JP2009301871A - Operation key - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operation key providing accuracy of an orbit when a keytop tilts, and improving operability. <P>SOLUTION: In this operation key 20, a base 30 has a top plate part 31 disposed in the upper part of a plurality of switch parts 10a, a plurality of spring pieces 32 the base end parts of which are supported by the top plate part 31 and each of which elastically bends along the thickness direction of the top plate part 31 with the base end part as a base point, and a plurality of push bosses 33 each provided on the backs of a plurality of the spring pieces 32 to perform switching by coming into contact with respective switch parts 10a when each spring piece 32 elastically bends downward in the thickness direction of the top plate part 31. The keytop 40 has a plurality of coupling parts 42 protrusively provided on the back of the keytop 40 and coupled to a plurality of the spring pieces 32 respectively, and the keytop 40 is supported in the upper part of the base 30 with a prescribed space left by a plurality of the coupling parts 42. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an operation key.

Conventionally, like a cross key described in Patent Document 1, for example, it is used as a part of a wireless communication device, a vehicle-mounted device, various acoustic devices, etc., and performs a switch operation by tilting in multiple directions such as up, down, left, and right. Operation keys are known.
FIGS. 9A to 9C are diagrams showing an example of the configuration of the conventional operation key 1, and a plurality of push bosses 1 b protruding from the back surface of the key top 1 a are moved according to the tilting of the key top 1 a. Each switch 3a provided on the surface of the switch board 3 is brought into contact with the switch 3a, thereby switching each switch 3a.
Further, in the operation key 2 shown in FIGS. 10 (a), 10 (b) and 11 (a), 11 (b), a fulcrum shaft 2b is provided in the center of the back surface of the key top 2a, and the tip of the fulcrum shaft 2b is connected to the operation key 2. The key top 2a can tilt about the center.
JP 2007-19937 A

However, the conventional operation keys 1 and 2 may have poor operability. That is, since the operation key 1 shown in FIG. 9 is not provided with a fulcrum shaft, the center position is not determined when the key top 1a is tilted, and the trajectory when the key top 1a is tilted is not accurate.
On the other hand, in the case of the operation key 2 shown in FIG. 10 and FIG. 11, the fulcrum shaft 2b is provided in the center of the back surface of the key top 2a. Can not be provided. Further, the tip of the fulcrum shaft 2b that is the center of tilting of the key top 2a is not supported and fixed. For this reason, the orbit when the key top 2a tilts may not be accurate, such as the tip of the fulcrum shaft 2b being displaced from the center of the switch substrate 3 with respect to the switch substrate 3.

  An object of the present invention is to provide an operation key capable of obtaining the accuracy of the trajectory when the key top tilts and improving the operability.

The invention according to claim 1 is the operation key 20, a base that is held and fixed on the surface side of the switch board having a plurality of switch portions, and a key top that is provided on the base and tilted by being pressed. With
The base includes an upper surface plate portion disposed above the plurality of switch portions;
A base end portion is supported by the upper surface plate portion, and a plurality of spring pieces flexibly elastically along the thickness direction of the upper surface plate portion with the base end portion as a base point;
A plurality of push bosses which are provided on the back surfaces of the plurality of spring pieces, and which are switched by contacting each switch part when each spring piece is elastically bent downward in the thickness direction of the upper surface plate part; Have
The key top protrudes from the back surface of the key top and has a plurality of coupling portions respectively coupled to the plurality of spring pieces.
The key top is supported by the plurality of coupling portions at a predetermined interval above the base.

According to a second aspect of the present invention, in the operation key according to the first aspect, the plurality of coupling portions are formed in a protruding shape that fits into fitting holes formed in the plurality of spring pieces, respectively. ,
Around these projection-like coupling portions, there is integrally provided a stopper portion that comes into contact with the upper surface of the spring piece when the projection-like coupling portions are fitted into the fitting holes, respectively. And

According to a third aspect of the present invention, in the operation key according to the first or second aspect, the key top protrudes from the back surface of the key top, and the base when the key top is pressed. Has a cylindrical flange portion that approaches the top plate portion of
Between the lower end portion of the flange portion and the upper surface plate portion of the base, when the key top is tilted by being pressed in one direction, a gap that does not hinder the tilting of the key top is maintained. It is characterized by being set.

