JP3566168B2 - Vehicle headlamp with cleaning function - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a vehicle headlamp device having a cleaning mechanism, which simplifies position adjustment between an injection nozzle and a lens surface, and accommodates the nozzle in a lamp device when the injection nozzle is not used. The present invention relates to a technique for preventing the appearance of a lamp from being impaired by providing a decorative cover member in front of a nozzle.
[0002]
[Prior art]
There is known a lamp washer device (or a lamp cleaner device) for removing dirt on a lens surface constituting an automobile headlamp by washing with water by jetting. For example, as shown in FIG. An example of an apparatus b used by being attached to a bumper a of a vehicle is given.
[0003]
In this example, a cover d made of an opaque material is attached to the end of the injection nozzle c, and when the device b is not used, the cover d is in contact with the bumper a. An opening e formed in the bumper a is closed by the cover d. When the device is used, the injection nozzle c and the cover d are moved by a drive mechanism (not shown) in the device as shown by a two-dot chain line in FIG. Of the lamp is projected toward the lens surface f of the lamp from this state.
[0004]
[Problems to be solved by the invention]
By the way, in the above-described apparatus, since the cleaning device b is attached to the bumper a, there is a problem that it takes time to adjust the injection position of the nozzle with respect to the lens surface f of the lamp. That is, in order to make the set position of the injection nozzle at the time of cleaning constant with respect to the lens surface, high positional accuracy is required when the cleaning device is mounted on the vehicle body.
[0005]
In addition, the cover d attached to the injection nozzle c may appear on the upper surface of the bumper a to impair the appearance, or the opening e for passing the injection nozzle c may need to be formed in the bumper a. Inconvenience becomes a problem.
[0006]
In view of the above, an object of the present invention is to provide a vehicle headlight device having a cleaning function that facilitates positioning of an injection nozzle with respect to a lens surface of a lamp and eliminates an adverse effect on the appearance of the cover of the injection nozzle. .
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention includes a light irradiation unit disposed in a lamp room formed by a transparent member and a lamp body, and a plurality of units including a cleaning unit for cleaning the surface of the transparent member. An integrated vehicle headlight device having a cleaning function has the following configurations (a) to (c).
[0008]
(A) A decorative cover member is provided on a nozzle portion of the cleaning unit including the injection nozzle.
[0009]
(B) A first position in which the nozzle portion of (a) projects forward from the surface of the transparent member to wash the transparent member, and a second position in which the nozzle portion is retracted from the surface of the member after washing the transparent member. It must be supported so that it can move over the position.
[0010]
(C) In the second position shown in (b), the surface of the decorative cover member forms the front surface of the lamp together with the surface of the transparent member, so that the decorative cover member is independent of the light irradiation unit. Being visible as part of a functioning unit.
[0011]
According to the present invention, since the cleaning unit has a configuration incorporated in the lamp, the positional accuracy of the injection nozzle with respect to the transparent member can be defined only by the mounting accuracy of the cleaning unit with respect to the lamp. Since the surface of the decorative cover member attached to the nozzle forms the front surface of the lamp together with the surface of the transparent member in a state in which the lamp is accommodated in the lamp device, the appearance of the lamp is not impaired.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
A vehicle headlight device having a cleaning function according to the present invention is a lamp chamber formed by a transparent member (a lens member formed of a transparent material or a transparent cover having no lens function) and a lamp body. And has a configuration in which a light irradiation unit (including a light source, a reflecting mirror, and a lens member as necessary) is disposed therein, and cleans the surfaces of the light irradiation unit and the transparent member. And a plurality of units including a cleaning unit (lamp washer unit) for cleaning.
[0013]
In addition, a decorative cover member (nozzle cover) is provided on the nozzle portion including the spray nozzle of the cleaning unit, and the cover member is formed of an opaque material so that the cleaning unit does not become completely visible from the front of the lamp. The following forms are used to achieve harmony in appearance between the lens and the lens surface.
[0014]
(I) Form in which the decorative cover member appears as a non-lit dummy lens portion
(II) A mode in which the decorative cover member is used as a lens portion for actually lighting (including pseudo lighting using reflected light).
