KR200142261Y1 - Switch apparatus - Google Patents

Abstract

By uniting the contact portion, it is possible to provide a switch device that can be easily changed at a low cost and a low cost, and to provide a leaf switch having a good space factor and reliably avoiding poor conduction due to dust adhesion.

The box body 2 made of synthetic resin, the press-operated chip-shaped switch module 3 provided at a plurality of places on the inner bottom of the box body 2, and the switch module 3 are electrically connected to the box body 2 And a rotor (5) rotatably supported by the box body (2) to drive the switch module (3), and the switch (3) on the rotor (5). The cam part 5a incorporated in the operation part 3a of the is provided.

Description

Switch device

1 is a cross-sectional view of a rotary switch according to a first embodiment of the present invention.

2 is a cross-sectional view of a push switch according to a second embodiment of the present invention.

3 is a cross-sectional view of a slide switch according to a third embodiment of the present invention.

4 is a cross-sectional view of a lever switch according to a fourth embodiment of the present invention.

5 is a perspective view showing a leaf switch according to a fifth embodiment of the present invention.

6 is a perspective view showing a conventional example.

* Explanation of symbols for main parts of the drawings

1: terminal 2: box body

2a: device mounting part 3: switch module

3a: control panel 5: rotor (actuator)

5a: cam portion 6: operator

8: Slider (actuator) 8a: Cam part

10: operating lever 11: elastic working piece (actuator)

12,13: leaf spring 1a, 1b: terminal

14: expectation (gas)

The present invention relates to a switch device such as a push switch capable of switching in a plurality of places, a slide switch, a rotary switch, or a leaf switch in which switching is performed by conducting or releasing a pair of leaf springs.

In the conventional switch device of this type, the fixed contact points provided at a plurality of places of the inner wall of the box body are connected to the terminals, and the movable contacts fixed to the movable members such as sliders and rotors are contacted and separated from these fixed contacts. Switching can be performed at a plurality of locations depending on the operation position of the movable member. That is, in the case of a push switch or a slide switch, a movable contact is provided on a slider integrated with the operator, and the slider is slid in the box body. In the case of a rotary switch, a movable contact is provided on a rotor integral with the operator and the rotor By rotating in the box body, the relative position of the movable contact with respect to the fixed contact is changed to switch on and off. In addition, in the case of a lever switch, the operation lever supported by the box body to be able to rotate axially drives the slider which provided the movable contact, and switching is performed.

In the case of the leaf switch, as shown in Fig. 6, the base of the synthetic resin (101), a pair of leaf springs (102, 103) of both conduction opposite to each other and mounted on the base (101), and the plate springs (102, 103) are electrically connected to each other and are below the base (101). A pair of terminals 104 and 105 protruding from each other is provided, and these are integrated by insert molding. In this conventional example, since the driving body 106 is fixed to the free end of one leaf spring 102 and the convex contact 103a is provided at the free end of the other leaf spring 103. When the operating member (not shown) presses the driving body 106 toward the convex contact 103a, the switch is connected between both terminals 104 and 105 at the time when the leaf spring 102 is bent to contact the convex contact 103a. By the bending of the leaf spring 103 which is turned on and press-fitted through the leaf spring 102, good operability at the time of overstroke or stability of conduction can be ensured. Moreover, when the press-fitting operation force of the said operation member with respect to the drive body 106 is removed, each leaf spring 102 and 103 which were bent returns to an original upright shape by its elasticity, and the leaf spring 102 is convex. Apart from the contact 103a, the conduction between both terminals 104 and 105 is released and returns to the switch-off state.

However, in the above-described conventional switch device, if the arrangement of the contact portion is changed or the number of circuits is increased or decreased, the fixed contact is changed while the installation position or the number of installation of the movable contact to the movable member such as the slider or the rotor is changed. In addition, since the mold of the box body to be molded by inserting the terminal must be changed, a new equipment investment including a corresponding design time and mold value is made, and the slide switch is changed to a rotary switch. In the case of changing the design, the switch had to be designed and operated as a completely different switch device even though the basic structure of the contact part was the same. That is, the above-described conventional switch device has a drawback in that its structure is expensive due to a design change.

