KR0180412B1 - Adjusting circuit of outside mirror in an automobile - Google Patents

Abstract

The present invention relates to an outside mirror adjustment circuit, comprising: a first switch, a second switch, a third switch, and a power source output from the second switch to select and output one of the power sources connected to an external power source; A mirror adjustment switch unit including a switch for intermittently outputting a switch and a switch for intermittently outputting a power output from the third switch; One terminal is connected to the power output from the switch, the first electric motor is connected to the other terminal to the power output from the first switch, and one terminal is connected to the power output from the switch and A second electric motor having the other terminal connected thereto, a third electric motor having one terminal connected to the power output from the switch and the other terminal being connected to the common terminal, and a terminal connected to the power output from the switch, It comprises an electric motor unit including a fourth electric motor connected to the other terminal to the power source, by constituting the mirror adjustment switch in a three-contact manner to operate stably at any user's choice, and also manufactured by reducing the number of switches Reduce cost

Description

Outside mirror adjustment circuit

The present invention relates to an outside mirror adjustment circuit, and more particularly, to an outside mirror adjustment circuit that adopts a three-contact method and operates stably to any selection input of a user.

Hereinafter, a conventional outside mirror adjustment circuit will be described with reference to the accompanying drawings.

1 is a circuit diagram of a conventional outside mirror adjustment circuit.

As shown in Fig. 1, the conventional outside mirror adjustment circuit is connected to the electric motors 1, 3, 5, and 7 which drive the outside mirrors to change their positions, and the external power sources B + and E, and is selected by the user. And a mirror adjustment switch 9 for controlling the power input to the electric motors 1, 3, 5, 7 in accordance with the input.

Here, the electric motors 1 and 3 are motors for driving an outside mirror mounted on the tidal-side door, where 1 controls horizontal movement and 3 controls vertical movement.

Similarly, the electric motors 5 and 7 are motors for driving outside mirrors mounted on the driver side door, where 5 controls horizontal movement and 7 controls vertical movement.

The mirror adjustment switch 9 is connected to external power sources B + and E, and when the user selects the position adjustment of the outside mirror from the user, the input power sources B + and E are applied to adjust the position of the corresponding outside mirror. And switches 11, 13, 15, 17, and 19 that connect to motors 1, 3, 5, and 7.

The operation of the conventional outside mirror adjustment circuit is as follows.

First, it is assumed that the user adjusts the mirror adjustment switch 9 to point the outside mirror mounted on the driver side door upward.

Then, as shown in FIG. 2, the switch 11 is connected to the power source B + to connect the power source B + to the terminal VL connected to the electric motor 7, and the switch 15 is connected to the power source B +. Is connected to terminal VL. In addition, the switch 19 connects the power source E to connect the power source E to a common terminal C commonly connected to the electric motors 1, 3, 5, and 7. On the other hand, the assistant side outside mirror does not need to be adjusted, so the switches 13 and 17 are not operated.

On the contrary, when the selection input for directing the driver's outside mirror downward is input to the mirror adjustment switch 9, as shown in the accompanying FIG. 2, the switch (for connecting the terminal VL to the power source E) is connected. 11 connects the power source E, and the switch 15 connects the terminal VL. The switch 19 connects the power source B + to the terminal C.

Similarly, if there is a user's other selection input via the mirror adjustment switch 9, each switch 11, 13, 15, 17, 19 is powered by the electric motor 1, according to the connection shown in FIG. 3, 5, 7) to drive the corresponding outside mirror.

However, since the mirror adjustment switch 9 is constituted by four-contact methods 11, 13, 15, and 17 in the above-described conventional technique, when the switch 9 is selected in a diagonal direction by the user, one or more contact points There is a problem in that a circuit is shorted and malfunctions due to simultaneous connection.

Accordingly, an object of the present invention is to solve the above-mentioned conventional problems, and to provide an outside mirror adjustment circuit that operates stably at any user's choice by configuring the mirror adjustment switch in a three-contact manner.

1 is a circuit diagram of a conventional outside mirror adjustment circuit,

2 is a connection diagram of a mirror adjustment switch of a conventional outside mirror adjustment circuit,

3 is a circuit diagram of an outside mirror adjustment circuit according to an embodiment of the present invention,

4 is a connection diagram of a mirror adjustment switch of the outside mirror adjustment circuit according to the embodiment of the present invention.

As a means for achieving the above object, the present invention,

A mirror adjustment switch connected to an external power source and configured in a three-contact manner to control and output the external power source according to a user's selection; It includes an electric motor for receiving the power output by the mirror adjustment switch to drive the outside mirror.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit diagram of an outside mirror adjustment circuit according to an embodiment of the present invention.

As shown in FIG. 3, the outside mirror adjusting circuit according to the embodiment of the present invention may include a first switch that selects and outputs one of the power sources B + and E connected to the external power sources B + and E. 30), the second switch 32, the fourth switch 36, the fifth switch 38, and the third switch for intermittently outputting the power output from the third switch 34 and the second switch 32; A mirror adjustment switch section 50 including a sixth switch 40 and a seventh switch 42 which intermittently output and output the power output from the 34; First transmission in which the terminal VL is connected to the power output from the fourth switch 36 of the mirror adjustment switch unit 50 and the common terminal C is connected to the power output from the first switch 30. A second electric motor 62 having a terminal HL connected to the motor 60 and a power output from the sixth switch 40 and a terminal VL connected to the power output from the fourth switch 36. ) And a third electric motor 64 having a terminal VR connected to the power output from the fifth switch 38 and the other terminal connected to the common terminal C, and a seventh switch 42. And an electric motor unit 70 including a fourth electric motor 66 having a terminal HR connected to the output power and having a terminal VR connected to the power output from the fifth switch 38. .

