb housing portion for housing the lamp bulb and the lamp bulb reflector portion, and a plurality of lamp bulb light-emitting portions, which are provided next to the lamp bulb light-emitting portion. The LED light-emitting part which consists of LED, the LED reflector part provided around the said LED, these LED and the LED housing part which accommodates the LED reflector part, and these light emission parts are formed so that it may cover integrally. A lens made of transparent material In addition, heat generated in the lamp bulb light emitting part flows to the LED light emitting part side in a part of the vertical wall part of the housing that partitions the lamp bulb light emitting part and the LED light emitting part and a part of the reflector part. It was decided to adopt a configuration in which the heat flow passage formed in the was provided.

  According to a second aspect of the present invention, the lamp bulb and the lamp bulb reflector formed so as to surround the lamp bulb are provided for a vehicle combination lamp having a plurality of light emitting portions including the lamp bulb. A lamp bulb light-emitting portion comprising a lamp bulb housing portion for housing the lamp bulb and the lamp bulb reflector portion, and a lamp reflector light-emitting portion provided adjacent to the lamp bulb light-emitting portion. The decorative portion that includes the housing portion for the decorative portion that accommodates the reflector portion, and a lens that is formed so as to integrally cover the lamp bulb light emitting portion and the decorative portion and is formed of a transparent body, and the above One of the vertical wall parts of the housing that partitions the lamp bulb light emitting part and the decorative part And heat generated by the lamp bulb emitting portion in a part of the reflector portion was decided to adopt a configuration in which the provided heat flow path formed to flow into the decorative portion.

  According to a third aspect of the invention which is the invention according to claim 3, in the vehicle combination lamp according to claim 1 or claim 2, the heat flow passage is provided with a lamp bulb light emitting part and an LED light emitting part or The housing vertical wall part that partitions the decorative part and the front end part of each reflector part are connected to each other and formed at a reflector connecting part provided so as to straddle the front end part of the housing vertical wall part. In addition, a heat flow hole is provided in a part of each of the reflector portions, and a configuration is adopted in which the heat flow hole, the front end portion of the vertical wall portion of the housing, and a refractive path formed by the reflector connecting portion are employed. It was decided.

  According to the first invention, the heat generated from the lamp bulb in the lamp bulb light emitting section flows through the heat flow path to the LED light emitting section by thermal convection motion. And since this LED light emission part has a large space part compared with the said lamp bulb light emission part, a heat | fever will be spread | diffused widely in this space part. Further, since the LED light emitting part is covered with a lens having a large area, the heat introduced into the LED light emitting part is efficiently dissipated through the lens to the surrounding space part. . In this way, the heat generated in the narrow lamp bulb light emitting part is efficiently dissipated, and the temperature rise in the lamp bulb light emitting part is avoided. And such an efficient heat dissipation function can be reasonably ensured without providing separate parts such as a heat shield.

  According to the second invention, the heat generated from the lamp bulb in the lamp bulb light emitting part flows through the heat flow passage to the decorative part consisting of a wide space part by thermal convection motion. And in this space part, heat will diffuse widely. Moreover, since this decoration part is covered with the lens which has a large area, the heat introduce | transduced into the LED light emission part will be efficiently dissipated to the surrounding space part through this lens. In this way, the heat generated in the narrow lamp bulb light emitting part is efficiently dissipated, and the temperature rise in the lamp bulb light emitting part is avoided. And such an efficient heat dissipation function can be reasonably ensured without providing separate parts such as a heat shield.

  Further, according to the third invention, the heat flow passage is formed by connecting the vertical wall part separating the two light emitting parts, etc., the terminal part of each reflector part, and a part of the reflector part The heat generated in the lamp bulb light emitting part is not directly propagated to the LED light emitting part etc. It will gradually flow through the refraction path to the LED light-emitting part or the like composed of a wide space. And it will be diffused in this wide space part. In addition, the heat generated in the lamp bulb light emitting part is cooled even during the refraction path flow. In this way, the heat generated in the lamp bulb light emitting part is efficiently cooled.

  The best mode for carrying out the present invention will be described with reference to FIGS. As shown in FIG. 1, the basic structure of the present embodiment is a hybrid comprising a lamp bulb light emitting section 10 having a lamp bulb 1 and an LED light emitting section 20 formed by a plurality of LEDs 2. The present invention relates to a vehicle combination lamp having a mold light emitting part. Specifically, the lamp bulb light emitting unit 10 accommodates the lamp bulb 1, the lamp bulb reflector portion 51 formed so as to surround the lamp bulb 1, and the lamp bulb 1 and the lamp bulb reflector portion 51. A lamp bulb housing portion 71. Moreover, the LED light emission part 20 provided in the upper part of such a lamp bulb light emission part 10 includes a plurality of LEDs 2, an LED reflector part 52 provided around the LED 2, and the plurality of LEDs 2 and the LED reflector part. And an LED housing portion 72 that accommodates 52. Further, outside the light emitting units 10 and 20, a plastic lens 9 made of a transparent body is integrally formed so as to cover them. is there.

