KR930000695Y1 - Push botton switch - Google Patents

Abstract

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Description

Push switch

1 is a cross-sectional view of the main portion of the push switch of the present invention.

2 is a cross-sectional view of a main portion in the lateral direction of the push switch of FIG.

3 is a cross-sectional view of main parts of a conventional push switch.

* Explanation of symbols for main parts of the drawings

12: membrane switch 13: case

13a: (first) protrusion 14: key top

14a: operation member 15: perturbation member

16, 17: coil spring

The present invention relates to a push switch of a keyboard used for a personal computer, a word processor, and the like, and particularly aims to obtain a push switch having good operability.

This type of conventional push switch will be described with reference to FIG. In the figure, 1 is a reinforcement plate made of metal or the like, and a membrane switch (thin film switch) 2 is placed on the reinforcement plate 1. The membrane switch 2 is comprised by the upper sheet 2b which has the movable contact 2a, and the lower sheet 2d which has the stationary contact 2c. The case 3 is placed on the membrane switch 2, and the case 3 is provided with a first protrusion 3a and a second protrusion 3b formed in a ring shape, and the first protrusion 3a. The operating member 4a of the key top 4 is perturbably positioned on the inner wall 3c of the head), and the engagement pawl provided at the lower end of the operating member 4a has a first protrusion 3a. (Not shown), the engagement pols perturb the inside of the notch, and the operation member 4a is configured to perturb the inner wall 3c in the vertical direction.

Moreover, the coil spring 5 is interposed between the flat surface 3d of the case 3 and the lower surface of the key top 4 so that it may be located around the 1st projection part 3a. In addition, a coil spring 6 for tightly fitting in the operation member 4a and pressing the movable contact 2a of the membrane switch 2 is provided. In addition, although not shown in FIG. 3, the notch is provided in the 2nd protrusion part 3d of the direction orthogonal to FIG. 3, and the key top 4 is provided by installing the engagement fool provided in the keytop 4 in the notch. It is preventing the escape to the upper part.

When the key top 4 is pressed against the elastic force of the coil spring 6 under the above configuration, the outer circumferential portion of the operation member 4a perturbs the inner wall 3c of the case 3 downward. The lower end of the coil spring 5 provided as a strong fit inside the operating member 4a presses the upper site 2b of the membrane switch 2 so that the movable contact 2a comes into contact with the stationary contact 2c. Is turned ON. Thereafter, when the pressing of the key top 4 is released, the coil spring 6 returns to its original state by the elastic return force of the coil spring 6.

However, in recent years, a small and thin keyboard has been required, and the push switch itself has to be made thinner.

Therefore, in constructing the thin push switch, it is required to secure the pressure stroke of the push switch to a certain extent (3-4 mm).

In this case, for each component, the thickness of the key top 4 is b, the amount of movement of the key top 4 is S, the length of the engagement portion (not shown) of the case 3 and the key top 4 is a, When the thickness of the reinforcement board 1 and the membrane switch 2 is c, it becomes height of H as a whole.

The length a of the engagement portion is a = H- (2S + b + c), the length b of the key top 4, the shift amount S of the key top 4, and the membrane switch 2 Since the thickness c between the and guarantee plate 1 is substantially constant depending on the molding conditions, the component configuration, and the like, the dimension of the engaging portion a must be made small and the thickness must be reduced.

However, if the length a of the engaging portion is shortened, when the end A of the key top 4 is pressed, the lower end portion of the operating member 4a of the key top 4 is formed in the first case of the case 3. There existed a problem that it caught on the inner surface of the projection wall 3a, and the press operation worsened.

Accordingly, an object of the present invention is to obtain a push switch having a good pressure feel by solving the above technical problem.

In order to solve the above technical problem, the present invention provides a case, a key top installed in the case, a coil spring interposed between the case and the key top and forcing the key top upward, and an operation member of the key top. In a push switch having a contact portion provided at a position opposite to a spring member provided at the upper portion, the operation member perturbs the protrusion inner wall of the case by pressing the key top, and the contact portion is pressed by the spring member. The perturbation member is interposed between the operation member of the key saw and the projection wall of the case, so as to be freely perturbed between the operation member, the perturbation member, and the perturbation member and the projection wall.

Therefore, the present invention interposes the perturbation member between the operation member of the key saw and the first projection wall of the case, so that the height of the push switch is compared with the case where the vibrating member is not installed and the perturbation member is installed. In the same configuration, the length of the engaging portion between the key top and the perturbation member or the perturbation member and the case can be increased by about 1/2 of the moving amount.

Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 and 2.

1 is a sectional view showing the main part of the push switch of the present invention, and FIG. 2 is a sectional view of the main part of the push switch of FIG.