[0015]
FIGS. 1 to 3 show examples of the basic configuration of the embodiment (I). As can be seen from the front view of the vehicular lamp 1 shown in FIG. 1, the light irradiation unit 2 and the cleaning unit 3 extend along the horizontal direction. It has an arranged configuration.
[0016]
In this example, a lamp space is constituted by a lamp body 1a constituting the vehicle lamp 1 and a transparent member 1b covering the front surface thereof. In the space, the light irradiation unit 2 and the cleaning unit 3 are arranged side by side. ing. In addition, as the light irradiation unit 2, for example, a so-called projector-type lamp configuration using a projection lens, an elliptical reflection mirror, or the like, a multi-surface reflection mirror (or a step reflector) having a reflection surface formed by a large number of reflection steps, or the like. When used, the transparent member 1b may be a transparent cover having no lens steps formed thereon, or may be in a state in which the lens steps are slightly formed. In the case where the reflector alone does not have a sufficient optical function necessary for controlling the light distribution for a vehicle, such as a rotating parabolic reflector, the reflecting surface of the reflector of the transparent member 1b A number of lens steps are formed in corresponding areas.
[0017]
FIG. 2 is a longitudinal sectional view showing a main part (a part near the front end) of the cleaning unit 3. A nozzle cover 5 including an injection nozzle 4 is provided with a decorative cover member 6. In FIG. It is this part that is visible from the front of the.
[0018]
As shown by a two-dot chain line in the drawing, the nozzle portion 5 protrudes forward from the surface thereof to clean the transparent member 1b (this position is referred to as a “first position”), and the nozzle member 5 includes a transparent member 1b. It is supported by the lamp so as to be movable over a position retracted from the surface after cleaning (this position is referred to as a second position). The driving method of the nozzle unit 5 does not matter. For example, as will be described later, the main body of the cleaning unit has a cylinder and a piston, and the cleaning liquid is pumped from the cleaning liquid tank into the cylinder by a liquid supply pump. A structure in which the piston is moved by the ascending and the injection nozzle attached to the end of the piston protrudes forward (at the end of the injection of the washing liquid, a resilient means such as a coil spring or the like is attached as the pressure in the cylinder decreases. Causes the piston to retract into the cylinder and return to the original state before cleaning.).
[0019]
In the example shown in FIGS. 1 and 2, the opening or the ejection port (not shown) of the ejection nozzle 4 is oriented in the horizontal direction, and the cleaning liquid in the first position is the light irradiation unit 2 of the transparent member 1 b. Is sprayed toward the portion (outer surface) corresponding to.
[0020]
When the nozzle portion 5 is not used, this portion is at the second position, and the surface of the decorative cover member 6 is flush with the surface of the transparent member 1b. Form the front. Thereby, in the front shape of the lamp, the decorative cover member 6 can be visually recognized as a part of a unit that functions independently of the light irradiation unit 2, so that the appearance is improved.
[0021]
In addition, it is preferable to form a transparent portion or a lens portion on the decorative cover member 6. The reason is that, since the surface of the portion forms the front surface of the lamp together with the transparent member 1b at the second position, the front surface of the lamp is integrally recognized as a lens surface without a sense of discomfort in appearance. .
[0022]
Further, as shown in FIG. 2, the decorative cover member 6 is configured to include a front transparent cover portion 6a and a body portion 6b behind the front cover portion 6a, and a step is performed on one or both of the transparent cover portion 6a and the body portion 6b. When a cylindrical step or a fish-eye lens step is formed, the appearance as a dummy lens part is further improved, and a visual effect as if it is a lamp part can be obtained from the front of the lamp. The transparent cover portion 6a may be colorless and transparent, or may be colored and transparent to give a functional color of the lamp (such as a method of forming the transparent portion or the lens portion with a colored transparent material). . For the body portion 6b, there are a method of forming an opaque material, a method of depositing a reflective film on the surface to form a reflective surface, and a method of forming a reflective step on the surface, and the like. It is desirable that the injection nozzle 4 and the main body of the cleaning unit 3 be almost invisible from the front of the lamp.
[0023]
Note that the embodiment (I) is not limited to FIG. 1, but as shown in the front view of the vehicle lamp 1 'shown in FIG. 3, the light irradiation unit 2 and the washing unit 3 are arranged vertically along the vertical direction. The configuration of the mold (in this case, the ejection port of the ejection nozzle 4 is directed upward, and the cleaning liquid is ejected toward the upper portion of the transparent member 1b corresponding to the light irradiation unit 2 at the first position). Various embodiments are possible.