  In such a basic structure, each of the reflector portions 51 and 52 is made of general thermoplasticity such as PE (polyethylene), ABS (acrylonitrile / butadiene / styrene), AES (acrylonitrile / ethylene / styrene) and the like. It is made of a plastic material, and these are integrally molded to form a plastic reflector 5. Each of the housing parts 71 and 72 is also integrally formed of a general thermoplastic material such as PE, ABS, AES, etc., and the housing 7 is formed. In such a configuration, the lamp bulb light emission is provided at a part of the vertical wall portion 77 of the housing 7 or a part of the reflector portion 51 that partitions the lamp bulb light emitting portion 10 and the LED light emitting portion 20. A heat flow passage 6 is provided so that heat generated in the portion 10 flows to the LED light emitting portion 20 side (see FIG. 2).

  Next, the configuration of each of the light emitting units 10 and 20 will be described. First, in FIG. 1, the lamp bulb 1 is provided in the lamp bulb housing portion 71 forming the housing 7, and a plurality of LEDs 2 are provided in the LED housing portion 72 via the base 22 or the like. It is what has become. Then, from the upper side of the housing 7 with the lamp bulb 1 and the LED 2 attached in this way, the reflector 5 passes around each of the lamp bulb 1 or each LED 2 in which the reflector portions 51 and 52 are light emitters. It is designed to be enclosed.

  As a result, for example, as shown in FIG. 2, the lamp bulb light emitting section 10 is in a state in which the lamp bulb reflector 51 exists around the lamp bulb 1 and these are housed in the lamp bulb housing 71. Will be formed. Similarly, the LED reflectors 52 are mounted around the respective LEDs 2 mounted on the base board 22, and the LED reflector unit 52 is accommodated in the LED housing unit 72. Thus, the LED light emitting unit 20 is formed. Then, as shown in FIG. 1, a lens 9 made of a plastic transparent body is put on the upper portion (outside) of the light emitting portions 10 and 20 formed in this manner. Thus, for example, as shown in FIG. 2, a hybrid vehicle combination lamp having the lamp bulb light emitting unit 10 and the LED light emitting unit 20 is formed.

  Next, the configuration of the heat flow passage 6 formed at the connecting portion of the light emitting units 10 and 20 having such a configuration will be described. As shown in FIG. 1, this is installed so as to straddle the vertical wall 77 separating the lamp bulb housing 71 and the LED housing 72 of the housing 7 and the tip 777. And it is formed by the connection part 55 formed so that between the edge part of the reflector part 51 for lamp bulbs, and the edge part of the reflector part 52 for LED may be connected. And in what consists of such a structure, as shown in FIG.1 and FIG.2, the heat distribution hole 511 which has a predetermined opening area is provided in a part of vertical wall of the said reflector part 51 for lamp bulbs. It has become. With these configurations, the heat flow path 6 formed of, for example, a refraction path or a bending path as shown in FIG. 2 is formed by the front end portion 777 of the vertical wall portion 77 provided in the housing 7 and the connecting portion 55 provided in the reflector 5. Will be formed. The heat generated in the lamp bulb light emitting section 10 through the heat flow path 6 composed of such a refractive path or a curved path passes from the heat flow hole 511 through the heat flow path 6 and has a large volume. It will flow into the housing part 72.

  Next, the operation mode and the like of the present embodiment having such a configuration will be described with reference to FIG. The hybrid combination lamp according to the present embodiment has a lamp bulb light emitting unit 10 on the lower side, and an LED light emitting unit 20 on the upper part thereof. In the structure as described above, the heat generated in the lamp bulb 1 forming the lamp bulb light emitting section 10 is, first, as shown in FIG. 2, the heat flow provided in a part of the lamp bulb reflector section 51. It flows to the hole 511. At this time, the heat flow hole 511 is provided with a vertical wall 77 that is a part of the housing 7 and partitions the light emitting parts 10 and 20. The generated heat is not directly transmitted to the LED light emitting unit 20 side. That is, strong heat waves generated by the lamp bulb 1 are not directly radiated to the LED light emitting unit 20 side.

  In such a state, the heat generated in the lamp bulb 1 flows to the LED light emitting section 20 through the heat flow passage 6 as shown by the arrow in FIG. Specifically, the thermal fluid that has flowed to the heat distribution hole 511 is formed at the connecting portion 55 so as to get over the tip portion 777 of the vertical wall portion 77 that partitions the two light emitting portions 10 and 20. It flows through the refractive path to the LED housing part 72 which is a wide space part and forms the LED light emitting part 20. And in this wide space part, a thermal fluid will be spread | diffused widely. Further, since the LED light emitting unit 20 is covered with the lens 9 having a large area, the heat introduced into the LED light emitting unit 20 is efficiently dissipated to the surrounding space through the lens unit. The Rukoto. In this way, the heat generated in the narrow lamp bulb light emitting section 10 is efficiently dissipated, and the temperature rise in the lamp bulb light emitting section 10 is avoided. And such an efficient heat dissipation action can be reasonably obtained without providing other parts such as a heat shield.

