KR100514876B1 - A structure and an operating method of switch using damping - Google Patents

Abstract

The present invention relates to a switch structure using a damping force and a method of operation thereof, the configuration of which comprises: a switch operation unit for switch operation; A switch body manufactured integrally with the switch operation unit and including first and second moving contact parts; First and second fixed contact parts which come into contact with the first and second moving contact parts of the switch main body by manipulation of the switch operation part; A first spring positioned between the first fixed contact portion and the first moving contact portion to induce a repelling force, and a second spring positioned between the second fixed contact portion and the second moving contact portion to induce a repulsive force; And a damping part positioned between the first and second springs to cause a damping effect.

Description

Switch structure using damping force and its operation method {A structure and an operating method of switch using damping}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switch structure using damping force and a method of operating the same. More particularly, the damping and spring coefficients are mechanically included in the switch to provide a damping and spring coefficient. The present invention relates to a see-saw type switch structure using a damping force capable of adjusting the switch contact time by adjustment.

1 is a conceptual diagram illustrating an operation of a mechanism part using a conventional in-vehicle switch.

As shown in Fig. 1, in the related art, the switch 2 signal is controlled by the output unit through the control unit 4 so that the operation of the mechanism part is determined. That is, it is a direct drive system of the mechanism part via the switch 2. The mechanism consists of an actuator 8 and a circuit 6 for protecting it. As the protection circuit 6, a relay or a circuit breaker or a limit SW is used.

As described above, conventionally, a separate control means and a circuit for protecting the actuator of the mechanism part are required. In addition, since the short circuit state is always maintained basically in the mechanism part of the conventional switch structure, there is a problem that the possibility of generating a dark current is high.

The present invention has been made to solve the problems of the prior art, the object of the present invention is to include a damping and spring function mechanically in the see-saw type switch (see-saw type) of the damping and spring coefficient The present invention provides a switch structure using a damping force that prevents generation of dark current and simplifies the switch structure by adjusting a switch contact time, that is, a short or open state of a circuit by adjusting, and a method of operating the same.

The present invention for achieving the above object,

A switch operation unit for switch operation;

A switch body manufactured integrally with the switch operation unit and including first and second moving contact parts;

First and second fixed contact parts which come into contact with the first and second moving contact parts of the switch main body by manipulation of the switch operation part;

A first spring positioned between the first fixed contact portion and the first moving contact portion to induce a repelling force, and a second spring positioned between the second fixed contact portion and the second moving contact portion to induce a repulsive force; And

Located between the first and second springs, it is composed of a damping portion for causing a damping effect.

The present invention includes a damping and spring function mechanically inside the see-saw type switch, by adjusting the operation time of the switch by adjusting the damping and the spring coefficient of the mechanism portion It is a switch using the damping force to adjust the operation time. Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

Example

The concept of the technical idea according to the present invention is as shown in FIG.

As shown in FIG. 2, the switch 12 according to the present invention is driven by one touch, and includes a protection circuit function included in a conventional control means and a mechanism to protect the actuator. I am equipped mechanically. That is, the switch 12 is mechanically damped and has a spring function.

In addition, in driving the actuator 18 of the mechanism part, it is possible to adjust the contact time of the switch 12 by adjusting the damping coefficient and the spring coefficient inside the switch 12 according to the present embodiment. Therefore, the contact state of the switch is maintained only during the operation request time of the mechanism, so that the short circuit state is maintained, and after the operation request time, the switch is in an open circuit state.

As described above, the switch according to the present invention has a damping and spring function mechanically. Thus, as shown in Figure 3a, the switch according to the present embodiment is to adjust the contact time of the switch mechanically by adjusting the damping coefficient (c) and the spring coefficient (k). Here, the damping coefficient (c) is for adjusting the operation feeling and contact time of the switch, the spring coefficient (k) is for adjusting the operating force of the switch. Figure 3a shows this as modeling.

The conceptual diagram of the operation (contact change) of the switch controlled by the adjustment of the damping coefficient c is shown in FIG. 3B.

As shown in Fig. 3B, after the operation request time of the mechanism part is adjusted by adjusting the damping coefficient c, the circuit state is switched from the short state to the open state. That is, the circuit state is changed by changing the contact state between the fixed contact portion 15 and the movable contact portion 25 of the switch. This means that the contact time in the short state is maintained by the adjustment of the damping coefficient c, and the change of the contact from the short state to the open state is caused by the movement of the movable contact portion 25 by the force of the spring (repulsive force). Will be open. Hereinafter, a detailed structure of a switch and its operation according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

4 is a structural diagram of a switch according to the present invention.

