JPH0480484B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention makes it possible to easily determine whether the irradiation angle of an automobile headlamp is in the correct position, and if it is not in the normal position, the irradiation angle of the headlamp is This invention relates to a headlamp irradiation angle adjustment device that can be easily adjusted to a normal position.

[Prior Art] A headlamp is equipped with an aiming mechanism that can tilt around a predetermined horizontal axis and a vertical axis.
The irradiation direction of the headlamp, so-called the irradiation angle of the headlamp, is adjusted (hereinafter referred to as aiming adjustment) so that it is within a predetermined range.
The aiming mechanism of this headlamp actually turns on the headlamp in a dark room.
The light is irradiated onto a screen that is a certain distance away from the headlamp, and the irradiation spot on the screen is adjusted so that it is at a predetermined position.

[Problem to be solved by the invention]

However, the above-mentioned conventional aiming adjustment requires a large dark room, a large amount of equipment such as a screen, and so on. Another problem was that the aiming adjustment had to be made while looking at the screen so that the headlamp's irradiation spot was at the predetermined position, making the adjustment process time-consuming.

In addition, headlamps used in the United States have three location bosses that serve as measurement reference surfaces protruding from the front lens, and a measuring device commonly called an aimer is placed in contact with these location bosses. However, it is designed to measure whether the headlamp is tilted with respect to the horizontal plane. That is,
When the car is in a horizontal position, the front end face of the location boss is formed to be a vertical plane.If the aimer is set using the front end face of the location boss as the contact reference surface, the inclination of the headlamp with respect to the horizontal plane can be adjusted. Quantities can now be measured. And the value measured by this aimer (amount of inclination)
is required to be within a predetermined range. Therefore, a location boss must be formed in a headlamp for the United States, and there is also the hassle of having to manufacture a headlamp for the United States independently in addition to the headlamp for Japan and Europe.

The present invention was made in view of the problems of the prior art described above, and its purpose is to provide a simple structure without the need for a dark room, large-scale equipment such as a screen or aimer, and to eliminate irregularities in the irradiation angle of the headlamp. To provide an inclination measuring device for a headlamp for an automobile, which allows anyone to easily check whether the headlamp is irradiated or not, and allows anyone to easily adjust the irradiation angle of the headlamp.

[Means to solve the problem]

Automotive headlamps include a movable reflector type in which a reflector separate from the lamp body is provided within the lamp body so that it can tilt relative to the lamp body, and a movable reflector type in which a light reflecting surface is integrally formed on the inner peripheral surface of the lamp body. There are two types of unit movable types in which the lamp body is provided so as to be tiltable with respect to the vehicle body, and the means used in each case will be explained below.

First, in the case of a headlamp with a movable reflector, there is a lighting angle adjustment mechanism that adjusts the lighting angle of the headlamp by tilting the reflector installed in the lamp body of the automotive headlamp vertically and horizontally, respectively; It is supported by a support member provided inside the body so as to be able to slide back and forth in the axial direction, and the tip part is biased into contact with the back surface of the reflector by a spring member, so that it moves in the axial direction according to the left and right tilting of the reflector. a first inclination measuring device having a sliding rod member and measuring the horizontal inclination of the reflector from the position of the rod member relative to the lamp body; and a first inclination measuring device fixed to the reflector and measuring the vertical inclination of the reflector. The irradiation angle adjustment device for an automobile headlamp is equipped with a level gauge as a second inclination measuring device, and the first and second inclination measuring devices are arranged so that their respective inclination reading points are located outside the upper part of the front lens of the headlamp. The reflector is placed on the upper wall of the reflector facing the wall.