In the figure, the coil spring for adding the reinforcement plate 11, the membrane switch 12, the case 13, the key top 14 having the operation member 14a, and the key top 14 upward in an initial state. (16) The point provided with the coil spring 17 provided by lowering in the operation member 14a of the key top 14 is the same as that of the prior art, The feature of this specification is the following structure.

That is, a perturbation member is provided between the operation member 14a of the key top 14 and the first projection wall 13a of the case 13. The engagement column 14b is provided in the lower end part of the operation member 14a of the key top 14, and this system containment 14b is comprised so that the inside of the notch groove 15a of the perturbation member 15 can be perturbed. . An escape preventing part 15b is installed at the upper end of the perturbation member 15 to prevent escape upward of the system containing port 14b, and an escape preventing part of the first protrusion wall 13a of the case 13 is provided at the lower end of the perturbation member 15. The engagement fool 15c engaged with the 13b is provided, and the engagement fool 15c is configured to be perturbed within the cutout groove 13c of the first projection wall 13a. A pair of locking pieces 14c are provided below the key top 14 and are located at the cutouts 13e of the second projection wall l3d to escape upward of the key top 14. Is preventing.

When the key top 14 is pressed under the above configuration. The key top 14 moves downward in opposition to the spring pressure of the coil spring 16 for upward biasing. At this time, the engagement column 14b of the operating member 14a moves downwardly in the cutout groove 15a of the sliding member 15, and the lower surface 14d of the key top 14 is placed on the upper surface of the perturbation member 15. When abutting, this time, the engagement column 15c of the perturbation member 15 moves in the notch groove 13c. Thus, the outer circumferential surface of the operating member 14a perturbs the inner circumferential surface of the perturbation member 15, and the outer circumferential surface of the perturbation member 15 perturbs the inner circumferential surface of the first protrusion wall 13a of the case 13. The upper sheet 12b of the membrane switch 12 is pressed by the lower end of the coil spring 17 provided on the operation member 14a, so that the movable contact 12a is in contact with the fixed contact 12c so that the switch is turned on. do. At the same time, the lower surface 14d of the key top 14 abuts on the upper surface of the first projection wall 13a. When the pressing of the key top 14 is released, it returns to the original state by the elastic restoring force of the coil spring 16. FIG. Therefore, as for the structure of this invention, compared with the case of the conventional structure, the thickness b of the key top 14, the thickness of the reinforcement board 11, and the membrane switch 12 becomes C, and is the same as the conventional one, The differences will be explained.

That is, since the movement amount which the lower surface 14d of the key top 14 abuts on the upper end of the first projection wall 13a is represented by S, the lower surface 14d of the key top 14 and the perturbation member 15 are shown. The upper surface of the top surface and the distance between the upper surface of the perturbation member 15 and the first projection wall 13a are expressed as, for example, 1 / 2S, and the lower surface and the perturbation member of the operation member 14a of the key saw 14 are shown. The distance between the lower surface of (15) and the lower surface of (15) and the case 13 is 1 / 2S, and the distance between the upper surface of the first projection wall 13a and the lower surface of the perturbation member 15 When the length of the joining portion is set to E, the height of the entire push switch is H = 3 / 2S + b, so that b = H-3 / 2S.

On the other hand, the conventional push switch has H = 2S + a and a = H-2S (where, however, the thickness b of the key top l4, the thickness C of the reinforcing plate 11 and the membrane switch 12). ) Is the same as in the prior art and the constitution of the present invention, so that it is excluded from the calculation formula).

Here, the difference between the conventional configuration from the configuration of the present invention Becomes

Therefore, in the structure of this invention, when the height H of a prior art example and a push switch is comprised by the same dimension, compared with the conventional engaging part a, the engaging part b is compared. It can be configured as large.

Therefore, when the moving amount is 3 mm, for example, the conventional engagement portion a can be made 1.5 mm long, and even when the end portion of the key top 14 is pressed, the key top 14 is tilted and pressed. none.

As described above, in the push switch of the present invention, since the perturbation member 15 is interposed between the case 13 and the key top 14, the height of the conventional push switch and the amount of movement of the push switch are the same. In this case, the length of the engagement portion can be secured by about one half of the moving amount, and even when the end portion of the key top 14 is pressed, the key top 14 is not biased (squeaked) and pushed. The press feeling of the switch becomes good.

Claims (1)

A key spring provided in the case, a coil spring interposed between the case and the key top to force the key top upward, and a contact portion provided at a position facing the spring member provided in the operation member of the key top. And a push switch having a structure in which the operation member perturbs the protrusion inner wall of the case by pressing the key top, and the contact portion is pressed by the spring member, between the operation member of the key top and the protrusion wall of the case. A push switch, characterized in that the perturbation member is freely configured between the operation member, the perturbation member, and the perturbation member, and the projection wall via the perturbation member.