[0024]
4 to 8 show configuration examples of the above-described embodiment (II).
[0025]
In the vehicle lamp 1A shown in FIGS. 4 and 5, the first light irradiation unit 2a, the second light irradiation unit 2b, and the cleaning unit 3A are arranged in a horizontal direction. The difference from 1 is as follows.
[0026]
When viewed from the front of the lamp, the second light irradiation unit 2a and the cleaning unit 3A are adjacent to each other, and both units are visually recognized as one unit in appearance.
[0027]
A reflecting portion 6Ac is formed inside the decorative cover member 6A, and reflects light incident on the decorative cover member 6A from the light source 7 (such as an incandescent lamp) constituting the second light irradiation unit 2b. Being reflected by the portion 6Ac and irradiated forward.
[0028]
FIG. 5 is a horizontal cross-sectional view showing the main parts of the second light irradiation unit 2b and the cleaning unit 3A.
[0029]
As shown in the figure, the second light irradiation unit 2b (for example, an auxiliary lamp such as a clearance lamp) has a light source 7, a reflecting mirror 8 for reflecting light of the light source forward, and a reflecting mirror. And a lens member 9 attached so as to cover 8 from the front.
[0030]
And about the cleaning unit 3A, the decorative cover member 6A attached in front of the injection nozzle 4 is composed of a transparent cover (or lens) 6Aa and a body 6Ab. A reflecting portion 6Ac for reflecting light from the light source 7 toward the front (an example in which a plurality of reflection steps are formed and the surface thereof is subjected to reflection processing is shown in the figure) is formed. In other words, a part of the light emitted from the light source 7 is reflected by the reflector 6Ac after being incident on the cover (or lens) 6Aa as shown by an arrow "LA" in FIG. When the nozzle portion 5 is at the second position and the light source 7 is turned on, the decorative cover member 6A has an auxiliary function of light control for the second light irradiation unit 2b (the lens member 9 and the decoration). The light is emitted from the cover member 6A.). Therefore, the decorative cover member 6A originally functions as a cover of the cleaning unit 3A, but when the light source 7 is turned on, it is visually recognized as if it constitutes a part of the light irradiation unit.
[0031]
In this example, when the nozzle portion 5 is protruded forward and comes to the first position, the ejection nozzle 4 corresponds to the first light irradiation unit 2a or the unit and the second light irradiation unit 2b. Needless to say, the cleaning liquid is sprayed toward the surface of the transparent member 1b.
[0032]
4 and 5 show a configuration in which the units are arranged along the horizontal direction. However, the present invention is not limited to this, and the units are arranged in a vertical direction as in a vehicle lamp 1A 'shown in FIG. A vertical configuration, that is, a configuration in which the second light irradiation unit 2b and the cleaning unit 3A are arranged below the first light irradiation unit 2a, and the ejection ports of the ejection nozzles 4 face upward. ), Etc., are possible.
[0033]
In addition, a configuration may be adopted in which light from the light source constituting the first light irradiation unit is taken into the decorative cover member of the cleaning unit and is reflected forward.
[0034]
For example, in the example shown in FIGS. 7 and 8, in the vehicle lamp 1B, a second light irradiation unit 2b (an auxiliary lamp such as a turn signal lamp) 2b and a cleaning unit are provided on the right side of the first light irradiation unit 2a. 3B are provided, and these units are arranged along the vertical direction.
[0035]
Then, as shown in FIG. 8, the first light irradiation unit 2a includes a light source 7 (eg, a halogen bulb or a discharge lamp) and a reflecting mirror 8 ′ (for example, a rotating parabolic reflecting mirror or a number of reflecting steps). And a transparent member 1b (a lens member or a transparent cover member) positioned in front of the reflecting mirror 8 ', and is used for irradiating headlights.