On the other hand, if the headlamp is a movable unit type, the lamp body of the automotive headlamp, which has a light reflecting surface formed on its inner peripheral surface, can be tilted vertically and horizontally to adjust the illumination angle of the headlamp. It is supported by the adjustment mechanism and a support member provided on the headlamp mounting surface on the vehicle body side so as to be able to slide back and forth in the axial direction, and the tip is biased into contact with the back surface of the lamp body by a spring member, so that it It has a rod member that slides in the axial direction in response to tilting in the direction,
The first step is to measure the horizontal inclination of the lamp body from the position of the rod member relative to the headlamp mounting surface.
An irradiation angle adjustment device for an automotive headlamp, comprising: an inclination measuring device; and a level, which is a second inclination measuring device, which is fixed to the lamp body and measures the vertical inclination of the lamp body, The first and second inclination measuring devices are arranged such that their respective inclination reading points are on the upper wall of the lamp body.

[Effect]

The horizontal inclination of the reflector (lamp body for movable unit types) is expressed as the amount of axial movement of the rod member in the first inclination measuring device, and the headlamp mounting on the vehicle body side for the lamp body (for movable unit types) The amount of inclination of the reflector (lamp body in the case of a movable unit type) in the left-right direction can be read from the position of the rod member relative to the lamp surface. The vertical inclination of the reflector (lamp body for movable unit types) is measured by a level, which is a second inclination measuring device. can be read. and the first and second
All inclination measuring instruments are installed on the upper wall of the reflector (lamp body for movable unit types) so that they can be easily seen by the operator, and especially for the movable reflector type, the scale of the inclination measuring instrument can be read through the front lens.

To adjust the beam angle of the headlamp,
Aiming adjustment is performed by tilting the reflector (lamp body in the case of a movable unit type) in the horizontal or vertical direction so that the scales of the first inclination measuring device and the second inclination measuring device are at predetermined positions.

〔Example〕

Next, embodiments of the present invention will be described based on the drawings.

1 to 9 show an embodiment of a headlamp illumination angle adjustment device when the headlamp is of a movable reflector type, and FIG. 1 is a front view of the headlamp with the illumination angle adjustment device assembled; Fig. 2 is a plan view of the device, Fig. 3 is a horizontal cross-sectional view of the same partially cut away, Fig. 4 is a vertical cross-sectional view of the same, Fig. 5 is a longitudinal cross-sectional view of the first inclination measuring device, and Fig. Fig. 6 is a longitudinal cross-sectional view of the second inclinometer assembly section, Fig. 7 is an explanatory diagram illustrating the assembled state of the second inclinometer, and Fig. 8 is another view of the second inclinometer. A vertical cross-sectional view of the embodiment, FIG. 9 shows the second lens reflected in the front lens.
FIG.

In these figures, reference numeral 2 denotes a container-shaped lamp body, into which a reflector 4 is assembled, and a front lens 6 is assembled into the rectangular front opening of the lamp body 2, making it an integrated headlamp. .

The reflector 4 is supported by three points: a ball joint 10 and adjusting screws 20, 30, as shown in FIGS. 1, 3, and 4. The ball portion 12 side of the ball joint 10 is connected to the lamp body 2.
The reflector 4 is supported by this ball joint 10.
It is designed to be able to swing around the center. Also, the adjustment screws 20 and 30 are both connected to the lamp body 2.
The nuts 22, 32 are rotatably supported by the reflector 4, and are screwed into the nuts 22, 32 on the reflector 4 side, respectively, and by rotating the adjusting screws 20, 30, the nuts 22, 32 can be rotated along the adjusting screws 20, 30. By moving it back and forth, the inclination of the reflector 4 can be changed. Reference numeral 14 is a socket for supporting the ball portion 12, which is fixedly supported by a bracket 16 fixed to the back side of the reflector 4. Further, reference numerals 22 and 32 indicate nuts into which the adjustment screws 20 and 30 are screwed together, and brackets 26 and 36 fixed to the back surface of the reflector 4.
Supported by. Symbols 24 and 34 are compression coil springs, symbols 27 and 37 are O-rings,
Reference numerals 28 and 38 indicate flanges projecting from the adjustment screws 20 and 30.

