JP2006273028A - Mirror device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To change visual range while maintaining the visual range before the change in a mirror device mounted to a vehicle or the like. <P>SOLUTION: The mirror device has a light reflector which is disposed on a device body and has flexibility and a curvature change means which deforms the light reflector and changes the curvature of the light reflector. The mirror device has also a control means which controls the curvature of the light reflector by actuating the curvature change means. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a mirror device mounted on a vehicle or the like.

Conventionally, as an automobile rearview mirror, for example, one disclosed in Japanese Patent Application Laid-Open No. 11-48865 is known.
In this rearview mirror, when the change lever is put in the back, the mirror automatically rotates downward to make it easier to see the rear lower part. When the change lever is removed from the back, the mirror is restored to the original position.
JP 11-48865 A

However, since the above-described rearview mirror obtains a predetermined field of view by changing the direction of the mirror, for example, when the mirror is rotated downward, the normal field of view disappears from the mirror, and the field of view reflected on the mirror is accurately determined. There was a problem that it was difficult to judge.
The present invention has been made in response to such a conventional situation, and an object thereof is to provide a mirror device capable of changing the field of view while maintaining the field of view before the change.

A mirror device according to a first aspect of the present invention includes a flexible reflection plate disposed in the apparatus main body, and curvature changing means for changing the curvature of the reflection plate by deforming the reflection plate.
A mirror device according to a second aspect is the mirror device according to the first aspect, further comprising a control unit that operates the curvature changing unit to control the curvature of the reflector.
The mirror device according to a third aspect is the mirror device according to the first or second aspect, wherein the curvature changing means includes a pressing means that changes the curvature of the reflecting plate by pressing the reflecting plate from within the device main body. It is characterized by having.

The mirror device according to claim 4 is the mirror device according to claim 1 or 2, wherein the curvature changing means includes pressure changing means for changing the curvature of the reflecting plate by changing the pressure in the apparatus main body. It is characterized by that.
A mirror device according to a fifth aspect is the mirror device according to any one of the first to fourth aspects, wherein the mirror device is a rear-view mirror of a vehicle.

The mirror device according to a sixth aspect is the mirror device according to the fifth aspect, wherein the control means changes the curvature of the reflector in conjunction with a direction indicator of a vehicle.
(Function)
In the mirror device of the first aspect, the flexible reflecting plate disposed in the device main body is deformed by the curvature changing means, and the curvature of the reflecting plate is changed.

In the mirror device according to the second aspect, the curvature of the reflector is controlled by operating the curvature changing means by the control means.
In the mirror device according to the third aspect, the curvature of the reflection plate is changed by pressing the reflection plate from the inside of the apparatus main body by the pressing means.
In the mirror device according to the fourth aspect, the curvature of the reflector is changed by changing the pressure in the device main body by the pressure changing means.

In the mirror device according to the fifth aspect, the mirror device is used as a rear-view mirror of the vehicle, and the curvature of the reflector is changed as necessary.
In the mirror device according to the sixth aspect, the curvature of the reflecting plate is changed in conjunction with the direction indicator of the vehicle when turning left or right.

In the mirror device according to the first aspect, since the field of view is changed by changing the curvature of the reflector, the field of view can be changed while maintaining the field of view before the change.
In the mirror device according to the second aspect, since the curvature of the reflecting plate is controlled by the control means, the curvature of the reflecting plate can be automatically changed.
In the mirror device according to the third aspect, since the curvature of the reflecting plate is changed by pressing the reflecting plate from the inside of the apparatus main body, the curvature of the reflecting plate can be easily and reliably changed.

In the mirror device according to the fourth aspect, since the curvature of the reflecting plate is changed by changing the pressure in the apparatus main body, the curvature of the reflecting plate can be easily and reliably changed.
In the mirror device according to the fifth aspect, a mirror device suitable as a rearview mirror of the vehicle can be obtained.
In the mirror device according to the sixth aspect, since the curvature of the reflector is changed in conjunction with the direction indicator of the vehicle, the field of view at the time of left turn or right turn can be improved.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(First embodiment)
1 and 2 show a first embodiment of a mirror device of the present invention. In this embodiment, the present invention is applied to a rear-view mirror of a track.
1 and 2, reference numeral 11 denotes a container-like device body made of resin, metal or the like.

On the rear surface of the apparatus main body 11, a connecting portion 11a is integrally formed. The connecting portion 11a is formed with a through hole 11b through which the support member 13 is inserted. A slit 11c is formed on the rear side of the through hole 11b of the connecting portion 11a, and the connecting portion 11a is fixed to the support member 13 by tightening the screw 15.
An opening 11 d is formed on the front surface of the apparatus body 11. An annular groove 11e is formed along the inner periphery of the opening 11d. In the annular groove 11e, the outer peripheral portion of the reflective plate 17 having flexibility is inserted. The reflection plate 17 is formed by evaporating silver on the surface of a flexible thin plate made of, for example, resin, iron, aluminum, or the like.

