KR0173502B1 - Switch devcie for manipulation - Google Patents

Abstract

[purpose]

Provided is an operation switch device that can be easily installed on a printed board and that excessive load does not occur in the switch terminal group.

[Configuration)]

The flexible flexible terminal groups 3 are bent at the ends of the switch terminal groups 2 drawn outward from the switch wafer 4, and the holder 5 made of synthetic resin is mounted on the lower surface of the switch wafer 4, And a resin molding member 7 which maintains the state in which the flexible terminal group 3 is aligned at the distal end of the flexible terminal group 3, and the holder 5 is installed on the printed board 9. At the same time, the tip of the flexible terminal group 3 was connected to the pattern of the printed board 9.

Description

Operation switch device

1 is a cross-sectional view of an operating switch device according to an embodiment of the present invention.

2 is a side view showing a state where the operating body is peeled off from the operating switch device of FIG.

3 is a plan view of the operation switch device of FIG.

4 is a plan view showing a state where the operating body is peeled off from the operating switch device of FIG.

5 is an enlarged cross-sectional view of part A of FIG.

6 is a view for explaining a step of providing a flexible terminal group to a switch terminal group provided in the operation switch device of FIG.

7 is a front view showing a state in which the flexible terminal group is installed.

8 is a view of the caulking portion of the switch terminal group in FIG.

9 is a cross-sectional view of the caulking portion of FIG.

10 is a cross-sectional view of a switch device for operation provided with a modification of the holder and the flexible terminal group.

FIG. 11 is a side view showing a state where the operating body is peeled off from the operating switch device of FIG.

FIG. 12 is a front view showing a state before installing a holder provided in the operation switch device of FIG.

Figure 13 is a side view showing a state before installing the holder.

14 is a sectional view of an operation switch device according to another embodiment of the present invention.

FIG. 15 is a side view showing a state where the operating body is peeled off from the operating switch of FIG.

16 is a plan view of the operation switch device of FIG.

FIG. 17 is a plan view showing a state where the operating body is peeled off from the operating switch device of FIG.

FIG. 18 is a view for explaining a step of forming a dimming wafer and a terminal group included in the operation switch device of FIG.

FIG. 19 is a diagram explaining a step of bending the terminal group of FIG. 18; FIG.

FIG. 20 illustrates a process of mounting the light modulation wafer of FIG. 19 on a switch wafer.

Fig. 21 is a plan view showing a state in which the light modulation wafer is mounted on a switch wafer.

FIG. 22 is a side view showing a state of bending a middle portion of a dummy terminal group derived from the light modulation wafer of FIG. 21; FIG.

FIG. 23 is a view of the caulking portion of the dummy terminal group of FIG.

24 is a cross-sectional view of the caulking portion of FIG.

25 is a side view showing a state in which a conventional operation switch device is directly mounted on a printed board.

FIG. 26 is a side view showing a state in which the operation switch device of FIG. 25 is mounted on a printed board via spacers. FIG.

* Explanation of symbols for main parts of the drawings

1, 41: operation switch device 2: switch terminal group

3, 37: flexible terminal group 4: switch wafer

5: holder

38, 39, 49 to 51: resin molding member 8: protrusion

9: printed board 11: holder body

12: holding unit 13, 17, 33: height regulation projection

14, 18: account

15, 16, 19, 35: positioning projections 16a, 36: pedestal

23: push switch 24, 25: operating body

31: holder 34: locking piece

42: LED 43: dimming wafer

46: dimming terminal group 48: dummy terminal group

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operating switch device for use in a VTR or the like, and more particularly, a switch wafer having an operating body and a bypass pattern for contacting and releasing a movable contact to a fixed contact, and a switch terminal group drawn outward from the switch wafer. It relates to an operation switch device having a.

25 and 26 illustrate a conventional example of such an operation switch device. FIG. 25 is a side view showing a state in which the operation switch device is directly mounted on a printed board, and FIG. 26 shows the operation switch device of FIG. A side view showing a state in which a printed circuit board is installed via a spacer.