Note that the support point of the reflector 4 by the adjustment screw 20 (the threaded part of the adjustment screw 20 and the nut 22) is located on a horizontal axis Lx that is perpendicular to the optical axis l of the bulb 41, which will be described later, and that passes through the ball joint 10. ,
Support point of reflector 4 by adjusting screw 30 (screwing part between adjusting screw 30 and nut 32)
is located on a vertical axis Ly that is perpendicular to the optical axis l and passes through the ball and socket joint 10. Therefore, by rotating the adjustment screw 20, the reflector 4 is
By swinging around Ly, it is possible to adjust the horizontal inclination of the reflector 4, that is, the horizontal illumination angle of the headlamp. On the other hand, the adjustment screw 30
Due to the rotation, the reflector 4 swings around the horizontal axis Lx perpendicular to the vertical axis Ly, and the reflector 4
The vertical inclination of the headlamp, that is, the vertical illumination angle of the headlamp can be adjusted. Like this 2
Adjustment screws 20 and 30 allow adjustment of the tilt of the reflector 4, that is, adjustment of the irradiation angle of the headlamp.

Further, in FIG. 3, reference numeral 40 indicates a valve 41.
It is a valve socket that is connected and integrated. An opening 2a for attaching and removing the bulb socket is formed on the back side of the lamp body 2, and the bulb socket 40 is inserted into the back side opening 2 of the lamp body.
a and is attached to a socket hole 5 formed at the rear top of the reflector 4. Around the outer periphery of the rear top of the reflector 4, there is a reflector 4.
A rubber cover 46 is attached to close the opening between the lamp body 2 and the lamp body 2, and a locking cap 47 arranged around the outer periphery of the bulb socket 40 allows the bulb socket 40 to be inserted into the socket hole 5 of the reflector.
At the same time, the inner circumferential edge 46a of the rubber cover 46 is pressed into close contact with the back side circumferential wall 4a of the reflector. Note that the reference numeral 42 is a base portion to which the valve 41 is attached, and the reference numeral 44 is a cylindrical connector portion having connection terminals provided therein.

Further, in FIGS. 1 to 4, reference numeral 3 denotes a seal groove formed at the periphery of the front opening of the lamp body 2. A sealing agent 3a is loaded into this seal groove 3, and the legs of the front lens 6 are sealed. engaged. Further, reference numeral 7 is a clip for mechanically fastening the front lens 6 and the lamp body 2.

In FIGS. 1 to 3 and 5, reference numeral 5
0 is a first inclination measuring device that is provided at a horizontal plane position including the horizontal axis Lx and measures the inclination of the reflector 4 in the left-right direction. Inside the lamp body 2,
A cylindrical protrusion 2b integrally formed with the lamp body protrudes toward the reflector 4 and extends over a recess 4a formed in the left corner region of the upper wall of the reflector 4. A tilt measuring device 50 is attached to this lamp body protrusion 2b and is arranged parallel to the optical axis l. The inclination measuring device 50 includes a cylindrical support member 52, a rod member 54 inserted into the support member 52, and a compression coil spring 56 located within the support member 52 and urging the rod member 54 forward. .

A female screw member 51 is fixed to the tip of the protruding portion of the lamp body, and a transparent support member 52 made of synthetic resin is screwed into the female screw member 51. Support member 5
An expanded diameter portion 53 is formed at the end of the lamp body 2, and an O-ring 55 is attached to the outer periphery of the expanded diameter portion 53 to seal the sliding surface with the lamp body protrusion 2b. A cap 58 on which a driver engaging portion 59 is formed is welded to the expanded diameter portion 53 and integrated with the support member 52, and a screwdriver (not shown) is used to connect the support member 52 to the female screw member 58.
1, the position of the support member 52 relative to the lamp body 2 can be adjusted by moving back and forth in the axial direction.

A rod member 54 inserted through the support member 52
is a stepped rod, and a small diameter portion 61 of the rod protrudes forward by a compression coil spring 56, and is in biased contact with the back surface of the vertical wall 4c of the reflector 4. A circumferential reference line 52a is attached to the outer periphery of the tip of the support member 52, while a linear scale 62 is attached to the small diameter portion 61 of the rod in the axial direction. In response to this, the rod member 54 also slides back and forth in the axial direction, and the scale at the reference line 52a position changes. Further, the rod small-diameter contact surface 4c ₁ of the vertical wall 4c is a curved surface with a radius R centered on the horizontal axis Lx, as shown in FIG.
The scale of the first inclination measuring device 50 does not change due to the vertical tilting of the reflector. When the horizontal inclination of the reflector 4 is appropriate, the zero point 62 of the scale 62 is set to coincide with the reference line 52a position, and the scale at the reference line 52a position indicates the horizontal inclination amount of the reflector 4. It has come to be expressed.