In the apparatus main body 11, a pressing unit 19 is disposed that deforms the reflecting plate 17 to change the curvature of the reflecting plate 17. The pressing means 19 includes a pressing member 21, a pinion 23, and a motor 25.
The pressing member 21 has a pressing portion 21a that presses the reflecting plate 17 from the inside. The front surface of the pressing portion 21a is formed in a spherical shape. A support portion 21b is integrally formed at the center of the pressing portion 21a. The rear portion of the support portion 21b is supported by the apparatus main body 11 so as to be movable in the front-rear direction. That is, a protrusion 11f is formed on the inner surface of the apparatus main body 11, and a rear portion of the support portion 21b is movably inserted into a hole 11h formed in the protrusion 11f.

  A rack 21 c is integrally formed on the lower surface of the support portion 21 b of the pressing member 21. A pinion 23 fixed to the rotating shaft 25a of the motor 25 is engaged with the rack 21c. The motor 25 is fixed to the inner surface of the apparatus main body 11 by a bracket 27. Therefore, when the motor 25 is driven, the pinion 23 rotates, the rack 21c of the support portion 21b meshing with the pinion 23 moves in the front-rear direction, and the pressing member 21 moves in the front-rear direction.

FIG. 3 shows a state where the reflecting plate 17 is pressed by the pressing portion 21a of the pressing member 21, and the curvature of the reflecting plate 17 is increased by the pressing, that is, the radius of curvature is decreased.
FIG. 4 shows a state in which the above-described mirror device is mounted on a truck, which is mounted on the left and right sides of the cab 31 as a left rear-view mirror 33 and a right rear-view mirror 35. The state shown in FIG. 4 is a normal operation state in which the reflecting plate 17 of the left rear mirror 33 and the right rear mirror 35 is not pressed by the pressing member 21. A front obstacle confirmation mirror 37 is disposed in front of the left rear-view mirror 33. Further, a direction indicator 39, a speedometer 41, a turn signal pilot lamp 43, a gear shift lever 45, and the like are arranged in the cab 31.

In this embodiment, the control means 47 which controls the curvature of the reflecting plate 17 of the left rear mirror 33 and the right rear mirror 35 is provided. This control means 47 changes the curvature of the reflecting plate 17 in conjunction with the direction indicator 39 of the vehicle.
That is, the left or right turn signal from the turn signal switch 49 of the direction indicator 39 is input to the control means 47. When the signal from the turn signal switch 49 is input, the control unit 47 drives the motors 25 of the left rear-view mirror 33 and the right rear-view mirror 35, and as shown in FIG. By pressing the reflecting plate 17 by the pressing portion 21a, the curvature of the reflecting plate 17 is increased. Then, when the signal from the turn signal switch 49 is released, the motors 25 of the left rear mirror 33 and the right rear mirror 35 are driven to release the pressing of the reflecting plate 17 by the pressing member 21, and FIG. Return to the indicated normal state.

FIG. 5 shows a state in which the curvatures of the reflectors 17 of the left rear mirror 33 and the right rear mirror 35 are increased, and the field of view of the left rear mirror 33 and the right rear mirror 35 expands in the vertical and horizontal directions. I can see that
In this embodiment, a release switch 51 that forcibly releases the pressing of the reflecting plate 17 by the pressing member 21 is provided in the cab 31.

In the above-described mirror device, since the field of view is changed by changing the curvature of the reflecting plate 17, as shown in FIG. 5, the field of view can be easily maintained while maintaining the field of view before the change shown in FIG. It can be changed reliably.
Moreover, in the mirror apparatus mentioned above, since the curvature of the reflecting plate 17 was changed by pressing the reflecting plate 17 from the inside of the apparatus main body 11, the curvature of the reflecting plate 17 can be changed easily and reliably. .

Further, in the mirror device described above, the curvature of the reflector 17 is changed in conjunction with the track direction indicator 39, so that the field of view at the time of left turn or right turn can be improved.
In the left rear mirror 33 and the right rear mirror 35 described above, as shown in FIG. 5, the field of view of the left rear mirror 33 and the right rear mirror 35 is widened in the vertical and horizontal directions when turning left or right. Therefore, the obstruction confirmation mirror on the left can be eliminated.

That is, normally, in a large vehicle such as a truck, as shown in FIG. 6, a left-hand obstacle confirmation mirror 53 is provided below the left rear-view mirror 33 in order to prevent a person or the like from getting involved when turning left. However, in the left-side rear-view mirror 33 described above, the field of view of the left-side rear-view mirror 33 expands in the vertical direction when turning left, so that the right-left obstacle confirmation mirror 53 can be eliminated. This makes it possible to reduce the number of reflecting mirrors to be confirmed by the driver, reduce driver fatigue, and improve safety.
(Second Embodiment)
FIG. 7 shows a second embodiment of the mirror device of the present invention.

In this embodiment, the inside of the container-shaped device main body 11 is substantially sealed by the reflecting plate 17.
A supply pipe 55 for introducing pressurized air is opened in the apparatus main body 11. The supply pipe 55 is connected to a pressure source 57 such as an air tank mounted on the vehicle, for example. The supply pipe 55 is provided with a pressure control valve 59 and a first electromagnetic on-off valve 61 in order from the apparatus main body 11 side.

