JPH069402Y2 - Switch mechanism - Google Patents

Description

TECHNICAL FIELD The present invention relates to a switch mechanism used for audio equipment and the like, and more particularly to a switch mechanism using a switch that is operated by turning an operation lever.

[Prior Art] Conventionally, as a switch mechanism using such a rotating type operation lever, for example, there is a mechanism as shown in FIGS. 5 and 6.

First, as shown in FIG.
A tact switch 2 is provided at the location. An operation lever 4 is provided in front of the tact switch 2 so as to be vertically rotatable by a support shaft 3. The operation lever 4 has a switch pressing portion 4a for pressing the tact switch 2 at two upper and lower positions on the back surface thereof, and an operation portion 4b protruding forward. An opening 5 is provided on the front surface of the operation lever 4.
A front panel 5 having a is arranged and attached to the switch substrate 1 by an attaching means (not shown). The operation portion 4b of the operation lever 4 is inserted into the opening 5a of the front panel 5 from its rear surface to the front surface, and projects forward. Here, the vertical dimension of the opening 5a is set so that the operating portion 4b can sufficiently operate. A rattling prevention sponge 6 is attached between the tact switch 2 and the switch pressing portion 4a.

Further, FIG. 6 is a diagram showing a usage example of such a switch mechanism.

[Problems to be Solved by the Invention] By the way, the conventional switch mechanism having the above configuration has the following drawbacks.

That is, since the support shaft 3 of the operating lever 4 is normally supported by the bearing portion provided on the rear surface of the front panel 5, the front panel 5 is displaced due to deformation during assembly or with time. In this case, since the relative position between the operation lever 4 attached to this and the tact switch 2 attached to the switch substrate 1 is displaced, there is a high risk of malfunction.

Further, in the switch mechanism shown in FIG. 5, the switch board 1, the two tact switches 2, the support shaft 3, the operation lever 4, the front panel 5, the rattling prevention sponge 6,
Since a large number of parts such as mounting means (not shown) for attaching the front panel 5 and the switch board 1 are used,
The number of parts is large and assembly workability is poor. In particular, in order to position the operation lever 4 with respect to the tact switch 2, it is necessary to attach the tact switch 2 to the switch substrate 1 and the front panel 5 to the switch substrate 1 with high accuracy. Workability is getting worse.

The above-mentioned drawbacks are not limited to the case where the contacts are provided on both sides of the operation lever, and are similarly present in the switch mechanism having the contacts on only one side of the operation lever.

The present invention has been proposed in order to solve the above-mentioned drawbacks of the prior art, and its object is to prevent relative displacement between the switch and the operating lever,
It is an object of the present invention to provide a switch mechanism which is excellent in operation stability, has a simple structure, and is excellent in assembling workability.

[Means for Solving the Problems] In the switch mechanism of the present invention, a supporting shaft portion is formed on the operating lever itself, and the supporting shaft portion is pivotally supported by a structure, and between the operating lever and the structure body. It is characterized in that a switch is arranged and the switch is pressed by the rotation of the operation lever.

That is, the present invention inserts the operation lever having the support shaft portion on one end side and the operation portion on the other end side and the switch pressing portion at the intermediate position between the support shaft portion and the operation portion, and the operation lever. And a structure having a first opening that has a second opening on the front side on the back side of the first opening in the structure and the support of the operating lever pushed from the second opening. A bearing portion for elastically receiving the shaft portion and axially supporting the shaft portion is formed. Further, between the bearing portion and the first opening, a switch pressing portion of the operating lever is supported while the operating lever is axially supported by the bearing portion. A pressed portion facing each other is formed, and a switch operated by the rotation of the operation lever is arranged between the switch pressing portion of the operation lever and the pressed portion of the structure, and is fixed to the operation lever or the structure. .

[Operation] In the present invention having the above configuration, the switch is arranged between the operation lever and the structure supporting the operation lever,
Since it is fixed to either one of them, there is no displacement between the operation lever and the switch, and the operation stability is excellent. Further, since the operating lever, the structure and the switch are only used, the structure is simple with a small number of parts. Furthermore, since the operation lever can be easily attached to the structure only by pressing and inserting the support shaft portion provided on the operation lever into the bearing portion of the structure, the workability in assembling is excellent.

[Embodiment] An embodiment of the switch mechanism according to the present invention will be specifically described below with reference to the drawings.