And the reference line 52a which is this scale reading point
The position is such that it faces the upper side wall of the front lens 6, and no step is formed in the region 6a of the front lens 6 corresponding to this scale reading point. That is, as shown in FIG. 2, on the inner circumferential surface of the side wall of the front lens 6, there is a diffusion step S extending substantially parallel to the optical axis.
are formed at regular intervals so that light leakage from the side surface of the front lens is not noticeable.
is a non-step surface, and the amount of inclination can be read through the non-step surface.

In FIGS. 1 to 3 and 6, reference numeral 7
0 is placed on the horizontal plane containing the horizontal axis Lx,
A second device that measures the vertical inclination of the reflector 4.
This is a level that is an inclination measurement device, and the level 70 is constituted by a straight level vial in which a liquid and a bubble 72 are sealed in a transparent container.

A recess 4b is formed in the right corner region of the upper wall of the reflector 4, _and this recess 4b has a horizontal bottom surface 4b ₁ , on which the direction of the linear scale 74 is in the direction of the optical axis l. A spirit level 70 is mounted and fixed to match. In addition, the code 76
is the vertical wall 4 of the reflector 4 that forms the recess 4b.
d, an engagement recess into which the level end 70a is engaged; 80a and 80b are fixing screws 82 for fixing the level 70 to the reflector 4;
is a plate spring interposed between the level 70 and the bottom surface _4b1 of the recess, and as shown in FIG. 7, the level 70
The end 70a is engaged with the engagement recess 76, and the level 70 is fixed by fixing screws 80a and 80b. I'm starting to be able to do it.

When the vertical inclination of the reflector 4, that is, the irradiation angle of the headlamp is at an appropriate vertical position, the bubble 72 of the spirit level 70 moves to the linear scale 74.
The center position (zero point position) 74a is set. The region 6b of the front lens 6 corresponding to the level 70 is also made into a non-step surface, so that the amount of inclination can be read from above the side edge of the front lens through this non-step surface.

FIG. 8 shows another embodiment of the second inclination measuring device, in which the front surface of the part of the reflector 4 where the level gauge 70 is attached is opened, and the scale area of the level gauge 70 is placed above the level gauge 70. It has a structure in which a plane mirror 4e for projecting onto the front lens 6 is formed.
As shown in FIG. 9, the scale area of the spirit level 70 is visible along with the bubbles on the front lens 6, so the amount of vertical inclination of the reflector can be read from the front position of the front lens.

The front lens area 6c onto which the scale of the spirit level is projected is a non-step surface on which no steps are formed.

Next, the procedure for adjusting the inclination measuring device when the headlamp is assembled to the vehicle body and the procedure for adjusting the irradiation angle of the headlamp thereafter will be explained.

As for a single headlamp, when the zero point position 62a of the scale of the rod member 54 of the first inclination measuring device 50 coincides with the position of the reference line 52a, the light distribution characteristics in the left and right direction of the headlamp are at the appropriate position, and the second inclination measurement is performed. The vertical light distribution characteristics of the headlamp are set so that when the bubble 72 of the spirit level 70 reaches the zero point position 74a of the linear scale 74, the vertical light distribution characteristics of the headlamp are at the appropriate position.

and these first and second inclinometers 5
When a headlamp with a built-in 0.70 meter is assembled to a vehicle body, the scale display of each inclination measuring device will not be at the correct position due to various errors. Therefore, it is necessary to adjust the scales of the first and second inclination measuring devices to an appropriate state.