[0036]
In the cleaning unit 3B, as shown, a decorative cover member 6B attached to the front of the spray nozzle 4 is composed of a transparent cover (or lens) 6Ba and a body 6Bb. Since the reflecting portion 6Bc for reflecting the light from the light source 7 of the first light irradiation unit 2a toward the front is formed in 6Bb, a part of the light emitted from the light source is As indicated by an arrow “LB”, the light is incident on the cover member 6B and is reflected by the reflecting portion 6Bc, so that the decorative cover member 6B has an auxiliary function of light control for the first light irradiation unit 2a ( Light is emitted from the transparent member 1b and the decorative cover member 6B, and both portions appear to shine.
[0037]
In the above mode (II), by using light obtained from any of the light irradiation units, a function of irradiating light forward from the decorative cover member of the cleaning unit is provided. Since the unit can appear as if it has a lamp function, the original function of the cleaning unit, which has a different role from the light irradiation unit, is apparently equivalent to the light irradiation unit. With the appearance, the appearance is improved.
[0038]
In the above description, the configuration in which the cleaning unit is provided inside the lamp is shown. However, the present invention is not limited to this, and an embodiment in which the cleaning unit is attached to the outer surface of the lamp may be used. For example, as shown in FIGS. A vehicle lamp 1C is exemplified.
[0039]
In this example, the first light irradiation unit 2a and the second light irradiation unit 2b are built in the lamp, and the cleaning unit 3C is provided in the lamp 1C from below the second light irradiation unit 2b. Have.
[0040]
The transparent member 1b constitutes a first light irradiating unit 2a and a second light irradiating unit 2b, and a cover member 6C to be inserted into a part of the transparent member 1b which is partially cut out when viewed from the front. Constitute the cleaning unit 3C. It should be noted that the first light irradiation unit 2a has no special characteristic matter to be noted, and it is sufficient that the first light irradiation unit 2a has a general configuration including a light source and a reflecting mirror, and thus the description thereof is omitted.
[0041]
FIG. 10 is a longitudinal sectional view showing a part of the second light irradiation unit 2b and the cleaning unit. As for the second light irradiation unit 2b, a light source 7 and a reflecting mirror 8 (a number of reflecting steps are provided on the reflecting surface thereof). And a portion of the transparent member 1b that covers the reflecting mirror 8 from the front.
[0042]
In the cleaning unit 3C, the cover member 6C includes a transparent portion 6Ca and a body portion 6Cb, and the body portion 6Cb is provided in front of the injection nozzle 4.
[0043]
The body portion 6Cb has a reflection portion 6Cc for reflecting light from the light source 7, and a surface thereof has a large number of reflection steps. In the transparent portion 6Ca, a number of lens steps are formed in an inner surface region corresponding to the reflection portion 6Cc.
[0044]
In this example, the main unit (not shown) of the cleaning unit 3C is attached to the side surface of the lamp 1C, and when the light source 7 is turned on at the second position where the nozzle unit 5 is retracted, a part of the light is reflected. The light is reflected by the portion 6Cc and emitted forward. That is, a part 1bn of the transparent member 1b reaches the lower part of the reflecting mirror 8, and light passing through this part reaches the reflecting part 6Cc through the upper surface of the transparent part 6Ca.
[0045]
In addition, as a configuration in which a light source is provided inside the cover member to obtain irradiation light without borrowing light from another light source, for example, a configuration example illustrated in FIG. 11 is given.
[0046]
In the cover member 6D shown in this example, a light emitting diode 6DL as a light source and its mounting substrate 6DP are arranged in a lamp space defined by the transparent portion 6Da and the body portion 6Db. A number of lens steps are formed in an inner surface area of the transparent portion 6Da located in front of the light emitting diode 6DL.
[0047]
Therefore, the light from the light emitting diode 6DL is radiated forward through the transparent portion 6Da, so that light from another light source is not required, and of course, the first position where the cover member 6D and the nozzle portion 5 protrude forward. In this case, light irradiation becomes possible.
[0048]
In addition, by appropriately combining the light emission color of the light emitting diode 6DL and the color of the transparent portion 6Da, the color selection range can be expanded. For example, the function of a clearance lamp can be realized by selecting the transparent portion 6Da to be colorless and transparent by setting the luminescent color to white, or to make the transparent portion 6Da colorless and transparent by setting the luminescent color to amber (or the transparent portion to be white). There is an advantage that the degree of freedom in design can be increased, for example, by realizing the function of the turn signal lamp by making 6Da an amber color.)
[0049]
【Example】
12 to 15 show an embodiment in which the present invention is applied to an automotive headlamp.