As shown in Figure 4, the switch according to the invention

A switch operation unit 20 for operating a switch;

A switch body 22 manufactured integrally with the switch operation unit 20 and including first and second moving contact parts 26a and 26b;

First and second fixed contact parts 24a and 24b in contact with the first and second moving contact parts 26a and 26b of the switch main body by operation of the switch operation part 20;

A first spring 30a positioned between the first fixed contact portion 24a and the first moving contact portion 26a and causing a repulsive force; and the second fixed contact portion 24b and the second moving contact portion ( A second spring 30b positioned between 26b) to induce a repulsive force; And

The damping unit 29 is disposed between the first and second springs 30a and 30b and includes a damping plate 28 for causing a damping effect.

In the above, the switch operating unit 20 and the switch body 22 is characterized in that connected by the hinge (25).

Hereinafter, the operation of the switch structure according to the present invention will be described with reference to FIG. 4 with reference to FIG. 5.

When the left side of the switch operation unit 20 is pressed [S10], the switch main body 22 formed integrally with the switch operation unit 20 by the hinge portion 25 rotates CCW, that is, counterclockwise. This means that the switch main body 22 moves to the right [S20].

As the switch main body 22 moves, the first moving contact portion 26a and the first fixed contact portion 24a come into contact with each other [S30], and thus the circuit state is shorted to drive the motor. Lose [S40]. In the above, the state of the circuit is initially maintained in the short circuit state only by the contact time set by the damping coefficient c.

In addition, the first moving contact portion 26a and the first fixed contact portion 24a are caused by the repulsive force caused by the first spring 30a and the damping effect of the damping portion 29 including the damping plate 28. Initially, after the contact time set by the damping coefficient (c) has elapsed, the contact with each other drops. Therefore, the circuit state is switched from the short state to the open state [S50].

On the other hand, when the right side of the switch operation unit 20 is pressed in reverse to the above, the hinge main body 25 rotates the switch main body 22 CW, that is, the clockwise direction, and the switch main body 22 moves to the left. Done.

Accordingly, the second moving contact portion 26b and the second fixed contact portion 24b come into contact with each other, thereby driving the motor in the opposite direction to the above. After driving of the motor, the principle that the contact between the second moving contact portion 26b and the second fixed contact portion 24b is reduced by the damping effect of the damping portion 29 and the repulsive force of the second spring 30b. As described.

In interpreting the technical scope of the present invention, it should not be construed as being limited to the embodiments described above, but the technical scope of the present invention should be determined by reasonable interpretation of the matters described in the claims.

According to the switch structure using the damping force of the present invention and its operation method, it is possible to use universally according to the operation request time for each item unless precise control is required, and the switch mechanism part is simplified compared to the conventional switch structure. In addition, it is possible to control the operation circuit state to prevent the generation of dark current after the operation.

1 is a conceptual diagram of a mechanism operation through a conventional switch.

2 is a conceptual view of the mechanism operation through the switch according to the present invention.

3a is a schematic structural diagram of a switch according to the present invention;

Figure 3b is a view for explaining the change of contact point of the switch according to the present invention.

4 is an overall configuration diagram of a switch according to the present invention.

5 is an operational flowchart of a switch according to the present invention.

<Description of Drawing>

2,12 switch 4 control means 6 protective circuit

8,18 Actuator 20 Switch control panel 22 Switch body

24a 1st fixed contact part 24b 2nd fixed contact part 25 Hinge part

26a 1st moving contact part 26b 2nd moving contact part 28 Damping plate

29 Damping section 30a First spring 30b Second spring

Claims (6)

In the switch structure using the damping force, A switch operation unit for switch operation; A switch body manufactured integrally with the switch operation unit and including first and second moving contact parts; First and second fixed contact parts which come into contact with the first and second moving contact parts of the switch main body by manipulation of the switch operation part; A first spring positioned between the first fixed contact portion and the first moving contact portion to induce a repelling force, and a second spring positioned between the second fixed contact portion and the second moving contact portion to induce a repulsive force; And Located between the first and second springs, the switch structure using a damping force consisting of a damping portion for causing a damping effect. The method of claim 1, Switch structure using a damping force, characterized in that the switch operation unit and the switch body is connected to the hinge portion. The method of claim 1, The switch structure using a damping force, characterized in that the see-saw type switch (see-saw type). In the operation of the switch structure using the damping force, An operation step of the switch operation unit; Moving the switch main body by operation of the switch operation unit; Contacting a moving contact portion and a fixed contact portion by the movement of the switch main body; Driving the motor by contact with the movable contact portion and the fixed contact portion; And Method of operating a switch structure using a damping force characterized in that the step of the contact between the movable contact portion and the fixed contact portion after the drive of the motor is made for a set time. The method of claim 4, wherein Method of operation of the switch structure using the damping force, characterized in that the contact time between the movable contact portion and the fixed contact portion is made by adjusting the damping coefficient. The method of claim 4, wherein The movable contact portion and the fixed contact portion is a method of operating a switch structure using a damping force, characterized in that the contact falls by the repulsive force of the spring and the damping effect of the damping portion.