As this scale adjustment method, the first inclination measuring device 5
At 0, the vehicle body and the optical aimer are directly opposed, and the adjustment screws 20 and 30 are rotated to align the optical axis l of the headlamp with the axle.
At this time, the reference line position 52a does not match the scale zero point position 62a due to variations in the lamp mounting surface on the vehicle body side. Then, the support member 52 is rotated by a screwdriver and moved back and forth in the axial direction, so that the zero point position 62a of the scale of the first inclination measuring instrument coincides with the reference line position 52a. In this way, when the lateral illumination angle of the headlamp is at an appropriate position, the scale of the reference line position 52a of the first inclined side 50 is adjusted so as to display the zero point.

On the other hand, in the second inclination measuring device 70 as well, when the headlamp is assembled to the vehicle body, the position of the bubble 72 may not match the zero point position 74a of the scale 74 due to variations in the lamp mounting surface on the vehicle body side. In such a case, the adjusting screw 30 (and the fastening screw 80a if necessary) is rotated to adjust the air bubble 72 to be at the zero point position 74a of the scale. In this way, when the vertical illumination angle of the headlamp is at an appropriate position, the bubble 72 of the second inclination measuring device 70 is adjusted so that the zero point 74a of the scale is displayed.

After that, the user must adjust the illumination angle of the headlamp. When looking into the headlamp from above the upper side wall of the front lens 6, one can see that the reference line position 52a of the first inclination measuring device 50 does not indicate the zero point position 62a of the scale, and that the bubble 72 of the second inclination measuring device 70 does not indicate the scale. If the reflector deviates from the zero point position 74a, the amount of inclination of the reflector in the horizontal or vertical direction can be determined from these deviations.
That is, it is possible to read the deviation in the irradiation angle of the headlamp in the horizontal or vertical direction. In such a case, the adjustment screws 20 or 30 are rotated so that the scale zero point position 62a of the first inclination measuring instrument 50 is aligned with the reference line position 52a, and the second inclination measuring instrument 70 is Now, each adjustment is made so that the bubble 72 comes to the scale zero point position 74a. In this way, the irradiation angle of the headlamp in the horizontal or vertical direction can be adjusted.

FIG. 10 shows an embodiment in which the present invention is applied to a movable unit type headlamp.

A first inclination measuring device 150 for measuring the horizontal inclination of the lamp body and a second inclination measuring device for measuring the vertical inclination of the lamp body are installed in a horizontal plane including the horizontal swing axis Lx of the upper wall 102a of the lamp body 102. A tilt measuring device 170 is provided respectively. In the first inclination measuring device 150, a transparent support member 52 is assembled to the mounting surface of the headlamp on the vehicle body 100 side via a holding member 152, and a graduated rod member 54 is attached to the upper wall 100 of the lamp body.
It is urged into contact with a standing wall 104 projecting from a. Rod small diameter portion 61 of standing wall 104 abutting surface 104
A is a curved surface centered on the horizontal axis Lx, so that it is not affected by vertical tilting of the lamp body. In addition, the first and second inclination measuring devices 15
0 and 170 are both provided on the upper wall of the lamp body, and their scale reading points are both provided at positions that are easier to see from above the side of the headlamp. Note that the reference numeral 140 is a valve socket, and the reference numeral 14 is
7 is a locking cap for fixing the valve socket 140 to the socket hole.

The other configurations are the same as in the case of the movable reflector type described above, and the explanation thereof will be omitted by giving the same reference numerals.

〔Effect of the invention〕

As is clear from the above description, in the irradiation angle adjustment device for an automobile headlamp according to the present invention, the lateral inclination of the reflector (lamp body in the case of a movable unit type) is determined by the angle of the rod member in the first inclination measuring device. It is expressed as the amount of movement in the axial direction, and the amount of tilt in the left and right direction of the reflector (for the movable unit type, the lamp body) is read from the position of the rod member relative to the lamp body (for the movable unit type, the headlamp mounting surface on the vehicle body side). be able to. In addition, the vertical inclination of the reflector (lamp body in movable unit types) is displayed on a second inclination measuring device, a level, and the amount of vertical inclination of the reflector (lamp body in movable unit types) is measured from this level. can be read. The first and second inclination measuring instruments are both installed on the upper wall of the reflector (lamp body in movable unit types) that is easily visible to the operator.In particular, in movable reflector types, the scale of the inclination measuring instruments is displayed through the front lens. This allows you to easily determine whether the illumination angle of the headlamp is appropriate.