[0050]
As shown in FIG. 12, the headlight device 10 has a substantially square front shape, and includes the following units (indicated by reference numerals in parentheses).
[0051]
・ Headlight irradiation unit (11)
・ Turn signal lamp unit (12)
・ Parking lamp unit (13)
-Lamp washer unit (14).
[0052]
In the headlight device 10, the transparent cover member 16 made of synthetic resin covering the front surface of the lamp body 15 is in a transparent state in which no lens step is formed, and the respective units of the above units are passed through the transparent cover member. The lens part is visible from outside the lamp. In the lamp washer unit 14, only the cover member 17 that constitutes a part thereof is made to appear outside, and the part is made to appear as a pseudo lamp part.
[0053]
First, as shown in FIG. 13 (see line XIII-XIII in FIG. 12), the headlight irradiation unit 11 is a space defined by an inner panel 18 made of synthetic resin and a body 19 disposed in a lamp. 20 and has a projector-type lamp configuration. That is, the present unit includes the reflecting mirror 21, the light source 22 attached thereto (in this example, a discharge lamp is used), and the projection lens 23, and the periphery of the projection lens 23. Are protruded forward from an opening formed in the inner panel 18 (the part is recognized from the front of the lamp). A light-blocking member (shade) 26 is provided in a space 25 formed by the projection lens 23, its supporting member 24, and the reflecting mirror 21, and the member is located forward of the light source 22. And the upper edge 27 serves to limit the light / dark boundary in the vehicle light distribution.
[0054]
As shown in FIG. 12, the turn signal lamp unit 12 is located at the lower left of the headlight irradiation unit 11, and emits a direction instruction signal. As shown in FIG. 14 (see line XIV-XIV in FIG. 12), this unit includes a reflecting mirror 28, a light source 29 for emitting light of a functional color (amber) (a colored glass bulb or the like), and an inner lens 30. And
[0055]
The reflecting mirror 28 is made of a heat-resistant resin material, and its reflecting surface is deposited with aluminum or the like. The inner lens 30 is made of a colorless and transparent synthetic resin material. That portion is visually recognized from the outside through the transparent transparent cover member 16. Note that a lens step extending in the up-down direction is formed on the inner surface of the inner lens 30.
[0056]
On the right side of the turn signal lamp unit 12, as shown in FIG. 12, a parking lamp unit 13 and a lamp washer unit 14 are arranged side by side in a row, and the former is closer to the turn signal lamp unit 12. positioned.
[0057]
As for the parking lamp unit 13, as shown in FIG. 14, a reflecting mirror 31 connected to the reflecting mirror 28, a light source 32 such as an incandescent lamp, and a portion corresponding to these members of the transparent cover member 16 33 (a lens step extending in the horizontal direction is formed on the inner surface thereof).
[0058]
As shown in FIGS. 13 to 15, the lamp washer unit 14 includes a main body 34, a piston 35 (see FIG. 15) supported in an extendable / contractible state with respect to the main body, and an end of the piston. And a cover member 17 attached further forward (in the direction of illumination of the lamp).
[0059]
The cover member 17 includes a lens portion 17a made of a transparent material and a reflection portion 17b made of an opaque material. For example, as shown enlarged in the great circle of FIG. 14, a large number of reflection steps 37, 37,... Are formed on the surface of the reflection portion 17b corresponding to the front surface of the lens portion 17a. The steps are subjected to reflection processing by aluminum evaporation or the like. By forming lens steps 38, 38,... Extending in the horizontal direction on the inner surface of the lens portion 17a, the appearance is harmonized with the lens portion (33) of the parking lamp unit 13. . The light emitted from the light source 32 of the parking lamp unit 13 is irradiated forward through the lens step forming portion 33 as shown by arrows L, L,. Reach the reflecting portion 17b through the transparent cover member 16 and the lens portion 17a, and are reflected by the reflecting steps 37, 37,... After being reflected by the lens steps 38, 38,. The light is emitted forward (or obliquely forward) through the lamp and emitted outside the lamp. still. The reflecting surface of the reflecting portion 17b may be a single curved surface such as a paraboloid of revolution. However, by forming a large number of reflecting steps, it is possible to design freely regarding the direction control of the reflected light beam in each step. There is an advantage that the degree can be increased.
