JPS62283030A - Door mirror device of electrically stowing type - Google Patents

Abstract

PURPOSE:To improve assembly quality for the electrically storing device of a door mirror by constituting a switch mechanism for detecting the position of a mirror housing with movable and fixed plates and a switch between said plates and unifying the movable and fixed sides of the switch mechanism. CONSTITUTION:A switch mechanism 'B' is laid between an axially supported shaft 12 and a mirror housing 13, and stops a motor 14 after detecting the set position of the mirror housing 13. In this case, the switch mechanism 'B' is fitted with a movable plate 21 so supported axially on a fixed plate 22 as to be capable to turning via an axial support part 21a and the fixed plate 22 having a projection to be coupled to the groove 12b of the axially supported shaft 12. And the rotation of the mirror housing 13 related to the axially supported shaft 12 causes a change in the contact position of a pair of limit switches 20 and 20' with the cam faces 22b and 22c of the fixed plate 22, thereby giving ON-OFF operation and detecting a plurality of the positions of the mirror housing 13.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to an electrically retractable door mirror device, and particularly to a switch mechanism for detecting the position of a mirror housing.

(Prior Art) As a conventional electric retractable door mirror device of this type, there is one described in Utility Model Application No. 143043/1983.

In this device, the mirror housing is rotatably supported on a support shaft attached to the door.

Therefore, the mirror housing rotates around the pivot shaft from the set position protruding approximately perpendicularly to the door.
It is folded and stored almost parallel to the side of the door. A positioning mechanism is disposed between the mirror housing and the door, and the mirror housing is fixed to the door at the set position.

Furthermore, a motor attached to the mirror frame is operatively connected to the supporting shaft, and the mirror housing is rotated around the supporting shaft by the operation of the motor, and the mirror frame from the stored position is automatically returned to the set position. can be done.

A switch mechanism for detecting the mirror housing position around the pivot shaft is arranged between the pivot shaft and the mirror housing. This switch mechanism automatically stops the motor when it is detected that the mirror housing has moved from the storage position to the set position.

(Problems to be Solved by the Invention) However, in the conventional device described above, the switch mechanism is composed of a conductive pattern body formed around the pivot shaft and a movable contact body attached to the mirror housing. Ru. Since the conductive pattern body and the movable contact body are individually fixed to the supporting shaft and mirror housing,
Due to dimensional errors and the like, it has been difficult to ensure positional accuracy between the conductive pattern body and the movable contact body.

Therefore, the position detection switch mechanism sometimes operates before the mirror housing reaches the set position or after the mirror housing passes through the set position. As a result, the mirror housing stops before the positioning mechanism provided between the mirror housing and the vehicle body engages or after passing through the mooring position of the positioning mechanism, ensuring that the mirror housing is held in the set position. There was a problem that it was not done.

Therefore, the technical object of the present invention is to solve the above-mentioned problems of the conventional device by unitizing the switch mechanism.

[Structure of the invention]

(Means for solving the problem) In order to solve this problem, the technical means taken by the present invention are as follows: In the above conventional device, the position detection switch mechanism is fixed to the pivot shaft so as to be integrally rotatable. together with a fixed plate that defines a mirror housing set position with respect to the pivot shaft;
Further, the mirror housing includes a movable plate fixed to the mirror housing, and a switch disposed between the movable plate and the fixed plate.

(Function) As described above, in the present invention, the movable plate is pivotally supported by the fixed plate to form a unit.

Therefore, by first fixing the fixed plate integrally to the pivot shaft, and then fixing the movable plate to the mirror housing so that the switch detects the set position of the mirror housing with the mirror housing in the set position, The switch can be easily operated at the set position of the mirror housing.

(Embodiments) Preferred embodiments of the present invention will be described below with reference to the drawings.

As shown in FIG. 1, the door mirror device 10 includes a base plate 11 attached to a vehicle door (not shown),
A pivot shaft 12 fixed to this base plate 11
, a mirror housing 13 rotatably supported by a support shaft 12 , and a mirror held by the mirror housing 13 .

A drive mechanism that rotates the mirror housing 13 around the supporting shaft 12 is disposed within the mirror housing 13 . The drive mechanism includes a motor 14 attached to the mirror housing 13, a reduction gear mechanism C that operatively connects the motor 14 and the supporting shaft 12, and a supporting shaft 1.
Position detection mechanisms B are arranged around the mirror housing 13 to detect the rotational position of the mirror housing 13.

The base plate 11 consists of a main body 11c that constitutes a mounting portion to the door, and a holder 11a screwed onto the main body 11c with screws 11b. Boulder 11a and main body 11c
The supporting shaft 12 is integrally sandwiched between the two.