In addition, if the illumination angle of the headlamp is incorrect, move the reflector (lamp body for movable units) horizontally or vertically so that the scales of the first and second inclination measuring devices are at the specified positions. The illumination angle can be adjusted very easily by just tilting it in the direction.

[Brief explanation of the drawing]

Figure 1 is a front view of a headlamp (movable reflector type) with a built-in irradiation angle adjustment device, Figure 2 is its top view, Figure 3 is a sectional view taken along the line shown in Figure 1, and Figure 4 is a cross-sectional view along the line shown in Figure 1. 5 is a longitudinal sectional view of the first inclination measuring device, FIG. 6 is a longitudinal sectional view of the assembly section of the second inclination measuring device, and FIG. 7 is a sectional view taken along the line shown in FIG. 8 is a sectional view showing another embodiment of the second inclination measuring device, and FIG. 9 is a sectional view of the second inclination measuring device shown in FIG. 8. FIG. 10 is a front view showing how the scale area is projected onto the front lens, and a horizontal sectional view of an embodiment in which the present invention is applied to a movable unit type. 2, 102...Lamp body, 4...Reflector, 6...Front lens, 6a, 6b...Non-step area of front lens, 10...Ball joint that is the swinging fulcrum of the reflector, 20...Left and right direction of the reflector Adjustment screw for tilting, 30... Adjustment screw for vertical tilting of reflector, 5
0,150...first inclination measuring device, 52...support member, 52a...reference line, 54...rod member,
56... Compression coil spring, 62... Scale,
62a...Scale zero point position, 70,170...Second
level, which is an inclination measuring device, 72...bubble, 74
...Scale, 74a...Scale zero point position, Lx...Horizontal axis, Ly...Vertical axis.

Claims (1)

[Scope of Claims] 1. An irradiation angle adjustment mechanism that adjusts the irradiation angle of the headlamp by tilting a reflector provided inside the lamp body of the automotive headlamp vertically and horizontally, and provided inside the lamp body. A rod member is supported by a support member that is slidable back and forth in the axial direction, and whose tip end is urged into contact with the back surface of the reflector by a spring member, and which slides in the axial direction in response to the tilting of the reflector in the left and right direction. a first inclination measuring device that measures the horizontal inclination of the reflector from the position of the rod member with respect to the lamp body; and a second inclination measuring device that is fixed to the reflector and measures the vertical inclination of the reflector. The irradiation angle adjustment device for a headlamp for an automobile is equipped with a level gauge, and the first and second inclination measuring devices are arranged so that their respective inclination reading points are located on the reflector facing the upper outer wall of the front lens of the headlamp. An irradiation angle adjustment device for a headlamp for an automobile, characterized in that the device is arranged so as to be on an upper wall. 2. An illumination angle adjustment mechanism that adjusts the illumination angle of the headlamp by tilting the lamp body of the automotive headlamp, which has a light reflecting surface formed on the inner peripheral surface, vertically and horizontally, and a headlamp mounting surface on the vehicle body side. It is supported so as to be able to slide back and forth in the axial direction by a support member provided therein, and the tip end is urged into contact with the back surface of the lamp body by a spring member, and slides in the axial direction in response to the left and right tilting of the lamp body. It has a rod member that
The first step is to measure the horizontal inclination of the lamp body from the position of the rod member relative to the headlamp mounting surface.
An irradiation angle adjustment device for an automotive headlamp, comprising: an inclination measuring device; and a level, which is a second inclination measuring device, which is fixed to the lamp body and measures the vertical inclination of the lamp body, 1. An irradiation angle adjustment device for an automobile headlamp, wherein the first and second inclination measuring devices are arranged such that the respective inclination reading points are located at the upper wall of the lamp body.