The operation switch device 101 shown in these figures includes a drive body 102 for driving a plurality of movable contacts (not shown), a switch wafer 103 for rotatably supporting the drive body 102, The operating body 104 which rotates the said drive body 102, and the switch terminal group 105 led outward from the switch wafer 103 are provided. The switch wafer 103 is provided with a bypass pattern for electrically connecting the switch terminal group 105 and a plurality of fixed contacts (not shown). Therefore, when an operator rotates the operating body 104 with a finger, since the movable contact is driven to rotate on the switch wafer 103 via the driving body 102, the movable contact is out of contact with the fixed contact. As a result, a signal is output from the fixed contact via the bypass pattern and the switch terminal group 105.

The operation switch device 101 configured as described above is assembled and used in various apparatuses such as a VTR, but at this time, the distance between the operation body 104 and the printed board on which the operation switch device 101 is mounted is the operation switch device ( 101 is not necessarily constant, depending on the method of the appliance on which it is assembled. Therefore, when the distance is short, as shown in FIG. 25, the switch wafer 103 is placed directly on the printed board 106, and the tip of the switch terminal group 105 is fitted to the printed board 106. FIG. After the passage, the tip of the switch terminal group 105 was connected with a solder 107 to a pattern (not shown) provided on the rear surface of the printed board 106. On the other hand, when the distance is long, as shown in FIG. 26, a spacer 108 having a predetermined height is provided between the switch wafer 103 and the surface of the printed circuit board 106, and at the same time, the connector is connected to the printed circuit board 106. The solder terminal 109 was soldered and the tip of the switch terminal group 105 was inserted into the connector 109 to connect the switch terminal group 105 to the pattern of the printed circuit board 106 through the connector 109.

By the way, in the above-described conventional operation switch device 101, since the relatively high rigidity of the switch terminal group 105 is drawn outward by a predetermined length from the switch wafer 103, the switch terminal group 105 and the printing When the relative position of the board 106 is uniquely determined by the length of the switch terminal group 105, the height is lower when the lower surface of the operation switch device 101 is installed at a position away from the surface of the printed board 106. Spacers 108 or connectors 109 of different dimensions have to be prepared each time, and cumbersome work of fixing these spacers 108 or connectors 109 on the printed circuit board 106 is required. In addition, since the relative positions of the switch terminal group 105 and the printed circuit board 106 are regulated not only in the height direction (up and down direction) but also in the horizontal direction (left and right direction), the printed circuit board 106 of the operation switch device 101 is provided. ), The degree of freedom of the mounting position is small, and even if the mounting position of the operation switch device 101 is slightly shifted, an excessive load may be generated on the switch terminal group 105.

SUMMARY OF THE INVENTION The present invention has been made in view of such a situation in the prior art, and an object thereof is not only to facilitate installation on a printed board but also to prevent load on the switch terminal group due to misalignment of the installation position. It is to provide a switch device for operation.

In order to achieve the above object, the present invention provides a plurality of fixed contacts and a plurality of movable contacts respectively corresponding to the fixed contacts, an operation body for contacting and disengaging the movable contacts from the fixed contacts, and a bypass connected to the fixed contacts. A switch device for operation having a switch wafer having a pattern and a switch terminal group drawn outward from the switch wafer and connected to the bypass pattern, wherein a flexible terminal group that is free to be bent is provided at the front end of the switch terminal group, respectively. One of the main features of the work.

Since flexible terminal groups that can be bent are provided at the ends of the switch terminal group, when mounting an operation switch device on a printed board, the flexible terminal group is bent in a desired direction to obtain a large degree of freedom in the vertical and horizontal directions. It is possible to easily install the operation switch device on the printed board. In addition, since the switch terminal group is provided on the printed board via a flexible flexible terminal group, the shift is absorbed by bending the flexible terminal group even if the operating position of the operating switch device is slightly shifted. Do not overload the terminal group.

Best Mode for Carrying Out the Invention Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a cross-sectional view of an operation switch device according to a first embodiment of the present invention, FIG. 2 is a side view showing a state where an operating body is peeled off from the operation switch device of FIG. 1, and FIG. 3 is an operation switch device of FIG. 4 is a plan view showing a state in which the operating body is peeled off from the operation switch of FIG. 3, FIG. 5 is a sectional view showing an enlarged portion A of FIG. 2, and FIG. 6 is a switch provided in the operation switch device of FIG. FIG. 7 is a front view showing a process of providing a flexible terminal group to the terminal group, FIG. 7 is a front view showing a state where the flexible terminal group is installed, and FIG. 8 is a view of the caulking portion of the switch terminal group shown in FIG. 9 is a cross-sectional view of the caulking portion of FIG.