  Next, in addition to what consists of such a basic form, the thing of the modification as shown in FIG. 3 is demonstrated. This is characterized in that a decorative portion 30 that does not have a light emitting portion is provided at an upper portion thereof continuously to the lamp bulb light emitting portion 10. That is, an upper part of the lamp bulb light emitting part 10 is provided with a decorative reflector part 53 continuously to the lamp bulb reflector part 51, and the decorative reflector part 53 is provided in the lamp bulb housing part 71. It is accommodated in the housing part 73 for decorative parts formed continuously. And the lens 9 which consists of a transparent body is covered in the upper part (outside) of the decorative reflector part 53 formed in this way, and thereby the decorative part 30 is integrated with the lamp bulb light emitting part 10. It is to be formed.

  In the structure having such a configuration, the vertical wall portion 77 is provided at the connecting portion between the lamp bulb light emitting portion 10 and the decorative portion 30 as shown in FIG. The tip portion 777 of the lamp, the connecting portion 55 formed so as to connect the reflector portion 51 for lamp bulb and the reflector portion 53 for decoration, and the heat flow provided in a part of the reflector portion 51 for lamp bulb The hole 511 forms a heat flow passage 66 composed of a refractive path.

  Via such a heat flow passage 66, the thermal fluid generated in the lamp bulb light emitting part 10 smoothly flows to the decorative part 30 consisting of a wide space part, where it is diffused and cooled. Become. Further, the heat diffused into the wide space portion is dissipated to the outside from the lens 9 having a large area provided so as to cover the wide space portion. In this way, an efficient heat cooling action is performed.

It is a development perspective view showing the whole composition of the present invention. It is a longitudinal section showing the whole composition of the present invention, and is an explanatory view showing a heat flow mode. FIG. 10 is a longitudinal sectional view showing a modified example of the present invention, which has a decorative part composed of a wide space part.

Explanation of symbols

1 Lamp bulb 10 Lamp bulb light emitting part 2 LED
DESCRIPTION OF SYMBOLS 22 Base 20 LED light emission part 30 Decoration part 5 Reflector 51 Lamp valve reflector part 511 Heat flow hole 52 LED reflector part 53 Decoration reflector part 55 Connection part 6 Heat flow path 66 Heat flow path 66 Housing 71 Lamp valve housing part 72 LED Housing part 73 Decoration part housing part 77 Vertical wall part 777 Tip part 9 Lens

Claims (3)

  In a vehicle combination lamp having a hybrid light emitting part formed of a lamp bulb and a plurality of LEDs, the lamp bulb, a lamp bulb reflector formed so as to surround the lamp bulb, the lamp bulb and the lamp bulb reflector A lamp bulb light-emitting portion comprising a lamp bulb housing portion for housing the portion, a plurality of LEDs provided adjacent to the lamp bulb light-emitting portion, an LED reflector portion provided around the LEDs, and the plurality of these The LED light-emitting part which consists of the LED housing part which accommodates the LED and the reflector part for LED, and the lens which is formed so as to integrally cover each light-emitting part and is made of a transparent body, and the above The lamp bulb light emitting part and the LED light emitting part A heat flow passage formed so that heat generated in the lamp bulb light emitting part flows to the LED light emitting part side is provided in a part of the vertical wall part of the housing and a part of the reflector part. Combination lamp for vehicles.   In a vehicle combination lamp having a plurality of light emitting parts including a lamp bulb, the lamp bulb, a reflector for a lamp bulb formed so as to surround the lamp bulb, and a lamp bulb for housing the lamp bulb and the reflector for the lamp bulb A lamp bulb light emitting portion comprising a housing portion, a decorative portion comprising a decorative reflector portion and a decorative portion housing portion for accommodating the decorative reflector portion, which are provided next to the lamp bulb light emitting portion, and And a lens formed of a transparent body so as to integrally cover the lamp bulb light emitting portion and the decorative portion, and a vertical wall portion of the housing that partitions the lamp bulb light emitting portion and the decorative portion. In part of the lamp bulb and part of the reflector part Vehicle combination lamp, characterized in that generated heat is to provide a heat flow path formed to flow into the decorative portion.   3. The vehicle combination lamp according to claim 1 or 2, wherein the heat flow passage is divided between a vertical wall portion of the housing that partitions the lamp bulb light emitting portion and the LED light emitting portion or the decorative portion, and tip portions of the respective reflector portions. Are formed at the reflector connecting portion provided so as to straddle the tip of the housing vertical wall portion, and further provided with a heat flow hole in a part of each reflector portion, the heat flow hole, A vehicle combination lamp characterized by comprising a refraction path formed by a front end portion of a vertical wall portion of the housing and the reflector connecting portion.

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