  According to a fourth aspect of the present invention, in the third aspect of the present invention, when a plurality of portions of the key top are pressed simultaneously between the lower end portion of the flange portion and the upper surface plate portion of the base. The plurality of push bosses are set so as to maintain gaps where the switch portions are not pressed simultaneously.

According to a fifth aspect of the present invention, in the operation key according to the third or fourth aspect, the base is formed with a first through hole penetrating the base in the vertical direction.
The key top is formed with a second through hole extending through the key top in the vertical direction and extending along the inner peripheral wall of the cylindrical flange portion,
These first and second through holes are continuously arranged in the axial direction of these first and second through holes,
The switch board includes a central switch portion disposed in the first through hole,
The central switch portion is connected to a central key that is inserted through the first and second through holes and operates the central switch portion.

According to a sixth aspect of the present invention, in the operation key according to the first aspect, the key top protrudes from the back surface of the key top, and the key top is separated from the upper surface plate portion of the base. It has a fulcrum boss that supports it in a tiltable position,
This fulcrum boss is characterized in that the contact surface with the upper surface plate portion is formed in a convex spherical shape.

  According to the present invention, the accuracy of the trajectory when the key top tilts can be obtained, and the operability can be improved.

  Embodiments of the present invention will be described below with reference to the drawings. However, the scope of the invention is not limited to the following embodiments.

(First embodiment)
First, a basic configuration of the operation key 20 of the present embodiment will be described.
That is, FIGS. 1 to 3 are perspective views showing each configuration of the operation key 20 of the present embodiment. Moreover, the operation key 20 of this Embodiment is hold | maintained and fixed to the surface side of the switch board 10 which has several switch part 10a, as shown in FIGS.

The operation key 20 includes a base 30 that is held and fixed on the surface side of the switch substrate 10 and a key top 40 that is provided on the base 30 and tilts when pressed.
The base 30 has an upper surface plate portion 31 disposed above the plurality of switch portions 10a, and a base end portion supported by the upper surface plate portion 31, and the upper surface plate having the base end portion as a base point. A plurality of spring pieces 32 that are elastically bent along the thickness direction of the portion 31 and the back surfaces of the plurality of spring pieces 32 are provided, and each spring piece 32 is provided in the thickness direction of the upper surface plate portion 31. It has a plurality of push bosses 33 that contact the respective switch portions 10a and perform switching when elastically bending downward.
Further, the key top 40 protrudes from the back surface of the key top 40, and has a plurality of coupling portions 42 respectively coupled to the plurality of spring pieces 32. A plurality of coupling portions 42 are supported above the base 30 at a predetermined interval.

Here, as described above, the base 30 includes the upper surface plate portion 31, the plurality of spring pieces 32, and the plurality of push bosses 33.
In addition, as shown in FIGS. 1 to 6, the base 30 is provided from the back surface of the upper surface plate portion 31 toward the switch substrate 10, and the upper surface plate portion 31 is disposed on the switch substrate 10. A cylindrical flange portion 34 to be supported and a peripheral wall portion 35 that is provided downward from the peripheral edge portion of the upper surface plate portion 31 and supports the upper surface plate portion 31 on the switch substrate 10.
A plurality of switch portions 10 a of the switch substrate 10 are located at positions surrounded by the flange portion 34 and the peripheral wall portion 35.

  As shown in FIGS. 1 and 3, the upper surface plate portion 31 is a plate body formed in an annular shape, and the flange portion 34 is provided along the inner peripheral edge portion, and the upper edge plate portion 31 is extended along the outer peripheral edge portion. A peripheral wall portion 35 is provided.

Further, the plurality of spring pieces 32 are formed by cutting the upper surface plate portion 31 so as to leave the base end portion. That is, the plurality of spring pieces 32 are separated from the upper surface plate portion 31 except for the base end portion, and a groove is formed between the plurality of spring pieces 32 and the upper surface plate portion 31. Will be.
The plurality of spring pieces 32 extend from the center of the upper surface plate portion 31 to the vicinity of the outer peripheral edge portion along the radial direction, and the upper surface plate is based on a base end portion positioned in the vicinity of the inner peripheral edge portion. It can be bent elastically along the thickness direction of the portion 31.