The operation switch device 1 according to the present embodiment differs from the conventional operation switch device 101 shown in FIGS. 25 and 26 described above in that the flexible switch is free to be bent at the tip of the switch terminal group 2. The terminal group 3 is provided, respectively, and the holder 5 made of synthetic resin is attached to the lower surface side of the switch wafer 4, and the configuration other than that is basically the same. The flexible terminal group 3 is made of, for example, a press working material such as thin brass or phosphor bronze having a thickness of about 0.15 to 0.8 mm, and each of the caulking portions 6 alternately arranged adjacently as shown in FIG. To have at once. And the flexible terminal group 3 is connected to the switch terminal group 2 by caulking the said caulking part 6 in the state which engaged the switch terminal group 2 to each caulking part 6. Moreover, the resin molding member 7 is integrally formed at the front-end | tip of this flexible terminal group 3, and the said resin molding member 7 keeps the flexible terminal group 3 aligned. A protrusion 8 is formed below the resin mold member 7 to cover the outer periphery of the tip of the flexible terminal group 3 as shown in FIG. 5, and the protrusion 8 penetrates the printed board 9. It can be inserted into the hole 10.

The holder 5 is placed on the upper surface of the holder body 11 and the printed circuit board 9 installed between the switch wafer 4 and the printed circuit board 9, and the holding portion on which the resin molding member 7 is installed ( 12) and a plurality of height regulating projections 13 extending in the lower surface direction of the switch wafer 4 on the upper surface side of the holder body 11, and the tip of the switch wafer 4 having elasticity. A pair of latching pieces 14 held on the upper surface side of the cross-section) and a positioning projection 15 inserted through the switch wafer 4 are provided, and the positioning projection passed through the switch wafer 4 is provided. (15) is provided, and the positioning projection 16 which is inserted into the pedestal 16a of the hole conducting body 11 is also provided on the lower surface side of the switch wafer 4. In addition, on the lower surface side of the holder body 11, a plurality of height regulating projections 17 extending in the upper surface direction of the printed circuit board 9, and one pair of elastically proximal ends are fastened to the lower surface side of the printed board 9 The engaging piece 18 and the pair of positioning projections 19 which pass through the printed board 9 are provided.

The inner bottom portion 4a of the switch wafer 4 is provided with a plurality of fixed contacts (not shown), a bypass pattern for electrically connecting the fixed contact points and the switch terminal group 2, and corresponds to the fixed contacts. A plurality of movable contacts, not shown, are provided in the annular drive body 21. The drive body 21 is rotatable about a central axis 4b protruding upward from the inner bottom part 4a of the switch wafer 4 and faces the inner bottom part 4a of the switch wafer 4. In the upper portion, a disk-shaped cover 22 covering a portion protruding in the outer circumferential direction of the drive body 21 is mounted. In addition, a pair of push switches 23 are provided inside the drive body 21.

A hollow operating body 24 is fitted to the upper outer circumference of the driving body 21, and another operating body 25 capable of pressing any of the push switches 23 inside the operating body 24 is provided. It is inserted, and this operating body 25 is supported by the said center axis | shaft 4b so that hardness is possible.

In the switch device 1 for operation configured as described above, when the flexible terminal group 3 is provided at the front end of the switch terminal group 2, as shown in FIG. After the derived switch terminal group 2 is bent downward at a right angle, as shown in FIG. 6 (b), the flexible molded part integrally formed with the resin mold member 7 at the tip of the switch terminal group 2 in advance. The terminal group 3 is connected. The caulking portion 6 of the flexible terminal group 3 is initially formed in a plate shape as shown by the broken line in FIG. 9, and in this state, the tip of the switch terminal group 2 is brought into contact with the caulking portion 6. Subsequently, the center portion of the caulking portion 6 is dug into the surface of the switch terminal group 2, and both ends of the caulking portion 6 are bent at a right angle to the switch terminal group 2 side. Both ends of the caulking portion 6 are bent until abutting on the back surface side of (2).