First, FIGS. 1 to 3 are views showing the operating lever 11, the flexible switch sheet 12, and the structure 13 used in this embodiment, respectively.

The operation lever 11 shown in FIGS. 1A to 1C has an elongated shape in the front-rear direction with a width dimension W ₁ , and a plane having a maximum thickness dimension (height dimension H) in the central portion. Part is formed,
Inclined surfaces are formed from this flat surface portion toward the front and rear ends having a small thickness. Then, a supporting shaft portion 11a having a diameter dimension φ is formed at the rear end portion, and the width dimension W thereof is
₂ is smaller than the width W ₁ of the main body. A pair of contact pressing portions (switch pressing portions) 11b are formed on the upper and lower inclined surfaces in front of the support shaft portion 11a. In the operation lever 11 having such a shape, the inclined surface in front of the central plane portion serves as the operation portion 11c.

Flexible switch sheet 12 shown in FIG. 2 (A)
Is a band having elasticity of the same width dimension W ₁ ′ as the main body of the operating lever 11, and a spindle through hole 12a having the same width dimension W ₂ ′ as the spindle portion 11a of the operating lever 11 is formed in the center. Has been done. Here, the width dimensions W ₁ and W ₂ are respectively attached with “′” to W ₁ ′ and W ₂ ′ because the dimensions are slightly modified in order to perform fitting without any trouble. Shows. Contact points 12 are provided on both sides of the support shaft through hole 12a.
b is provided and the distance L between the centers of the contacts 12b on both sides is L.
As shown in FIG. 1 (C), when the flexible switch sheet 12 is put on the operation lever 11, each contact 12
The center of b is set so as to face the center of each contact pressing portion 11b. Further, reference numeral 12b in the figure denotes a terminal portion connected to each contact. 2B and 2C show the contact 1
FIG. 2 is a diagram showing details of a portion 2b, in which a conductor 14c having elasticity is provided at an opposing portion of the print foils 14a and 14b arranged on both sides.
The contact 12b is closed by crimping. In the figure, 14d is an insulating layer and 14e is a surface coating layer.

The structure 13 shown in FIGS. 3A to 3C includes a bearing portion 13a that pivotally supports the support shaft portion 11a of the operation lever 11, and an opening portion (first opening portion) 13b into which the operation lever 11 is inserted. And have. An inclined surface is formed between the bearing portion 13a and the opening portion 13b, and this serves as a pressed portion 13c for the operating lever 11. A second opening 13d is provided on the front surface of the bearing portion 13a. The width W from the opening 13b to the bearing 13a is equal to the width W ₁ of the operating lever 11, and the opening 1
As shown in FIG. 1 (B), the depth dimension from the front surface of 3b to the center of the bearing portion 13a is equal to the dimension D from the flat portion of the operating lever 11 to the center of the support shaft portion 11a. . The inner diameter of the bearing 13a is the operating lever 1
The diameter φ ′ is equal to the diameter φ of the first support shaft portion 11a. In this case, the “′” attached to the dimension φ is the spindle 11
It is shown that the dimensions are slightly changed so that the fitting of “a” can be performed without any trouble. Further, the height dimension of the opening 13b is the dimension (H + S) obtained by adding the operation stroke S to the height dimension H of the operation lever 11.

The operation of this embodiment having the above configuration is as follows.

That is, when assembling the mechanism of the present embodiment, as shown in FIG.
The support shaft through hole 12 of the flexible switch sheet 12.
through a, insert into the opening 13b of the structure 13,
If the operation lever 11 is pressed at the stage of reaching the opening 13d, the support shaft 11a is fitted into the bearing 13a of the structure 13. In the present embodiment, the contacts 12b of the flexible switch sheet 12 can be obtained only by performing such work.
Can be aligned with the contact point pressing portion 11a of the operation lever 11 and does not require highly accurate alignment as in the prior art shown in FIG. 5, so the workability is remarkably improved.

Further, in the conventional technique shown in FIG. 5, there is a drawback in that the position shift occurs between the operation lever and the switch due to the position shift between the front panel that pivotally supports the operation lever and the switch substrate on which the switch is arranged. However, in this embodiment,
Structure 13 for pivotally supporting operation lever 11 and operation lever 11
Since the flexible switch sheet 12 is attached between and, there is no risk of misalignment and the operational stability is high.

Furthermore, this embodiment uses only three points, that is, the operation lever 11, the flexible switch sheet 12, and the structure 13. In particular, the structure 13 can be integrated with the front panel of the escutcheon, so that it is shown in FIG. Moreover, unlike the prior art, a large number of parts are not required, and the construction is greatly simplified.