Note that the spring pieces 32 of the present embodiment are provided at, for example, four locations on the upper surface plate portion 31, and these four spring pieces 32 are arranged along the up, down, left, and right cross directions. However, the place where the spring piece 32 is provided is not limited to four places, and it is needless to say that it can be appropriately changed.
The plurality of spring pieces 32 are formed corresponding to the positions of the switch portions 10a of the switch board 10.

  The plurality of spring pieces 32 are provided with the push bosses 33 on the back surfaces of the plurality of spring pieces 32, respectively, and have fitting holes 32a into which the plurality of coupling portions 42 of the key top 40 are fitted. Is formed.

On the other hand, as shown in FIGS. 1 and 2, the key top 40 includes an upper surface plate portion 41 formed in an annular shape, and the plurality of coupling portions are disposed in the vicinity of the outer peripheral edge portion of the back surface of the upper surface plate portion 41. 42 is protrudingly provided.
The key top 40 protrudes from the back surface of the upper surface plate portion 41 and has a cylindrical flange portion 43 that contacts the upper surface plate portion 31 of the base 30 when the key top 40 is pressed. And a peripheral wall portion 44 provided downward from the peripheral edge portion of the upper surface plate portion 41. That is, the flange portion 43 is provided along the inner peripheral edge portion of the upper surface plate portion 41, and the peripheral wall portion 44 is provided along the outer peripheral edge portion of the upper surface plate portion 41.

As shown in FIG. 2, the upper surface plate portion 41 has a plurality of pressing points 41 a on the surface, and the plurality of pressing points 41 a are provided corresponding to the positions of the plurality of coupling portions 42. ing. That is, by pressing any one of the plurality of pressing points 41a, the spring piece 32 to which the coupling portion 42 provided below the pressing point 41a is coupled is formed on the upper surface plate portion 31. The key top 40 is tilted elastically by bending downward in the thickness direction.
At this time, the key top 40 is arranged such that the pressed point 41a is positioned downward and the pressed point 41a provided at a position symmetrical to the pressed pressing point 41a is positioned upward. Tilt. Therefore, the spring piece 32 coupled to the coupling portion 42 provided below the portion of the pressing point 41a located above is elastically bent upward in the thickness direction of the upper surface plate portion 31. .
Then, by stopping the pressing of the pressing point 41a, the spring piece 32 positioned below the pressed pressing point 41a and the pressing point 41a provided at a position symmetrical to the pressed pressing point 41a. The key top 40 returns to the state before being tilted by the elastic return of the spring piece 32 positioned below the key piece 40. That is, the plurality of spring pieces 32 also serve as tilt return means for the key top 40.

  The plurality of coupling portions 42 are formed in the shape of protrusions that fit into the fitting holes 32 a formed in the plurality of spring pieces 32, respectively. When the coupling portions 42 are respectively fitted in the fitting holes 32a, a stopper portion 42a that abuts on the upper surface of the spring piece 32 is integrally provided.

The lower end portions of the stopper portions 42a are located below the lower end portion of the flange portion 43, and the plurality of coupling portions 42 are fitted in the fitting holes 32a of the plurality of spring pieces 32. At this time, since the lower end portion of the stopper portion 42a comes into contact with the upper surfaces of the plurality of spring pieces 32, the flange portion 43 whose lower end portion is located above the lower end portion of the stopper portion 42a is provided as described above. The upper surface plate portion 31 can be arranged at a predetermined interval. That is, the stopper portion 42 a comes into contact with the upper surfaces of the plurality of spring pieces 32, so that the key top 40 can be supported above the base 30 at a predetermined interval.
Further, the stopper portion 42a can prevent the protruding coupling portion 42 from being inserted deeply into the fitting hole 32a.

  Moreover, although the some coupling | bond part 42 of this Embodiment is formed in protrusion shape, it is inserted and fitted in the fitting hole 32a formed in the said spring piece 32, The said some The method of coupling the spring piece 32 and the plurality of coupling portions 42 is not limited to this, and a method such as screwing or claw fitting may be used.