On the other hand, the mirror housing 13 includes a main body 13a made of resin that holds a mirror, a rotating brake 1-13b that is rotatably supported on the supporting shaft 12, and a drive mechanism that is screwed onto the rotating plate 13b. and a cover 13c. Since the main body 13a is fixed to the rotating plate 13b, the main body 13a is rotatable about the supporting shaft 12.

The speed reduction mechanism B of the drive mechanism has a drive shaft 16 arranged parallel to the supporting shaft 12 and an auxiliary drive shaft 15. Both shafts 16 and 15 each have a rotating plate 13
b is rotatably supported.

A planetary gear mechanism operated by an eccentric collar 17 is disposed below the drive shaft 16, and a friction clutch mechanism is disposed above it.

The planetary gear mechanism includes an eccentric collar 17 supported by the drive shaft 16, an external gear 19 rotatably supported by the eccentric collar 17, and an internal gear integrally fitted and locked to the drive shaft 16. It consists of 18.

The external gear 19 has at least one fewer tooth than the internal gear 18, and is meshed with the internal gear 18 through an eccentric collar 17 so as to be removable.

On the other hand, the friction clutch mechanism is made of resin and is interposed between a plate pressed by a pressure spring, a drive gear rotatably supported on the drive shaft 16, and the lower surface of the drive gear and the upper surface of the internal gear 18. It consists of a friction plate and a driven gear fixed to the supporting shaft 12 and meshed with the driving gear.

A part of the supporting shaft 16 has a flat part 16a, and by using this flat part 16a, the pressing plate, the friction plate, and the internal gear 18 are integrated with the drive shaft 16 in its rotational direction, and the axis thereof is It is assumed that it is movable in terms of direction. Due to the biasing force of the pressing spring, the drive gear is pressed against the internal gear 18 via the friction plate. Therefore, within a predetermined torque, the internal gear 18 and the drive gear rotate together. However, when the torque exceeds a predetermined value, such as when the mirror housing 13 is rotated by an external force, the internal gear 18 and the drive gear will rotate independently.

The auxiliary shaft 15 has a worm gear 7tz1 at its bottom.
5g is integrally formed and meshed with a worm gear 14a attached to the output shaft of the motor 14. Moreover, spur teeth 15b are formed on the upper part of the auxiliary shaft 15. The spur teeth 15b mesh with the spur teeth integrally formed at the lower part of the eccentric collar 17.

Between the holder lla of the base plate 11 and the rotating plate 13b of the mirror housing 13, a pivot shaft 1 is provided.
A positioning notch mechanism A is provided, which is arranged about the circumference of 2. As shown in FIGS. 5 and 6, the notch mechanism A is composed of three engaging portions arranged symmetrically around the supporting shaft 12. Each engaging part is
It consists of a ball bearing 25 press-fitted into the rotating play (13b) and a recess 25a formed in the holder 11a so that the bearing 25 is fitted therein. Rotating plate 13b
are pressed downward by a spring wound around the supporting shaft 12, so that the mirror housing 13 is positioned by fitting and holding each ball bearing 25 into each recess 25a. By this positioning, in the set position of the mirror housing 13, that is, in FIG. 5, the mirror housing 13 extends along the dashed dot line Q that is perpendicular to the dashed dot line P that runs substantially along the side of the vehicle.

Note that the rotating plate 13b is provided with a guide portion 26 formed in an arc shape, and the holder lla is provided with a protrusion 27 that projects into the guide portion 26. This guide part 26
and the protrusion 27 constitute a stopper mechanism that defines the rotation range of the rotation plate 13b. That is, when the guide part 26 is rotated by a predetermined angle, the end surface of the guide part 26 comes into contact with the protrusion 27, and further rotation of the rotation play 13b is prevented. In FIG. 5, when the rotary plate 13b is rotated clockwise, the mirror housing 13 is in the retracted position where it is folded into the side of the door. Further, when rotated counterclockwise, the retracted position is parallel to the side of the vehicle and protrudes forward from the door.

Next, the switch mechanism B, which is the gist of the present invention, is shown in FIG.
This will be explained with reference to FIGS. 3 and 4.

The switch mechanism B is disposed between the upper end of the supporting shaft 12 and the cover 13c of the mirror housing 13, and includes a movable plate 21, a fixed plate 22, and two limit switches 20 and 20'. The movable plate 21 has a pivot support 21a formed around the pivot shaft 12, and is rotatably supported by the fixed plate 22 through the pivot support 21a. The fixed plate 22 is attached to the upper end of the pivot shaft 12 by serration connection. Further, a protrusion 22a extending along the longitudinal direction of the pivot shaft 12 is formed on the inner circumferential surface of the fixed plate 22 on which the serrations are formed.
is engaged with a groove 12b formed in the axial direction (see FIG. 4).