Subsequently, when installing the holder 5 on the switch wafer 4, the holder 5 is disposed on the lower surface side of the switch wafer 4, and the holder 5 is pushed in the direction of the switch wafer 4 so as to hold the holder 5 therein. The tip of the piece 14 slides the side portion of the switch wafer 4 so that the locking piece 14 is elastically deformed. In this state, the positioning projection 15 on the holder body 11 side is inserted into the switch wafer 4 and the positioning projection 16 on the switch wafer 4 side is held by the holder body 11. The holder 5 is positioned by fitting the bracket 16a into the pedestal 16a. Then, by pushing the holder 5 again in the direction of the switch wafer 4, the tip of the height regulating projection 13 abuts on the lower surface of the switch wafer 4, so that the tip of the locking piece 14 It is latched on the upper surface side of the switch wafer 4. Further, the flexible terminal group 3 is bent in a S-shape as shown in Figs. 1 and 2 in the flat state shown in Fig. 6A to arrange the resin mold member 7 at a desired position. The resin molding member 7 is installed in the holding part 12 of the holder 5.

Subsequently, when mounting the operation switch device 1 on the printed board 9, the height regulating protrusion 17 and the retaining portion 12 extending from the lower surface side of the holder body 11 on the printed board 9. ), The positioning projection 19 is inserted into the positioning hole of the printed circuit board 9 to position the operating switch device 1, and the tip of the locking piece 18 is placed on the printed substrate ( It passes through the locking hole of 9) and is latched on the lower surface side of the printed board 9. In addition, a projection 8 protruding from the lower side of the resin molding member 7 is inserted into the through hole 10 of the printed board 9, and the front end of the flexible terminal group 3 is placed on the lower surface of the printed board 9; The tip of the flexible terminal group 3 is soldered to the pattern, not shown, of the printed board 9 in the state projecting from the side to the lower side. Moreover, the operating body 24 is fitted to the upper outer periphery of the drive body 21, and the other operating body 25 inserted in the inside of the said operating body 24 is supported by the central axis 4b so that hardness is possible. .

Thus, in the said embodiment, since the flexible terminal group 3 provided in the front-end | tip of the switch terminal group 2 was bent in a desired direction, since a large degree of freedom is obtained in a vertical direction and a horizontal direction, operation switch apparatus (1) can be easily installed on the printed circuit board 9. In addition, since the switch terminal group 2 is attached to the printed circuit board 9 via the flexible flexible terminal group 3, even if some position shift occurs in the operation switch device 1, the position shift is flexible. The terminal group 3 is absorbed by bending, and an excessive load is not applied to the switch terminal group 2.

In the above embodiment, the operation switch device 1 can be fixed to the printed circuit board 9 by inserting the front end of the engaging piece 18 into the engaging hole of the printed circuit board 9 and engaging it on the lower surface side thereof. This also facilitates the installation work of the operation switch device 1. In addition, since the installation of the operation switch device 1 is easy as compared with the conventional installation on a printed board via a connector or a spacer, the operation cost can be reduced.

In the above embodiment, since the strength of the flexible terminal group 3 is improved by maintaining the state in which the front ends of the flexible terminal groups 3 are aligned by the resin molding member 7, it is not deformed by external force. A short circuit accident of the flexible terminal group 3 can be reliably prevented. Further, since the tip of the flexible terminal group 3 is reinforced by the protrusion 8 of the resin mold member 7, the tip is not deformed by an external force or the like to maintain a predetermined shape. The tip of 3) can be easily inserted into the through hole 10 of the printed circuit board 9.

In the above embodiment, the shape and dimensions are set by setting the height regulating projections and the height dimensions of the locking pieces that protrude from the upper surface side of the holder body 11 in accordance with the installation height of the switch wafer 4 on the printed circuit board 9. It can be used for a variety of other VTR devices. Therefore, the switch device 4 for operation can be obtained at low cost and versatility because it is possible to cope with various devices such as VTR by changing only the holder 5 without requiring a change in the basic configuration of the switch wafer 4 or the like. .

FIG. 10 is a cross-sectional view of a switch for operation having a modification of the holder and the flexible terminal group, FIG. 11 is a side view showing a state where the operating body is peeled off from the switch for operation of FIG. 10, and FIG. 13 is a front view showing a state before installing the holder provided in the action switch device, and FIG. 13 is a side view showing a state before installing the holder, the same as those shown in FIGS. The same symbol is attached to the thing.