On the other hand, as shown in FIGS. 4 and 6, the key top 40 is pressed in one direction between the lower end portion of the flange portion 43 of the key top 40 and the upper surface plate portion 31 of the base 30. When tilting, the gap S that does not hinder the tilting of the key top 40 is maintained.
Further, between the lower end portion of the flange portion 43 and the upper surface plate portion 31 of the base 30, when a plurality of locations of the key top 40 are pressed simultaneously, the plurality of push bosses 33 are connected to the switch portions 10a. The gap S is set so as not to be pressed simultaneously.

  That is, as shown in FIGS. 4 to 6, the gap S is set to be narrower than the moving distance K1 of the spring piece 32 that bends when the key top 40 is tilted by being pressed in one direction. In addition, it is set to be narrower than the moving distance K2 of the plurality of spring pieces 32 that bend when a plurality of portions of the key top 40 are pressed simultaneously.

  As shown in FIG. 4B, the moving distance K1 is one of a plurality of spring pieces 32 provided on the base 30 by the key top 40 being pressed and tilted in one direction. This is a distance required when the spring piece 32 is bent and the push boss 33 provided on the back surface of the spring piece 32 contacts the one switch portion 10a to perform switching.

  Further, as shown in FIGS. 5 and 6A, the moving distance K2 is such that a plurality of spring pieces 32 provided on the base 30 are bent when a plurality of portions of the key top 40 are pressed simultaneously. These are the distances when the push bosses 33 provided on the back surfaces of the plurality of spring pieces 32 come into contact with the plurality of switch portions 10a to perform switching.

Since the gap S is set to be narrower than the moving distance K2, the plurality of portions of the key top 40 are pressed at the same time and begin to sink downward without being tilted. Before the push boss 33 simultaneously presses the plurality of switch portions 10 a, substantially the entire lower end portion of the flange portion 43 comes into contact with the upper surface plate portion 31 of the base 30.
As a result, before the plurality of switch portions 10a are simultaneously pressed by the plurality of push bosses 33, the flange portion 43 contacts the upper surface plate portion 31, so that the key top 40 does not tilt and moves downward. Therefore, the switching of the plurality of switch portions 10a by the plurality of push bosses 33 can be reliably prevented.

On the other hand, as shown in FIGS. 1 to 6, the base 30 is formed with a first through hole 34 a that penetrates the base 30 in the vertical direction. The first through hole 34 a extends along the inner peripheral wall of the flange portion 34 of the base 30. Further, the key top 40 is formed with a second through hole 43 a that penetrates the key top 40 in the vertical direction and extends along the inner peripheral wall of the cylindrical flange portion 43.
And these 1st and 2nd through-holes 34a and 43a are arrange | positioned continuously in the axial direction of these 1st and 2nd through-holes 34a and 43a.

Next, an example when the switch board 10 includes the central switch portion 10b will be described.
That is, as shown in FIG. 4, the switch board 10 includes a central switch portion 10b disposed in the first through hole 34a. The central switch portion 10b includes the first and second through holes. A central key 10c that is inserted through the holes 34a and 43a and operates the central switch portion 10b is connected.

A knob portion 10d is provided at the tip of the central key 10c, and the central switch portion 10b can be operated by pressing, pulling, or rotating the knob portion 10d. Is set to
Further, since the inner diameters of the first and second through holes 34a and 43a are formed larger than the outer diameter of the knob portion 10d, the key top 40 is formed as shown in FIG. Even if the central key 10c and the knob portion 10d are inserted into the first and second through holes 34a and 43a, the inner diameter of the first and second through holes 34a and 43a and the outer diameter of the central key 10c It can be tilted using a gap formed between them.

  For example, when the key top 40 is strongly pressed and tilted greatly, the inner peripheral surface of the second through hole 43a comes into contact with a part of the outer peripheral surface of the knob portion 10d. ), The second through hole 43a and the knob portion 10d are set in advance so that the push boss 33 and the switch portion 10a come into contact immediately before the second through hole 43a and the knob portion 10d come into contact with each other. Contact between the through hole 43a and the knob portion 10d can be prevented.

Thereby, the center key 10c having a function different from that of the key top 40 can be provided by being inserted into the first and second through holes 34a and 43a.
As described above, the key top 40 can be tilted using the gap formed between the inner diameter of the first and second through holes 34a and 43a and the outer diameter of the central key 10c. The center key 10c having a function different from that of the key top 40 can be provided by being inserted into the first and second through holes 34a and 43a, and the accuracy of the trajectory when the key top 40 tilts. Therefore, not only the operability of the operation key 20 but also the convenience can be improved.