[0060]
The shape of the cover member 17 when viewed from the front of the lamp is designed to have a shape to be inserted into a partial opening of the transparent cover member 16. That is, when the lamp is not cleaned, the surface of the lens portion 17a of the cover member 17 is flush with the surface of the portion of the transparent cover member 16 located near the lens portion 17a. When the light source 32 of the lamp unit 13 is turned on, the lens portion 17a of the cover member 17 is turned on together with the parking lamp unit 13 by the action of the reflecting portion 17b. You.
As shown in FIG. 13, the main body 34 is held in a state where the main body 34 is held using mounting members (brackets, band members, etc.) 39, 39, and these mounting members are, for example, An attachment method such as fixing to the support portions 19a, 19a,... Formed on the body 19 of the lamp with screws.
[0061]
As for the internal structure of the main body part 34, as shown in FIG. 15, a cylinder 40 formed into a cylindrical shape using a hard synthetic resin material or the like and a piston 35 slidably supported inside the cylinder 40 are provided. It is provided with a configuration.
[0062]
A cleaning liquid supply pipe 41 is attached to one end (rear end) of the cylinder 40, and the cleaning liquid is supplied from a cleaning liquid tank (not shown) via a pump. The front end of the cylinder 40 is open.
[0063]
A central hole 42 is formed in the shaft portion 35a of the piston 35 along the axial direction, and a part of the shaft portion 35a is inserted into an insertion hole of the cap 43 attached to the front end of the cylinder 40. A closing valve 44 is attached to the rear end of the portion 35a. The closing valve 44 includes a cylindrical joint, and members such as a diaphragm, a spring receiving ring, and a valve closing spring.
[0064]
The coil spring 45 is externally fitted to the piston 35 and is in a compressed state between the piston and the cap 43, whereby the piston 35 is pressed against the bottom surface of the cylinder 40.
[0065]
The injection nozzle 36 formed of a synthetic resin material is held by a nozzle holder 46 attached to the shaft end of the piston 35, and the injection port communicates with the center hole 42 of the piston 35 via a passage. Therefore, the cleaning liquid that has reached the front end of the piston 35 is injected from the injection port of the injection nozzle 36.
[0066]
A rubber bellows-like cover 47 is provided between the nozzle holder 46 and the cap 43. The cover 47 is expanded and contracted in accordance with the movement stroke of the piston 35, so that the cylinder It prevents intrusion into the inside.
[0067]
Thus, when the cleaning liquid from the cleaning liquid tank (not shown) is supplied to the cleaning liquid supply pipe 41 and the pressure of the cleaning liquid is applied to the diaphragm of the shut-off valve 44, the force at this time directly moves the piston 35 forward. Since this acts as a force, when this overcomes the spring force of the coil spring 45, the piston 35 is moved forward.
[0068]
When the piston 35 comes to the most protruding position (this corresponds to the above-mentioned first position, and only the cover member 17 and the nozzle portion are shown by two-dot chain lines in FIG. 15), the movement stops there. When the fluid pressure further rises and the pressure overcomes the spring force of the valve closing spring, the diaphragm of the closing valve 44 bends forward to open the closing valve 44 and move the cleaning liquid supply pipe 41 to the center of the piston 35 from the cleaning liquid supply pipe 41. A passage reaching the hole 42 is formed. Then, after the cleaning liquid reaches the injection nozzle 36, the cleaning liquid is injected from the injection port to the outside, and the outer surface of the transparent cover member 16 is cleaned.
[0069]
Then, after the cleaning operation is completed, if the fluid pressure of the cleaning liquid is reduced, the pressure becomes smaller than the spring force of the valve-closing spring, so that the closing valve 44 is closed. The supply path of the cleaning liquid is cut off, and the position of the piston 35 returns to the position before the start of cleaning (the second position) due to the restoring force of the coil spring 45.
[0070]
In the above-described embodiment, an example in which one headlight irradiation unit is provided is shown. However, the present invention is not limited to this, and irradiation control relating to headlights is performed using a plurality of light irradiation units. In the form, for example, in FIG. 12, another light irradiation unit (a light source, a rotating parabolic reflector, a lens step group formed on a transparent cover member) It goes without saying that various forms can be used, such as a configuration in which a lamp unit or the like constituted by the above is added, and switching between the passing beam and the traveling beam is performed by switching the lighting of each irradiation unit.