Further, the apparatus main body 11 is opened with a discharge pipe 63 for discharging pressure air from the apparatus main body 11. The discharge pipe 63 is provided with a second electromagnetic opening / closing valve 65.
In FIG. 7, reference numerals indicate the control means 67. This control means 67 changes the curvature of the reflecting plate 17 in conjunction with the vehicle direction indicator 39.

  That is, the left or right turn signal from the turn signal switch 49 of the direction indicator 39 is input to the control means 67. Then, when the signal from the turn signal switch 49 is input, the control means 67 opens the first electromagnetic on-off valve 61 and closes the second electromagnetic on-off valve 65. By opening the first electromagnetic opening / closing valve 61, the pressurized air from the pressurizing source 57 is supplied into the apparatus main body 11 via the pressure control valve 59. Then, the pressure of the apparatus main body 11 is increased to a predetermined pressure by the pressure control valve 59. By this pressure increase, the reflecting plate 17 is pressed outward, and the curvature of the reflecting plate 17 increases as shown in FIG.

Then, when the signal from the turn signal switch 49 is canceled, the control means 47 closes the first electromagnetic on-off valve 61 and opens the second electromagnetic on-off valve 65. Thereby, the pressure air in the apparatus main body 11 is discharged | emitted from the discharge pipe 63, and it resets to the normal state shown in FIG.
In the mirror device of this embodiment, the same effect as that of the first embodiment can be obtained, but in this embodiment, the curvature of the reflecting plate 17 is changed by changing the pressure in the device body 11. Therefore, the curvature of the reflecting plate 17 can be easily and reliably changed.

  In the above-described embodiment, the example in which the curvature of the reflector 17 is simply increased by a left turn signal or a right turn signal from the turn signal switch 49 of the direction indicator 39 has been described, but the present invention is limited to such an embodiment. For example, when changing lanes or the like, it is not necessary to secure the peripheral field of view as when turning left or right, so the vehicle speed is detected, and the curvature of the reflector 17 is controlled to increase as the vehicle speed decreases. May be.

Further, it may be controlled to increase the curvature of the reflector 17 of the left rear-view mirror 33 and the right rear-view mirror 35 by detecting that the gear shift lever 45 is put in reverse during the reverse operation of the vehicle. .
In the above-described embodiment, an example in which the present invention is applied to a truck has been described. However, the present invention is not limited to such an embodiment, and can be widely applied to vehicles such as passenger cars and buses. In particular, in the case of a connected vehicle such as a trailer, there is a case where the rear end portion is not reflected due to an extreme bending method, but by using the above-described mirror device, the rear end portion can be reliably copied. Become.

It is sectional drawing which shows 1st Embodiment of the mirror apparatus of this invention. It is a perspective view which shows the mirror apparatus of FIG. It is explanatory drawing which shows the state which enlarged the curvature of the reflecting plate 17 with the pressing member 21 of the mirror apparatus of FIG. It is explanatory drawing which shows the cab 31 of the truck in which the mirror apparatus of FIG. 1 is mounted. FIG. 5 is an explanatory diagram showing a state in which the curvatures of the reflectors 17 of the left rear mirror 33 and the right rear mirror 35 of FIG. 4 are increased. It is explanatory drawing which shows the cab 31 of the conventional truck. It is explanatory drawing which shows 2nd Embodiment of the mirror apparatus of this invention. It is explanatory drawing which shows the state which enlarged the curvature of the reflecting plate 17 of the mirror apparatus of FIG.

Explanation of symbols

11 apparatus main body 11a connecting part 11b through hole 11c slit 11d opening 11e annular groove 11f projecting part 13 support member 17 reflecting plate 19 pressing means 21 pressing member 21a pressing part 21b supporting part 21c rack 23 pinion 25 motor 33 left rear-view mirror 35 Right side rearview mirror 39 Direction indicator 47 Control means 55 Supply pipe 57 Pressure source 59 Pressure control valve 61 First electromagnetic on-off valve 63 Discharge pipe 65 Second electromagnetic on-off valve 67 Control means

Claims (6)

A flexible reflector disposed in the apparatus body;
Curvature changing means for changing the curvature of the reflecting plate by deforming the reflecting plate;
A mirror device comprising: The mirror device according to claim 1, wherein
A mirror device comprising control means for operating the curvature changing means to control the curvature of the reflector. The mirror device according to claim 1 or 2,
The mirror apparatus according to claim 1, wherein the curvature changing means includes pressing means for pressing the reflecting plate from within the apparatus main body to change the curvature of the reflecting plate. The mirror device according to claim 1 or 2,
The mirror apparatus according to claim 1, wherein the curvature changing means includes pressure changing means for changing the curvature of the reflector by changing the pressure in the apparatus main body. The mirror device according to any one of claims 1 to 4,
A mirror device characterized by being a rear-view mirror of a vehicle. The mirror device according to claim 5, wherein
The said control means changes the curvature of the said reflecting plate in response to the direction indicator of a vehicle, The mirror apparatus characterized by the above-mentioned.

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