In particular, when a switch is mounted on the switch board as in the conventional case, the work for mounting the switch on the switch board and the work for connecting the switch board to the main board of the device are required. In this embodiment using the sheet 12, as shown in FIGS. 4 (B) and 4 (C), wiring is performed only by the work of directly attaching the terminal portion 12c to the socket 16 of the main board 15 of the apparatus body. The workability is also improved in this respect.

Further, when the support shaft of the operation lever is formed as a separate member, bearings are required at both axial end portions of the support shaft, so that the width of the support shaft portion becomes large. Does not become larger than the width of the main body of the operation lever 11, so there is also an advantage that a multiple switch that is close in the width direction can be configured.

Furthermore, since the distance between the force point of the operation lever 11 and the fulcrum, that is, the distance between the operation portion 11c and the support shaft portion 11a can be increased, the force can be effectively used and the operation is easy.

It should be noted that the present invention is not limited to the above-mentioned embodiment, and for example, a configuration having a contact on only one side of the operation lever is also possible.

Further, the switch is not limited to the flexible sheet, and a general switch that operates by pressing can be used. In this connection, the switch pressing part for pressing the switch does not necessarily have to be a protrusion.
That is, the structure of the present invention can be freely changed as long as the switch disposed between the structure and the operation lever is operated by rotating the operation lever.

[Effect of the Invention] As described above, in the present invention, the operation lever itself is provided with the support shaft portion, and the support shaft portion is pivotally supported by the structure, and the switch is provided between the operation lever and the structure body. By arranging and pressing this switch by the rotation of the operating lever, there is no relative displacement between the switch and the operating lever, excellent operational stability, simple and easy to assemble. An excellent switch mechanism can be provided.

[Brief description of drawings]

FIG. 1 is a view showing an operating lever used in an embodiment of a switch mechanism according to the present invention, (A) is a front view and (B) is a view.
Is a plan view, (C) is a side view, and FIG. 2 is a view showing a flexible switch sheet used in the same embodiment,
(A) is a plan view, (B) is an enlarged cross-sectional view of the contact portion, (C)
Is a plan view of the print foil, FIG. 3 is a view showing a structure used in the same embodiment, (A) is a front view, (B) is a sectional view taken along the arrow B of (A), and (C) is FIG. 4A is a sectional view taken along the arrow C in FIG. 4A, and FIG. 4A is a view showing an assembling operation of the same embodiment. FIG. 4A is an exploded perspective view, FIG.
It is an exploded perspective view showing connection between a terminal part of a flexible switch sheet and a main board. FIG. 5 is a side view showing an example of a conventional switch mechanism, and FIG.
The figure is a perspective view showing an example of use of the switch mechanism of FIG. 1 ... Switch board, 2 ... Tact switch, 3 ... Spindle, 4
... operating lever, 4a ... switch pressing part, 4b ... operating part,
5 ... Front panel, 5a ... Opening part, 6 ... Sponge. 11 ... Operation lever, 11a ... Spindle part, 11b ... Contact pressing part, 11c ... Operation part, 12 ... Flexible switch sheet, 12a ... Spindle through hole, 12b ... Contact point, 12c ... Terminal part, 13 ... Structure, 13a ... bearing part, 13b ... opening part,
13c ... Pressed portion, 13d ... Second opening portion, 14a, 1
4b ... Print foil, elastic conductor, 14d ... Insulating layer, 14e ... Surface coating layer, 15 ... Main substrate,
16 ... Socket.

Claims (1)

[Scope of utility model registration request] 1. An operating lever having a support shaft portion on one end side, an operating portion on the other end side, and a switch pressing portion at an intermediate position between the supporting shaft portion and the operating portion, and a first opening on the front surface. And a structure into which the operation lever is inserted through the first opening, and a second opening formed on the rear surface side of the first opening in the structure and at the front surface. A bearing portion that elastically receives and axially supports the support shaft portion of the pushed operation lever, and is formed between the first opening and the bearing portion of the structure, and is operated in a state in which the operation lever is axially supported by the bearing portion. It is arranged between the pressed part facing the switch pressing part of the lever, the switch pressing part of the operation lever and the pressed part of the structure, fixed to the operation lever or the structure, and operated by the rotation of the operation lever. A switch mechanism comprising: a switch.