[0071]
【The invention's effect】
As is apparent from the above description, according to the first aspect of the present invention, since the cleaning unit has a configuration in which the cleaning unit is incorporated in the lamp, the injection to the transparent member is performed only by the mounting accuracy of the cleaning unit with respect to the lamp. The relative positional accuracy of the nozzles can be guaranteed, and the positioning of the nozzles becomes easy. Further, since the outer surface of the decorative cover member attached to the nozzle forms the front surface of the lamp together with the outer surface of the transparent member in a state in which the injection nozzle is housed in the lamp device, the cover member provides an external appearance. There is little discomfort, and the appearance of the lamp is not significantly impaired.
[0072]
According to the invention according to claim 2, the transparent unit or the lens portion is formed on the decorative cover member, and the surface of the portion forms the front surface of the lamp together with the transparent member. Since the appearance of the illumination unit and the appearance of the illumination unit have the same relationship, the appearance of the lamp as a whole is improved.
[Brief description of the drawings]
FIG. 1 is a front view schematically showing a basic configuration example of a lamp device according to the present invention.
FIG. 2 is an enlarged cross-sectional view showing a configuration of a main part taken along line II-II in FIG.
FIG. 3 is a front view schematically showing a vertical lighting device as another example.
FIG. 4 is a front view schematically showing a lamp device provided with a cleaning unit arranged adjacent to a second light irradiation unit.
FIG. 5 is an enlarged cross-sectional view showing a configuration of a main part taken along line VV of FIG. 4;
FIG. 6 is a front view schematically showing a vertical type lamp device as another example.
FIG. 7 is a front view schematically showing a lamp device including a cleaning unit disposed on the right side of the first light irradiation unit.
8 is an enlarged cross-sectional view showing a configuration of a main part cut along a line VIII-VIII in FIG. 7;
9 shows a lamp device in which a cleaning unit is attached to the outer surface of the lamp together with FIG. 10, and FIG. 9 is a schematic front view.
FIG. 10 is an enlarged sectional view of a main part taken along line XX of FIG. 9;
FIG. 11 is a cross-sectional view of a main part showing a configuration example in which a light source is provided inside a cover member.
12 shows an embodiment of the present invention together with FIGS. 13 to 15, and is a diagram schematically showing a front shape of the lamp device. FIG.
FIG. 13 is a longitudinal sectional view showing a headlight irradiation unit and a lamp washer unit.
FIG. 14 is a horizontal sectional view showing a parking lamp unit and a lamp washer unit.
FIG. 15 is a vertical sectional view showing the structure of the lamp washer unit.
FIG. 16 is a schematic view showing an example of a conventional apparatus.
[Explanation of symbols]
1, 1 ', 1A, 1A', 1B ... vehicle headlight device, 1a ... transparent member, 1b ... lamp body, 2a, 2b ... light irradiation unit, 3 ... cleaning unit, 4 ... injection nozzle, 5 … Nozzle part, 6, 6A, 6B, 6C, 6D… Decorative cover member, 6a, 6Aa, 6Ba, 6Ca, 6Da… Transparent part or lens part

Claims (2)

A vehicle having a cleaning function, in which a plurality of units including a light irradiation unit disposed in a lamp chamber formed by a transparent member and a lamp body and a cleaning unit for cleaning the surface of the transparent member are incorporated. A headlight device,
(A) a decorative cover member is provided on a nozzle portion of the cleaning unit including the injection nozzle,
(B) a first position in which the nozzle portion protrudes forward from the surface of the transparent member to clean the transparent member, and a second position in which the nozzle portion retreats from the surface of the member after cleaning the transparent member. Being supported in a movable state over
(C) In the second position, the surface of the decorative cover member forms the front surface of the lamp together with the surface of the transparent member, so that the decorative cover member functions independently of the light irradiation unit. To be visible as part of the
A vehicle headlight device having a washing function, characterized by the following. A vehicle headlight device having a cleaning function according to claim 1,
By forming a transparent portion or a lens portion on the decorative cover member, the surface of the portion forms the front surface of the lamp together with the transparent member at the second position, for a vehicle having a cleaning function. Headlight device.

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