The holder 31 shown in FIG. 10 differs from the holder 5 described above in that the height regulating projection 33, the locking piece 34, and the positioning projection (protruding from the upper surface side of the holder body 32) The height dimensions of the 35 and the pedestal 36 are set to be larger than those of the height regulating protrusion 13, the locking piece 14, the positioning protrusion 15 and the pedestal 16a, respectively. The configuration is basically the same. The flexible terminal group 37 shown in FIG. 10 differs from the flexible terminal group 3 described above in that the length dimension of the flexible terminal group 37 is set larger than that of the flexible terminal group 3 described above. At the same time, the reinforcement resin molding members 38 and 39 are provided at the front and middle portions of the flexible terminal group 37, and the configuration other than that is basically the same. In addition, in the operation switch device 1 shown in FIGS. 10 to 13, although the flexible terminal group 37 longer than the above-mentioned flexible terminal group 3 is used, the switch wafer 4 for the printed circuit board 9 is used. In the case where the height of mounting is not so high, the flexible terminal group 3 can be used without bending the flexible terminal group 3 instead of using the long flexible terminal group 37.

FIG. 14 is a cross-sectional view of an operating switch device according to another embodiment of the present invention, FIG. 15 is a side view showing a state where an operating body is peeled from the operating switch device of FIG. 14, and FIG. 16 is a view of the operating switch device of FIG. FIG. 17 is a plan view showing a state where the operating body is peeled off from the operation switch device of FIG. 16, FIG. 18 is a view for explaining a step of forming a terminal group included in the operation switch device of FIG. FIG. 18 illustrates a process of bending the terminal group of FIG. 18, FIG. 20 illustrates a process of mounting the illuminating wafer of FIG. 19 on the switch wafer, and FIG. 21 shows a state where the illuminating wafer is mounted on the switch wafer. 22 is a side view showing a state of bending a middle portion of the dummy terminal group derived from the light-conditioning wafer of FIG. 21, and FIG. 23 is an arrow of the caulking portion of the dummy terminal group of FIG. 24 and 24 are cross sectional views of the caulking portion of FIG. In these figures, the same reference numerals are given to those equivalent to those shown in FIGS. 1 to 13 described above.

The operation switch device 41 of the present embodiment differs from the operation switch device 1 shown in FIGS. 1 to 13 described above in that four LEDs 42 are provided on the switch wafer 4. The dimming wafer 43 is placed, and a part of the inner roughening agent 44 is sandwiched with a light-transmitting member 45 through which colored light generated from the LED 42 is transmitted. same. As shown in FIG. 18, four dimming terminal groups 46, one common terminal 47, and eight dummy terminal groups 48 are integrally formed on the dimming wafer 43, and these dimming terminal groups 46, the common terminal 47, and the dummy terminal group 48 are led outward from the dimming wafer 43. As shown in FIG. The dimming terminal group 46, the common terminal 47, and the dummy terminal group 48 are similar to the flexible terminal group 3, for example, a press working material such as thin brass or phosphor bronze having a thickness of about 0.15 to 0.8 mm. It is formed in an aligned state. Further, a resin molding member 49 for reinforcement is provided at the front end of these terminal groups 46 to 48, and another resin molding member for reinforcement 50 is disposed at a predetermined position away from the resin molding member 49 by a predetermined dimension. ) Are provided, and the resin mold members 49 and 50 maintain the state in which the terminal groups 46 to 48 are aligned. In addition, another reinforcing resin molding member 51 is provided in the middle portion of the dimming terminal group 46, and the reinforcing resin molding member 51 makes the alignment of the dimming terminal group 46 more secure. It is supposed to be maintained. In the intermediate portion of the dummy terminal group 48, a caulking portion 52 which is alternately disposed adjacent to each other is formed, and the caulking portion 52 in a state in which each of the caulking portions 52 engages the switch terminal group 2 with each other. The dummy terminal group 48 is connected to the switch terminal group 2 by caulking. The light modulation wafer 43 is provided with a plurality of locking pieces 54 which are elastic with the positioning projection 53 and whose tip is held on the bottom surface of the switch wafer 4.