Here, the first electric motor 60 and the second electric motor 62 is a motor for driving the outside mirror mounted to the driver side door, the first electric motor 60 controls the vertical movement, 2 electric motor 62 controls the horizontal movement.

Similarly, the third electric motor 64 and the fourth electric motor 66 are motors for driving an outside mirror mounted on the tidal side door, and the third electric motor 64 controls the vertical movement, and the fourth The electric motor 66 controls the horizontal movement.

The operation of the outsite mirror adjustment circuit according to the embodiment of the present invention by the above configuration is as follows.

First, it is assumed that the user operates the mirror adjustment switch 50 to direct the outside mirror mounted on the driver side door upward.

Then, as shown in FIG. 4, the second switch 32 and the third switch 34 are connected to the external power source B + to connect the power source B + to the terminal VL and the terminal HL. The fourth switch 36 and the fifth switch 40 are connected. At this time, the switches 38 and 42 are not connected.

In addition, the first switch 30 is connected to the external power source E to connect the power source E to the common terminal C. FIG.

As a result, since the same power source B + is connected to both terminals VL and HL of the second electric motor 62 that controls the horizontal movement, there is no horizontal movement and the first electric motor 60 that controls the vertical movement. Since the power source B + is connected to the terminal VL and the power source E is connected to the common terminal C, the first electric motor 60 drives the outside mirror to face upward.

On the contrary, when the selection input for directing the driver's outside mirror downward is input to the mirror adjustment switch 50, the power supply E + is applied to the terminals VL and HL, as shown in FIG. In order to connect, the second switch 32 and the third switch 34 are connected to the external power source E, and the switches 36 and 40 are connected. At this time, the switches 38 and 42 are not connected.

In addition, the first switch 30 is connected to the external power source B + to connect the power source B + to the common terminal C.

As a result, since the same power source E is connected to both terminals VL and HL of the second electric motor 62 that controls the horizontal movement, there is no horizontal movement and the first electric motor 60 that controls the vertical movement. Since the power supply E is connected to the terminal VL and the power supply B + is connected to the common terminal C, the first electric motor 60 drives the outer mirror downward.

Next, when a selection input for directing the driver's outside mirror to the right is input to the mirror adjustment switch 50, as shown in the accompanying FIG. 4, the power supply B + to the terminal VL and the common terminal C is shown. ), The first switch 30 and the second switch 32 are connected to the external power source B +, and the switch 36 is connected. In addition, in order to connect the power source E to the terminal HL, the third switch 30 is connected to the external power source E, and the switch 40 is connected. At this time, the switches 38 and 42 are not connected.

As a result, since the same power source B + is connected to both terminals VL and C of the first electric motor 60 that controls the vertical movement, there is no vertical movement and the second electric motor 62 that controls the horizontal movement. Since the power source B + is connected to the terminal VL and the power source E is connected to the terminal HL, the second electric motor 62 drives the outside mirror to the right.

On the contrary, when the selection input for directing the driver's outside mirror to the left is input to the mirror adjustment switch 50, the first switch 30 to connect the power supply E to the terminal VL and the common terminal C. ) And the second switch 32 are connected to the external power source E, and the switch 36 is connected. In addition, the third switch 30 is connected to the external power source B + and the switch 40 is connected to connect the power source B + to the terminal HL. At this time, the switches 38 and 42 are not connected.

As a result, since the same power source E is connected to both terminals VL and C of the first electric motor 60 that controls the vertical movement, there is no vertical movement and the second electric motor 62 that controls the horizontal movement. Since the power source E is connected to the terminal VL and the power source B + is connected to the terminal HL, the second electric motor 62 drives the outside mirror to the left.

Similarly, the tidal-side outside mirror is connected to the terminals VR, HR and the common terminal C of the third electric motor 64 that controls the vertical movement and the fourth electric motor 66 that controls the horizontal movement. The external power source B +, E is controlled by using the first switch 30, the second switch 32, the third switch 34 and the switches 36, 38, 40, and 42, and is shown in FIG. By making such a connection, the direction of the tidal-side outside mirror can be controlled.

Since the switches 30, 32, and 34 for controlling power in the mirror adjustment switch 50 are configured in a three-contact manner as described above, even if the mirror adjustment switch 50 is selected in a diagonal direction by the user, at least one contact point is used. At the same time, a malfunction such as being connected is not generated.

As described above, in the embodiment of the present invention, by configuring the mirror adjustment switch 50 in the three-contact system (30, 32, 34), it operates stably at any user's choice, and also reduces the number of switches It is possible to provide an outside mirror adjusting circuit which reduces the number of times.

Claims (4)

A mirror adjustment switch connected to an external power source and configured in a three-contact manner to control and output the external power source according to a user's selection; And an electric motor that receives the power output by the mirror adjustment switch and drives the outside mirror. The apparatus of claim 1, wherein the mirror adjustment switch comprises: a first switch, a second switch, a third switch for selecting and outputting one of the external power sources; A fourth switch and a fifth switch for intermittently outputting power output from the second switch; And an sixth switch and a seventh switch for intermittently outputting power output from the third switch and a seventh switch. The electric motor of claim 2, wherein the electric motor includes a first electric motor having one terminal connected to a power output from the fourth switch and the other terminal connected to a power output from the first switch, and the sixth switch. A second electric motor having one terminal connected to the power output from the second power source and the other terminal connected to the power supply, and one terminal connected to the power output from the fifth switch and the other terminal connected to the common terminal. 3. An outside mirror adjustment circuit, wherein a terminal is connected to an electric motor and a power source output from the seventh switch, and the other terminal is connected to the power source. The outside mirror adjustment circuit of claim 3, wherein the first electric motor and the third electric motor control vertical movement, and the second electric motor and the fourth electric motor control horizontal movement.