As a result, the switch mechanism B is assembled in a state in which it can detect the set position.

On the outer periphery of the fixed plate 22, cam surfaces 22b and 22c are formed in two stages (upper and lower) to indicate the set position.
(See Figure 4). Limit switches 20 and 20' are screwed to the movable plate 21 at varying heights in the vertical direction so as to engage with the cam surfaces 22b and 22c, respectively (see FIG. 3).

The movable plate 21 is screwed onto the cover 130 by the terminal 23 via an elongated portion 21b formed on the cover 130.

Since the elongated hole 21b is formed around the supporting shaft 12, the screwing position of the movable plate 21 to the cover 13c can be adjusted by the angle α.

In this way, in the position detection switch mechanism B, the movable plate 21 is fixed to the cover 13b, that is, the mirror housing 13, so that the rotation of the mirror housing 13 about the pivot shaft 12 causes the limit switches 20, 20
The contact position of the fixing plate 22 with respect to the cam surfaces 22b and 22c changes.Then, as shown in FIG. Detect two positions.

i) Retracted position: A state in which the vehicle contacts an obstacle when reversing and is rotated counterclockwise about the support shaft 12 from the set position.

ii) Set position: Normal use condition extending approximately vertically from the door.

(fit) Intermediate position: A state in which the vehicle contacts an obstacle while moving forward and is rotated clockwise about the supporting shaft 12 from the set position.

iv) Storage position: A state in which the mirror housing is rotated clockwise about the support shaft 12 and folded to the side of the door so that the mirror housing does not become an obstacle when entering the garage.

Switch mechanism B is connected to the operation switch mechanism.

The operation switch mechanism includes a return operation switch 31 that returns the mirror frame 13 to the set position, a storage operation switch 32 that moves the mirror frame 13 to the storage position, a control circuit 33, and a driver circuit that urges the motor 14 to rotate forward or reverse. 34
and has.

The control circuit 33, while referring to the ON-OFF state of both limit switches 20 and 20 degrees of the switch mechanism B, operates the return operation switch 31 or the retraction operation switch 32 as shown in FIG. Driver circuit 34
The motor 14 is energized to rotate forward or reverse. Then, the mirror frame 13 is moved to the set position or storage position.

The embodiment of the present invention constructed as described above operates as follows.

When the return or storage operation switches 31 and 32 are operated,
The motor 14 is driven to rotate. The rotation of the motor 14 sequentially operates the worm gear 14a, the auxiliary drive shaft 15, the eccentric collar 17, the planetary gear mechanism, and the clutch mechanism to rotate the drive gear.

The drive gear rolls around a driven gear fixed to the support shaft 12, and the mirror housing 13 is rotated around the support shaft 1.
It will be rotated around 2.

The direction of rotation of the mirror frame 13 around the supporting shaft is determined by both limit switches 20 and 2 of the switch mechanism B.
0” ON-〇FF state (position of mirror frame 13)
is determined by the control circuit 33.

When the return operation switch 31 is operated, the control circuit 33 automatically stops energizing the motor 14 when both limit switches 20 and 20' are turned off. Furthermore, when the storage operation switch 32 is operated, the control circuit 33 automatically stops energizing the motor 14 when both limit switches 20, 20' are turned on.

In the embodiment of the present invention, the switch mechanism B having the limit switches 20, 20' consists of a fixed plate 22 and a movable plate 21 which are mutually pivotally supported. Moreover, the limit switches 20 and 20°, which are operatively engaged with the cam surfaces 22b and 22c of the fixed plate 22, are attached to the movable plate 21 in advance to form a unit.

Therefore, the supporting shaft 12 of the position detection switch mechanism B
When attaching to the fixing plate 22,
is connected to the supporting shaft 12 through serrations while aligning the grooves 12b of the supporting shaft 12. Next, with the positioning mechanism A (defining the set position) disposed between the mirror frame 13 and mirror base 11 engaged, the cover is moved so that both limit switches 20 and 20' are in the OFF state. Screw 2 in the long 21b of 13c
After adjusting the position of 3, move the movable plate 21 to the cover 1.
Screw it onto 3c.

Therefore, when returning to the set position described above, both limit switches 20 and 20' are turned off while the ball bearing 25 in the positioning mechanism A is engaged with the recess 25a. Along with this OFF operation, the motor 14 is also stopped. It is possible to prevent the motor 14 from being stopped before the mirror frame 13 moves to the set position or after passing the set position.