In addition, in the conventional leaf switch, since contact portions (convex contact 103a, etc.) for contacting and separating the leaf springs 102 and 103 are exposed to the outside, it is easy to generate conduction defects due to adhesion of dust, and high reliability. It was hard to get.

Therefore, conventionally, as shown by the dashed line in FIG. 6, a leaf switch that surrounds the leaf springs 102 and 103 with the cover member 107 made of synthetic resin or the like is widely employed. Since the outer shape becomes large, there is a disadvantage in that the space factor deteriorates. In addition, since the cover member 107 requires an opening 107a for inserting and removing the operation member, dust may enter through the opening 107a. There was concern.

The present invention has been made in view of the problems of the prior art, and its object is to provide a switch device that can be easily changed at a low cost and at a low price, and to reliably avoid conduction defects due to dust adhesion. A space factor is also provided to provide a good leaf switch.

The object of the present invention described above is a gas made of synthetic resin, a pressurized chip type switch module disposed on the base, a terminal connected to the switch module and protruding to the lower portion of the base, and the gas in an operating state. It is achieved by having an actuator supported on and driving the switch module.

According to the above means, the chipped micro switch module can function as a contact portion, so that movable members such as a slider or a rotor are unnecessary actuators, and the contact portion can be simply considered by considering the arrangement and number of the switch modules. Can be specified. In addition, if the cam part of the actuator is retracted from the operation part of the switch module to drive the operation part, even if the operation direction of the actuator and the operation direction of the switch module are different, it does not cause a problem, and thus the design freedom is impaired. There is no work. Therefore, if a small switch module can be provided in each of the inner wall portions of the box body in advance, and a plurality of them are appropriately selected as a contact portion for actually mounting the switch module, the switch device can be changed in arrangement or circuit of the contact portion. The increase and decrease of numbers can be carried out very easily. In the case of the leaf switch, the elastic actuation piece is bent to press the operating portion of the chipped switch module to conduct a pair of leaf springs, and when overstroke, both leaf springs can be bent through the switch module. By operating the switch module as a contact portion, the operating characteristics required for the leaf switch can be secured. Since the switch module is almost sealed inside, there is no fear of conduction failure due to adhesion of dust. Therefore, there is no need to install a cover member separately.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 is a cross-sectional view of a rotary switch according to a first embodiment of the present invention, a box body 2 made of synthetic resin integrated with a plurality of terminals 1 by insert molding, and an inner bottom of the box body 2; A chipped switch module 3 of a press-operated type installed in a plurality of places, a rotor 5 freely supported by the box body 2 via a support shaft 4, and integrated into a central portion of the rotor 5; It is mainly comprised by the operator 6 which protrudes upwards of the box body 2, and the cover body 7 which consists of metal plates, etc., and the operation part of the switch module 3 is provided in several places of the bottom surface of the rotor 5; The cam part 5a for entraining in 3a is provided. In addition, on the inner bottom surface of the box body 2, conduction with the terminal 1 protruding downward is secured in advance, and element mounting portions 2a in which the switch module 3 can be surface mounted are prepared in each place. Although the switch module 3 is actually surface-mounted in some of them, the remaining element mounting portion 2a is left empty. In addition, the switch module 3 used here has a known structure in which the upper surface side operation part 3a is free to move up and down, and switching from off to on state is carried out by press-fitting this operation part 3a. It is extremely small, about 2mm × 2mm.