In the operation switch device 41 configured as described above, when the dimming wafer 43 is mounted on the switch wafer 4, the dimming terminal group A 46 with respect to the dimming wafer 43 in advance as shown in FIG. 18. And the common terminal 47 and the dummy terminal group 48 are integrally molded, and the resin mold members 49 and 50 are installed in the terminal groups 46 to 48, and then broken by the broken line 61 of FIG. The terminal groups 46 to 48 are cut out at the positions shown, and the terminal groups 46 to 48 are bent at a right angle at the position indicated by the broken line 62 in FIG. Therefore, the terminal groups 46 to 48 are in a bent state shown by the solid line in FIG. 19 in the flat state shown by the broken line in FIG. Next, as shown in FIG. 20, the positioning projection 53 of the dimming wafer 43 is engaged with a predetermined position of the switch wafer 4, thereby positioning the dimming wafer 43, and thus the dimming wafer ( The front end of the engagement piece 54 is elastically deformed by sliding the side of the switch wafer 4 by pushing the 43 in the direction of the switch wafer 4, and then the front end of the engagement piece 54 is the switch wafer 4. Is bounded on the lower surface. As a result, the dimming wafer 43 is fixed to the switch wafer 4. Next, the tip of the switch terminal group 2 is brought into contact with the caulking portion 52 of the dummy terminal group 48, and as shown in FIG. 23, the center of the caulking portion 52 is At the same time, both ends of the caulking portion 52 are bent at a right angle to the switch terminal group 2 side, and caulked until contact with the back side of the switch terminal group 2, as shown in FIG. Both ends of the portion 52 are further bent.

As described above, in the above embodiment, the dimming terminal group 46 and the dummy terminal group 48 connected to the distal ends of the common terminal group 47 and the switch terminal group 2 are bent in a desired direction, thereby up and down. Since a large degree of freedom can be obtained in the direction and in the horizontal direction, the operation switch device 41 can be easily installed on the printed board 9. In addition, since the operation switch device 41 is provided on the printed circuit board 9 via the bending free dimming terminal group 46, the common terminal 47, and the dummy terminal group 48, the operation switch device 41. Even if some positional shift | offset | difference generate | occur | produces, the terminal group 46-48 is not bent, and an excessive load is not applied to the switch terminal group 2. FIG.

In the above embodiment, the dimming wafer 43 can be fixed to the switch wafer 4 by locking the distal end of the locking piece 54 to the lower surface side of the switch wafer 4, so that the dimming wafer 43 is provided. Simple. In addition, the dimming terminal group 46 and the common terminal 47 derived from the dimming wafer 43 and the dummy terminal group 48 connected to the switch terminal group 2 derived from the switch wafer 4 are located nearby. Since it is arrange | positioned, it is easy to form the bypass pattern which connects these terminal groups 46-48 on the printed board 9. As shown in FIG.

In the above embodiment, the resin molding members 49 and 50 maintain a state in which the dimming terminal group 46, the common terminal 47, and the dummy terminal group 48 are aligned. In accordance with 48), it is possible to prevent deformation or short circuit due to external force. In addition, since the intermediate part of the dimming terminal group 46 is reinforced by the resin molding member 51, the deformation and short-circuit of the dimming terminal group 46 due to external forces can be reliably prevented from this point as well.

In addition, since the caulking portion 52 located in the middle of the dummy terminal group 48 is connected to the switch terminal group 2, the intermediate portion of the dummy terminal group 48 is prevented from being deformed by external force or short circuit accident. can do.

As described above, according to the present invention, since a large degree of freedom is obtained in the vertical direction and the horizontal direction by bending the flexible terminal group installed at the tip of the switch terminal group in a desired direction, the operation switch device can be easily installed on the printed board. It can improve work efficiency. In addition, even if the installation position of the operation switch device is slightly shifted, this shift is absorbed by bending the flexible terminal group, so that an excessive load is not generated on the switch terminal group, thereby preventing damage to the switch terminal group or the like.

Claims (2)

A switch wafer having a plurality of stationary contacts, a plurality of movable contacts respectively corresponding to the stationary contacts, an operating body for contacting and detaching the movable contact from the stationary contacts, a bypass pattern connected to the stationary contacts, A switch device for operation including a switch terminal group which is led outwardly from the switch wafer and connected to the bypass pattern, wherein a flexible terminal group that is free to bend is provided at each end of the switch terminal group. A holder made of synthetic resin is mounted on a bottom surface thereof, and a resin molding member for maintaining the alignment state of the flexible terminal group is formed at the front end of the flexible terminal group, and the holder is installed on a printed board and the front end of the flexible terminal group. For operation, characterized in that connected to the pattern of the flint substrate Location device. The operation switch device according to claim 1, wherein the flexible terminal group is formed of a press working material including at least one of brass and phosphor bronze.