WO2014057863A1 - Lamp fitting for vehicle - Google Patents

Abstract

At least a part of light outputted from a light source (9) passes through a projection lens (7). A lens holder that holds the projection lens (7) is formed of a first material having a first heat conductivity. A heat conducting plate (20) is formed of a second material having a second heat conductivity that is higher than the first heat conductivity, and is disposed in contact with a lower side supporting section (6c) of the lens holder (6).

Description

Vehicle lighting

The present invention relates to a lamp mounted on a vehicle.

This type of lamp is known in which a lamp unit is arranged in a lamp chamber defined by a cover and a lamp housing. As an example of such a lamp unit, a lamp unit is known that includes a light source, a projection lens through which light emitted from the light source passes, and a lens holder that holds the projection lens (for example, Patent Document 1). reference).

Japanese Patent Application Publication No. 2011-146246

In such a lamp unit, heat is generated as the light source is turned on. The heat from the light source that easily moves upward causes the upper side of the lens holder to thermally expand. In this case, the projection lens held by the lens holder tilts downward, and the optical axis of the lamp unit faces downward from a predetermined position.

Therefore, an object of the present invention is to prevent the optical axis of the lamp from turning downward as the light source is turned on.

In order to achieve the above object, one aspect of the present invention is a lamp mounted on a vehicle,
A housing and a cover defining the light chamber;
A light source disposed in the lamp chamber;
A projection lens through which at least part of the light emitted from the light source passes;
A lens holder formed of a first material having a first thermal conductivity and holding the projection lens;
A heat conductive member that is formed of a second material having a second heat conductivity higher than the first heat conductivity and is disposed so as to contact a lower portion of the lens holder.

When the light source is turned on, heat is generated. Since heat easily moves upward, the upper portion of the lens holder is thermally expanded. On the other hand, the generated heat is transmitted to the lower part of the lens holder through the heat conducting member. Thereby, the lower part also thermally expands similarly to the upper part. Therefore, it is possible to prevent the projection lens held by the lens holder from being inclined downward, and to prevent the optical axis of the lamp from being directed downward from a predetermined position.

A shade may be provided that blocks a part of the light emitted from the light source, and a part of the heat conducting member may be in contact with the shade.

According to such a configuration, heat generated in the shade by light shielding is positively transmitted to the lower part of the lens holder. Therefore, the thermal expansion of the lower part located below where heat is difficult to move is promoted. Thereby, it is possible to more reliably avoid the projection lens held by the lens holder from being inclined downward, and to more reliably prevent the optical axis of the lamp from being directed downward from a predetermined position.

The first material may be a resin, and the second material may be a metal.

¡By forming the lens holder from resin, the lamp can be configured with light weight and low cost. In addition, since the heat conducting member is made of metal, a heat conduction path to the lower portion of the lens holder can be formed inexpensively and easily. Therefore, it is possible to prevent the optical axis of the lamp from turning downward from a predetermined position as the light source is turned on while suppressing the manufacturing cost.

It is a left view which shows the vehicle lamp which concerns on one Embodiment of this invention in a partial cross section.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The lamp 1 according to an embodiment of the present invention is mounted, for example, on the left and right sides of the front end of the vehicle. In each drawing used in the following description, the scale is appropriately changed to make each member a recognizable size.

As shown in FIG. 1, the lamp 1 includes a lamp housing 2, a cover 3, and a lamp unit 5. The lamp housing 2 opens forward. The cover 3 is attached to the lamp housing 2 so as to close the opening. Thereby, the lamp chamber 4 is partitioned. The lamp unit 5 is disposed in the lamp chamber 4.

The lamp unit 5 includes a lens holder 6, a projection lens 7, a reflector 8, a light source 9, and a base plate 10. The lens holder 6 supports the projection lens 7 at its front end. The reflector 8 is disposed behind the lens holder 6 and the projection lens 7. The light source 9 is attached to the rear end portion of the reflector 8. The base plate 10 holds the lens holder 6 and the reflector 8.

The lamp 1 further includes an aiming screw 11 and a leveling actuator 12. The front end portions of the aiming screw 11 and the leveling actuator 12 are connected to the base plate 10. The lamp unit 5 is supported by the lamp housing 2 via an aiming screw 11 and a leveling actuator 12. By operating the aiming screw 11 and the leveling actuator 12, the lamp unit 5 is displaced in the vertical and horizontal directions. As a result, the reference position of the optical axis of the lamp unit 5 can be adjusted (so-called aiming adjustment or leveling adjustment).

The lens holder 6 is made of resin and includes a lens holding portion 6a, an upper support portion 6b, and a lower support portion 6c. The lens holding portion 6 a has a cylindrical shape at the front end portion of the lens holder 6 and holds the projection lens 7. The upper support portion 6b supports at least a part of the upper half of the lens holding portion 6a. The lower support portion 6c supports at least a part of the lower half of the lens holding portion 6a. The upper support portion 6 b and the lower support portion 6 c are fixed to the base plate 10.

The light source 9 is a bulb light source including an outer tube 9a, a light emitting unit 9b, and a base unit 9c. Examples of the bulb light source include a discharge lamp, an incandescent lamp, and a halogen lamp. The light emitting part 9b is provided inside the outer tube 9a. The base portion 9c supports the rear end portion of the outer tube 9a.

