JP2642777B2 - Vehicle headlamp - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle headlamp using a discharge bulb as a light source, and more particularly to a vehicle headlamp in which the discharge bulb is inserted into a metal reflector. .

[Problems to be solved by the prior art and the invention]

2. Description of the Related Art Discharge lamps have attracted attention as light sources for headlamps for vehicles, particularly automobiles, because they have good luminous efficiency and color rendering properties and have a long life. FIG. 3 is a sectional view of a bulb insertion portion of a projection type headlamp using a discharge lamp as a bulb of an automobile headlamp. In the figure, a discharge bulb 1 has a structure in which a discharge lamp 2 is supported at both ends by a pair of long and short lead supports 4 and 5 protruding forward of a synthetic resin base 3 and is inserted into a bulb insertion hole 6 a of a reflector 6. It is fixed and integrated as a light projection unit U. The light projection unit U includes a reflector 6
And the lens holder 7 holding the projection lens 7a, the heat of the discharge lamp 2 tends to stay in the unit U. Therefore, the reflector 6 is made of metal in consideration of heat resistance and heat dissipation. I have. Reference numerals 4a and 5a denote valve-side male terminals projecting from the back side of the base 3, and are connected to the lead supports 4 and 5 acting as current paths in the base 3, respectively. Both terminals 4a and 5a are connected to a connector 8 on the power supply side. When the discharge lamp 2 is turned on, a high voltage of, for example, 15 to 20 KV is applied.
A partition 3a made of a synthetic resin is formed between the terminals a to ensure insulation between the terminals 4a and 5a. However, between the terminals 4a, 5a and the reflector 6, or between the lead supports 4, 5 and the reflector 6
There is a problem that sufficient insulation is not taken into consideration in the space, and the insulation at the valve insertion portion remains uneasy.

SUMMARY OF THE INVENTION The present invention has been made in consideration of the above-described problems of the related art, and has as its object to provide a vehicle headlamp having a simple structure and having a high insulation between a reflector and a current-carrying portion on a discharge bulb side.

[Means for solving the problem]

In order to achieve the above object, in a vehicle headlamp according to the present invention, a vehicle in which a discharge bulb having a structure in which a current-carrying part to an arc tube is exposed forward is inserted into a bulb insertion hole of a metal reflector. In the headlamp for use, a peripheral portion of the bulb insertion hole is projected rearward in a cylindrical shape, a discharge bulb is inserted into the cylindrical rear projection, and an electric insulating film is formed on an inner peripheral surface of the bulb insertion hole. Is formed.

[Action]

The electrical insulation film formed on the inner peripheral surface of the bulb insertion hole of the metal reflector enhances the insulation between the current-carrying part on the discharge bulb side and the reflector. Furthermore, by inserting the discharge bulb into the cylindrical rear extension, the mounting position of the discharge bulb with respect to the reflector becomes rearward, and the current-carrying part on the discharge bulb side extends from the reflective surface of the reflector where the insulating film is not formed. As a result, the insulation between the current-carrying part on the discharge bulb side and the reflector is increased.

Further, the electric insulating film is a thin film and is integrated with the reflector, and does not lead to a change in the shape between the discharge bulb and the engaging portion of the bulb insertion hole or an increase in the number of parts.

〔Example〕

 Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a longitudinal sectional view of an automotive headlamp according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of a bulb insertion portion as viewed from the rear.

Reference numeral 10 denotes a container-like lamp body, and a light projection unit is provided in the lamp body 10 by an aiming mechanism (not shown).
20 are supported to be tiltable.

The light projection unit 20 is an elliptical Al reflector.
22, a discharge bulb 30 inserted into a bulb insertion hole 23 formed at the rear top of the reflector, and a projection lens
26 is fixed and attached to the front opening of the reflector 22
It has a structure in which an Al lens holder 24 is integrated. Reference numeral 26a denotes an annular lens fixing frame for caulking and fixing the projection lens 26 to the lens holder 24, and reference numeral 50 denotes a discharge bulb 30.
This is a locking cap for fixing and holding in the valve insertion hole 23.

The discharge bulb 30 has a structure in which a discharge lamp 34 is supported at both ends by a pair of long and short lead supports 32a and 32b protruding from the front surface of a synthetic resin base 31.
In a state where the discharge portion 34a of the discharge lamp 34
There is disposed at the first focal point position f ₁ of the reflector 22.
On the front surface of the base 31, a cylindrical ultraviolet shielding glove 38 surrounding the discharge lamp 34 is fixed and held via a ceramic glove holding plate 39.
Harmful long-wavelength ultraviolet rays are cut from the light traveling from a to the reflector 22. The second focus position f ₂ near the reflectors 22, clear-cut forming the shade 25 and the lens holder 24 to the leaf spring member 27a for blocking ultraviolet light filter 27 which is fixed and held by, integrally formed on the lens holder 24 is provided Have been. The light emitted from the discharge part 34a of the discharge lamp 34 is reflected by the reflector 22,
After converging at the second focal point f ₂ of the reflector 22 is projected forward is collimated by the projection lens 26. Filter 27
Cuts the side ultraviolet rays from the light reflected by the reflector 22 and directed toward the projection lens 26, and cuts the ultraviolet rays from the light emitted from the opening at the tip end of the ultraviolet shielding glove 40.