In the rotary switch having the above configuration, when the rotor 5 is rotated in the box body 2 through the operator 6, each cam part 5a is entrained in the corresponding micro switch module 3, so that each switch module 3 ) Is in an on state when the operating part 3a is press-fitted into the cam part 5a, and in an off state when the cam part 5a is detached from the operating part 3a, and therefore, at a plurality of places corresponding to the rotation angle of the rotor 5. Switching is performed. That is, since the rotary switch is a contact portion in which a plurality of micro switch modules 3 provided on the inner bottom of the box body 2 are united, the rotor 5 drives the switch module 3. It is sufficient to function as an actuator, and there is no need to provide a movable contact to the rotor as in the prior art.

In this way, the above embodiment uses a very small switch module 3 that can be handled as a united switch element, selects a few of the element mounting portions 2a in the box 2, and selects the switch module ( By attaching 3), since the switch module 3 functions as a contact portion of the apparatus, it is a rotary switch that can easily change the arrangement of the contact portion and increase or decrease the number of circuits.

In the above embodiment, since the cam portion 5a is provided in the rotor 5 which is the actuator, even if the operating direction of the rotor 5 is perpendicular to the operating direction of the switch module 3, The operation part 3a can be driven smoothly.

In addition, the switch device in which the micro switch module 3 is provided as the contact portion as in the above embodiment can use the common switch module 3 for the contact portion as it is even when the operation method is changed. There is no waste in the manufacturing step, and the operation method can be changed relatively easily.

2 is a cross-sectional view of a push switch according to a second embodiment of the present invention, where reference numeral 8 in the figure denotes a slider having a cam portion 8a provided at the bottom thereof, reference numeral 9 denotes a return spring, and a portion corresponding to that of FIG. I add a sign.

That is, this push switch integrates the ultra-compact switch module 3 provided in the several place of the inner bottom face of the box body 2 with the slider 8 which slides freely in the box body 2, When the operator 6 protruding outward is press-fitted against the repulsive force of the return spring 9, the cam part 8a is entrained by the operation part 3a of each switch module 3, and it can switch on / off. Therefore, switching can be performed at a plurality of locations corresponding to the amount of press-in of the operator 6.

3 is a cross-sectional view of a slide switch according to a third embodiment of the present invention, which is a microminiature that is a contact portion by the cam portion 8a of the slider 8 that is freely slideable in the box body 2 as in the second embodiment. By driving the switch module 3, the operator 6, which is integrated with the slider 8 and protrudes upward of the box 2, reciprocates in the left and right directions in the long hole 7a of the lid 7. It is possible.

4 is a cross-sectional view of a lever switch according to a fourth embodiment of the present invention, in which the operating lever 10 supported on the box body 2 in an axial rotation direction is rotated clockwise against an elastic force of the return spring 9. In the direction of rotation, the slider 8 which protrudes the press part 8b in several places of the bottom face descend | falls inside the box 2, and when each operation lever 10 rotates a predetermined amount, each pressure The pressure section 8b is configured to drive the micro switch module 3 serving as the contact section.

5 is a leaf switch according to a fifth embodiment of the present invention, comprising: an elastic operation piece 11 made of a metal plate or the like driven by an operation member (not shown) on a base 14 made of synthetic resin to elastically deform, and this elasticity A pair of positively conducting leaf springs 12, 13 extending with a predetermined gap G in a plane substantially parallel to the operating piece 11 are installed, and each leaf spring 12, A pair of terminals 1a and 1b connected to 13 protrude downward from the base 14, and these are integrated by insert molding. The free ends of the pair of leaf springs 12 and 13 are electrically and mechanically connected by a pressurized chip type switch module 3, and the operation unit 3a of the switch module 3 is connected. Is opposed to the elastic operation piece 11. In addition, a drive body 15 which is directly driven by the operation member is fixed to the free end of the elastic operation piece 11. In addition, the switch module 3 used here is almost sealed inside by the casing 3b and the free operation part 3a, and it is well-known that it can switch contact from off to on by press-in this operation part 3a. It is extremely small in structure and its external dimension is about 2 mm x 2 mm.