Moreover, since the switch mechanism B is made into a unit, the operation timings of the positioning mechanism A and the position detection switch mechanism B can be easily and reliably matched. Additionally, assembly work becomes easier.

As a modified embodiment of the position detection switch mechanism B of the present invention, as shown in FIG. 9, it may be mounted on a cover 13C. Movable plate is casing 131
The casing 131 is closed by a plate 133.

A fixed plate 132 is rotatably supported between the casing 131 and the plate 133.

Both the casing 131 and the fixing plate 132 are made of synthetic resin and have insulation properties. A movable contact body 130 is mounted on the casing 131, and a fixed contact body 1 is mounted on the fixed plate 132.
32b are attached respectively. Mirror housing 1
The position of the mirror housing 13 is detected by the movable contact body 130 coming into contact with the fixed contact body 132b or not coming into contact with the fixed contact body 132b in accordance with the rotation about the pivot shaft 12 of FIG.

The fixed plate 131 is serrated connected to the upper part of the pivot shaft 12 protruding from the cover 13C. A protrusion 132a is provided on the inner peripheral surface of the fixed plate 131,
This protrusion 132a is engaged with and fixed to the groove 12b of the supporting shaft 12.

Further, the casing 131 and the plate 133 are provided with elongated holes 131b and 133a, respectively, and the elongated holes 131b
- the casing 13 by the screw 135 via 133a;
1 is screwed onto the cover 13c. Long hole 131b133
Since a is formed around the supporting shaft 12, the position of the casing 131 with respect to the fixed plate 132 can be adjusted.

〔Effect of the invention〕

As detailed above, in the present invention, the fixed side and the movable side of the switch mechanism are made into a unit in advance.

Therefore, first, the fixing plate is integrally fixed to the pivot shaft. Next, with the mirror housing in the set position, the movable plate is fixed to the mirror housing so that the switch detects the set position of the mirror housing.

Thereby, the position detection switch mechanism can be easily operated to detect the set position at the set position of the mirror housing.

In particular, compared to a configuration in which the movable plate and the fixed plate are configured separately and the movable plate is fixed to the mirror housing so that the switch operates at the set position while being adjusted, the movable plate and the fixed plate are configured as a unit. The ease of assembly is greatly improved.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing one embodiment of the present invention, and FIG.
3 is a cross-sectional view showing a cross section along the line ■-■ in FIG. 2, FIGS. 4 and 5 are IV-IV in FIG. 1, respectively. 6 is a partial side view showing the engaged state of the positioning mechanism; FIG. 7 is an explanatory diagram showing the operation of the switch mechanism/operation switch mechanism; FIG. 9 is a schematic circuit diagram showing an operation switch mechanism, and FIG. 9 is a sectional view corresponding to FIG. 1 showing a modified embodiment of the present invention. DESCRIPTION OF SYMBOLS 10... Door mirror device, 11... Base plate, 12... Pivotal shaft, 13... Mirror housing, 14... Motor, A... Positioning mechanism, B... Switch mechanism for position detection , 20・20゛...Limit switch, 21...Movable plate, 22...Fixed plate, 22b/22c...Cam surface, 23...Nephew, 21b...Long size, C...・Reduction gear mechanism, D...operation switch mechanism.

Claims (3)

[Claims] (1) A mirror housing is rotatably supported on a support shaft attached to the door, a motor attached to the mirror housing is operatively connected to the support shaft, and the mirror is rotated by the operation of the motor. While rotating the housing to the set position, a switch mechanism for detecting the position of the mirror housing is disposed between the pivot shaft and the mirror housing, and the set position of the mirror housing is detected by the position detecting switch mechanism. In the electric retractable door mirror device that stops the motor when the mirror housing is located at the set position, the position detection switch mechanism is fixed to the pivot shaft so as to be integrally rotatable therewith, and a fixed plate that defines a mirror housing set position with respect to the shaft; a movable plate that is pivotally supported by the fixed plate and fixed to the mirror housing; and a switch disposed between the movable plate and the fixed plate. An electrically retractable door mirror device consisting of. (2) The switch comprises a limit switch attached to the movable plate, and the limit switch includes:
The electrically retractable door mirror device according to claim 1, wherein the electrically retractable door mirror device is operatively connected to a cam surface formed on the fixed plate and that defines a set position of the mirror housing. (3) The electric retractable door mirror device according to claim 1, wherein the switch includes a fixed contact body attached to the fixed plate and a movable contact body attached to the movable plate.