The distal end portion 38a of the ultraviolet shielding globe 38 is a position that does not block the reflected light l ₁ of the hot zone forming light reflecting surface 22a which is formed around the valve insertion hole 23 of the reflector 22. That, ultraviolet shielding globe 38 on the optical path of the light contributing l ₁ to the light distribution of the hot zone is reflected by the reflector 22 is not not extend, therefore, contributes light to the light distribution of the hot zone is reflected by the reflector 22 Is not vignetted, sufficient light is distributed in the hot zone area, and a hot zone having an appropriate size and a sufficient luminous intensity is obtained.

The base 31 of the valve is formed by integrally forming a synthetic resin material such as PPS, for example, and on the back side of the base 31, connector male terminals 32c and 32d, which are welded and integrated with the lead supports 32a and 32b, respectively, are projected. Male connector 15 is integrally formed. Reference numeral 33 denotes a discharge prevention partition extending between the terminals 32c and 32d. On the front surface of the base 31, three projections 31a for positioning in the optical axis direction, which are spaced a predetermined distance in the circumferential direction.
(See FIG. 1), and a notch 31b for positioning in the circumferential direction is formed on the outer peripheral edge of the base 31 so as to engage with the engaging projection 45 on the valve insertion hole 23 side.

On the other hand, the rear end side peripheral edge portion of the valve insertion hole 23 formed at the rear top portion of the reflector 22 protrudes rearward in a cylindrical shape, and three bayonet portions are formed on the outer periphery of the cylindrical rear protruding portion 40.
42 are formed. Also, a hole 23 is provided around the circumference of the hole 23.
An annular groove 44 for engagement with the base 31 which is slightly larger than the diameter of the base 31 is formed. In the annular groove 44, an engagement projection 45 that stays in the notch 31b of the base 31 is formed. Then, the notch 31b is engaged with the engagement projection 45, and the discharge bulb 30 is inserted into the bulb insertion hole 23.
And the locking cap 50 is bayonet-engaged with the bayonet portion 42 to fix the discharge bulb 30 in the bulb insertion hole 23.

Reference numeral 60 denotes an alumite film formed on the inner peripheral surface of the valve insertion hole 23 of the reflector 22.
And insulation between the discharge bulb side terminals 32c, 32d, and Al
The insulation between the reflector 22 and the lead supports 32a and 32b is enhanced. In order to enhance the insulating properties of the reflector 22, the thickness of the alumite film 60 is desirably 40 μm or more.

Reference numeral 12 denotes a lighting circuit housing unit that houses a lighting circuit (not shown) for a discharge bulb. The lighting circuit housing unit is integrally attached to an opening 11 formed at the rear top portion of the lamp body 10 through a cylindrical extension portion 13. Lead L extending from the lighting circuit
The female connector 14 is connected to the male connector 15 (terminals 32c and 32d) integrally formed on the back side of the base 31. Reference numeral 16 denotes a projection lens of the light projection unit 20
The decorative panel made of synthetic resin is arranged around 26. The surface is painted silver to enhance the appearance when the headlamps are not lit. Reference numeral 18 denotes a lens that is assembled and integrated with the front opening of the lamp body 10.

As another example of the electric insulating layer instead of the alumite film, a resin coating film is considered.

Although the projection type headlamp has been described in the above embodiment, the present invention can be similarly applied to a reflection type headlamp in which light from a discharge bulb is reflected by a parabolic reflector to distribute light. Then, for example, an electric insulating layer made of an alumite film or a resin coating film may be formed in a bulb insertion hole area facing a discharge bulb which does not function as a light reflection surface of a parabolic reflector of a reflection type headlamp.

Further, in the above-described embodiment, a description has been given of a headlamp for a vehicle as an example, but the present invention can be similarly applied to a headlamp for a motorcycle or a motorbike.

〔The invention's effect〕

As is clear from the above description, according to the vehicle headlamp according to the present invention, the electrical insulation film formed on the inner peripheral surface of the bulb insertion hole of the metal reflector allows the current-carrying portion on the discharge bulb side to Since the insulation between the reflectors can be enhanced, a vehicle headlamp in which the insulation at the discharge bulb insertion portion is ensured can be obtained.

In addition, the electric insulating film is a thin film and is formed integrally with the reflector.Even if the electric insulating film is formed, it does not narrow the effective reflection surface of the reflector, so that the light quantity of the head lamp is reduced and the number of parts is reduced. There is no increase.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of an automobile headlamp according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a bulb insertion portion viewed from the rear, and FIG. 3 is a longitudinal section of a conventional automobile headlamp. FIG. 22 ... Al reflector, 23 ... Valve insertion hole, 30 ...
Discharge bulb, 31: Base of the bulb, 32a, 32b: Lead support, which is a current-carrying part on the discharge bulb side, 32c, 32d: Male terminal, which is a current-carrying part on the discharge bulb side, 60: Electric insulating layer Anodized film.

Claims (1)

(57) [Claims] 1. A vehicle headlamp in which a discharge bulb having a structure in which a current-carrying portion to an arc tube is exposed forward is inserted into a valve insertion hole of a metal reflector. A headlamp for a vehicle, wherein the headlamp protrudes rearward in a cylindrical shape, a discharge bulb is inserted into the cylindrical rearward protruding portion, and an electric insulating film is formed on an inner peripheral surface of the bulb insertion hole.