In the leaf switch having the above-described configuration, when the operation member (not shown) presses the driving body 15 and the elastic operation piece 11 is bent toward the micro switch module 3 side, the operation part 3a of the switch module 3 is moved. Since the contact is pushed into the elastic operation piece 11 and the contact is switched from off to on, it is switched to the switched-on state where both terminals 1a and 1b are conducted via the leaf springs 12 and 13, By bending of both leaf springs 12 and 13 pressed into the elastic actuation piece 11 via the switch module 3, good operability during overstroke and stability of conduction are ensured. Moreover, when the press-in operation force of the said operation member with respect to the drive body 15 is removed, the curved elastic operation piece 11 and both leaf springs 12 and 13 will return to original original shape by its elasticity. The elastic actuating piece 11 is separated from the operation part 3a of the micro switch module 3 so that the switch module 3 is automatically returned from on to off, and thus the conduction between both terminals 1a and 1b is released. To switch off. That is, the leaf switch functions as a contact part of the ultra-small switch module 3 unlike the conventional product which performs switching by separating the leaf springs from each other. However, the operation characteristics as the leaf switch are not damaged. You can do the same thing as

Since the inside of the micro switch module 3, which is the contact portion, is almost sealed, the leaf switch is not likely to cause a poor conduction due to adhesion of dust. Therefore, the cover member is separately provided as in the conventional case. There is no need, and large size can be avoided, and the space factor is favorable. In addition, in the case of the cover member, there is a concern that dust may enter through the opening for inserting and removing the operation member, but in the case of the switch module 3, the reliability is further increased.

In addition, since the elastic operation piece 11 is for pressing-driving the operation part 3a of the switch module 3, even if it forms with elastic materials other than a metal plate, it does not interfere.

As described above, according to the present invention which functions a chipped switch module of a pressure-operating type as a contact portion, the movable member such as a slider or a rotor is an actuator that does not require a movable contact, and only the arrangement or number of switch modules is considered. Since the contact part can be defined, the arrangement of the contact part can be easily changed, the number of circuits can be increased or decreased, and even when the operation method is changed, a common switch module can be used as it is for the contact part. It is possible to provide a switch device with little waste, and thus a simple design change and low cost. In addition, if the cam part of the actuator is driven to the operating part of the switch module to drive the operating part, even if the operating direction of the actuator and the operating direction of the switch module are different, the design freedom is not impaired.

In addition, in the case of a leaf switch electrically and mechanically connected between a pair of leaf springs by a chipped switch module of a press-operation type, the switch module functions as a contact portion, thereby securing the operating characteristics required for the leaf switch. As a result, conduction defects caused by adhesion of dust and the like, which have been conventionally concerned at the contact portion, can be reliably avoided, and there is no need to provide a cover member separately, and the space factor is improved.

Claims (4)

A plurality of element mounting portions for selectively mounting switch elements, a base made of a synthetic resin having terminals protruding outwardly in contact with the element mounting portions, a modular switch element capable of switching on and off via an operating portion, and a movable state And an actuator which is held in the base to drive the operation portion of the switch element, and selectively switches the switch element at any of the element mounting portions to form a desired contact point. The switch device according to claim 1, wherein the base body is formed in a box body, and a switch module of a chipping operation type is provided in a plurality of places of the inner wall of the box body. The switch device according to claim 1, wherein the actuator is provided with a cam portion that is incorporated in an operation portion of the switch module. The method of claim 1, wherein the actuator is made of an elastic actuating piece that is driven by the operating member to elastically deform, and has a good conductivity which extends at a predetermined interval in a plane substantially parallel to the elastic actuating piece and the elastic actuating piece. At the same time, the pair of leaf springs are erected and installed, and a chipped switch module of a pressure operation type is electrically and mechanically connected between the pair of leaf springs, and the operation portion of the switch module is opposed to the elastic actuating piece. Switch device, characterized in that.