The reflector 8 includes a reflecting surface 8a and a mounting portion 8b. The reflecting surface 8a has a shape based on an elliptical spherical surface. The rear end portion of the reflecting surface 8a is open and communicates with the cylindrical mounting portion 8b. The light source 9 is attached to the reflector 8 by inserting the outer tube 9a from the rear end of the mounting portion 8b. At this time, the base portion 9c is held by the mounting portion 8b, and the light emitting portion 9b is disposed at the first focal point of the elliptical spherical surface. The projection lens 7 is arranged so that the rear focal point is located at the second focal point of the elliptic spherical surface.

When power is supplied to the light source 9 from a lighting circuit (not shown), light is emitted from the light emitting unit 9b. Part of the emitted light travels forward. Another part of the emitted light is reflected by the reflecting surface 8 a of the reflector 8 and passes through the projection lens 7. The light that has passed through the projection lens 7 illuminates the front of the lamp 1 through the cover 3.

The base plate 10 includes a shade 13. The shade 13 is disposed near the rear focal point of the projection lens 7 and below the light source 9. A part of the light emitted from the light source 9 is blocked by the shade 13. The projection lens 7 inverts the image on the focal plane including the rear focal point and projects the image forward. The image of the upper edge of the shade 13 is projected as a boundary line (cut-off line) between the illumination area and the non-illumination area formed in front of the lamp 1.

The lamp unit 5 further includes a heat conducting plate 20 (an example of a heat conducting member). The heat conductive plate 20 is disposed so as to contact the lower support portion 6 c (an example of the lower portion) of the lens holder 6. The heat conductive plate 20 is made of a material having higher heat conductivity than the lens holder 6 made of resin (an example of the first material). In the present embodiment, the heat conductive plate 20 is made of metal (an example of a second material). Examples of the metal include gold, silver, copper, iron, and aluminum.

Specifically, the heat conductive plate 20 has a first portion 21 extending in the front-rear direction and a second portion 22 extending in the up-down direction. The first portion 21 is in surface contact with the upper surface of the lower support portion 6 c of the lens holder 6. The second portion 22 is in surface contact with the front surface of the shade 13. The second portion 22 (an example of a part of the heat conducting member) is fixed to the shade 13 by a fastening member 30 such as a screw. Fixing may be performed by adhesion or welding regardless of the fastening member 30.

When the light source 9 is turned on, the temperature in the lamp unit 5 rises due to the generated heat. Since heat easily moves upward, the upper support portion 6b of the lens holder 6 is thermally expanded. On the other hand, the heat generated in the lamp unit 5 is transmitted to the lower support portion 6 c of the lens holder 6 through the heat conducting plate 20. Thereby, the lower support portion 6c also thermally expands in the same manner as the upper support portion 6b. Therefore, the projection lens 7 held by the lens holder 6 can be prevented from tilting downward, and the optical axis of the lamp unit 5 can be prevented from facing downward from a predetermined position.

Further, since the second portion 22 of the heat conducting plate 20 is fixed so as to be in surface contact with the shade 13, heat generated in the shade 13 due to light shielding is positively transmitted to the lower support portion 6c. Therefore, the thermal expansion of the lower support portion 6c positioned below where heat is difficult to move is promoted. Accordingly, the projection lens 7 held by the lens holder 6 can be more reliably avoided from tilting downward, and the optical axis of the lamp unit 5 can be more reliably prevented from facing downward from a predetermined position.

Furthermore, since the lens holder 6 is made of resin, the lamp unit 5 can be configured with light weight and low cost. Further, since the heat conducting plate 20 is made of metal, a heat conducting path to the lower support portion 6c can be formed inexpensively and easily.

The above embodiment is for facilitating understanding of the present invention, and does not limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and it is obvious that the present invention includes equivalents thereof.

In the above embodiment, the lens holder 6 is made of resin, and the heat conduction plate 20 is made of metal. However, as long as the thermal conductivity of the material forming the heat conductive plate 20 is higher than the thermal conductivity of the material forming the lens holder 6, the materials forming the lens holder 6 and the thermal conductive plate 20 are appropriately selected. sell. For example, the heat conductive plate 20 may be formed of ceramic or the like.

The shape of the reflecting surface 8a of the reflector 8 can be appropriately determined according to the specification of the light distribution to be formed. Further, depending on the specifications, it is not always necessary to arrange the reflector 8 between the light source 9 and the projection lens 7.

This application is based on Japanese Patent Application 2012-224010 filed on October 9, 2012, the contents of which are incorporated herein by reference.

Claims (3)

1. A lamp mounted on a vehicle,
   A light source;
   A projection lens through which at least part of the light emitted from the light source passes;
   A lens holder formed of a first material having a first thermal conductivity and holding the projection lens;
   A lamp comprising: a heat conductive member formed of a second material having a second heat conductivity higher than the first heat conductivity, and disposed to contact a lower portion of the lens holder.
2. A shade that blocks a part of the light emitted from the light source;
   The lamp according to claim 1, wherein a part of the heat conducting member is in contact with the shade.
3. The lamp according to claim 1 or 2, wherein the first material is a resin and the second material is a metal.

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