As described above, according to the present embodiment, when the key top 40 is pressed and tilted, the spring piece 32 positioned below the pressed portion has the thickness of the upper surface plate portion 31. Since it bends elastically downward in the direction, the switch portion 10a can be switched by the push boss 33 on the back surface of the spring piece 32. Further, since the spring piece 32 is elastically restored by stopping the pressing of the key top 40, the key top 40 can be restored so as to return to the state before tilting.
In addition, when the key top 40 is pressed and tilted, the other spring piece 32 provided at a position symmetrical to the one spring piece 32 located below the pressed portion is one spring piece. While 32 is bent downward in the thickness direction of the upper surface plate portion 31, it is bent upward in the thickness direction of the upper surface plate portion 31. Since the other spring piece 32 is also elastically restored by stopping the pressing of the key top 40, the key top 40 can be restored to return to the state before tilting. That is, the key top 40 tilts along the track when the spring piece 32 is elastically bent along the thickness direction of the upper surface plate portion 31, thereby obtaining the accuracy of the track. Therefore, the operability can be improved.

In addition, as described above, the key top 40 can be tilted by using the elastic bending of the plurality of spring pieces 32, and the key top 40 is connected to the plurality of coupling portions 42. The key top 40 is supported in all directions without the need for the fulcrum shaft 2b provided at the center of the back surface of the key top 2a as in the prior art because it is supported above the base 30 with a predetermined interval. Can be tilted.
Further, when a gap S formed between the lower end portion of the flange portion 43 of the key top 40 and the upper surface plate portion 31 of the base 30 is tilted when the key top 40 is pressed in one direction. It is set so as to be narrower than the moving distance K1 of the bending spring piece 32, and is narrower than the moving distance K2 of the plurality of spring pieces 32 bent when a plurality of portions of the key top 40 are pressed simultaneously. Therefore, when a plurality of positions of the key top 40 are pressed simultaneously and begin to sag downward without being tilted, the plurality of switch portions 10a are switched by the plurality of push bosses 33. Since the flange portion 43 abuts against the upper surface plate portion 31 before the key top 40 is moved, the key top 40 can be prevented from moving downward without being tilted. It can be reliably prevented switching of said plurality of switch portions 10a.

(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to the drawings. For convenience of explanation, only components that are different from the above-described first embodiment will be described.

  As shown in FIG. 7, the operation key 20A of the present embodiment includes a base 30A that is held and fixed on the surface side of the switch board 10A, and a key top 40A that is provided on the base 30A and tilts when pressed. It has.

  The key top 40A protrudes from the back surface of the key top 40A, and has a fulcrum boss 43A that supports the key top 40A so as to be tiltable at a position separated from the upper surface plate portion 31A of the base 30A. Yes. That is, the key top 40A includes an upper surface plate portion 41A, and the fulcrum boss 43A protrudes from the center of the rear surface of the upper surface plate portion 41A.

  The fulcrum boss 43A is a substantially conical member whose contact surface with the upper surface plate portion 31A of the base 30A is formed in a convex spherical shape, and a plurality of couplings protruding from the back surface of the upper surface plate portion 41A. It is set to be shorter than the portion 42A.

The base 30A is provided from the back surface of the upper surface plate portion 31A toward the switch substrate 10A, and includes a cylindrical flange portion 34A that supports the upper surface plate portion 31A on the switch substrate 10A. The first through hole 34Aa extends along the inner peripheral wall of the flange portion 34A.
The upper surface plate portion 31A of the base 30A is provided at the upper end portion of the flange portion 34A, closes the first through hole 34Aa, and has an auxiliary upper surface plate whose surface is flush with the upper surface plate portion 31A. 31Aa is provided, and the fulcrum boss 43A of the key top 40A is located on the auxiliary upper surface plate 31Aa.

  As described above, according to the present embodiment, the auxiliary upper surface plate portion 31Aa is provided when the central portion of the operation key 20A does not require a through-hole penetrating the base 30A and the key top 40A in the vertical direction. By using the upper fulcrum boss 43A as a fulcrum for tilting the key top 40A, the key top 40 can be tilted in all directions.

(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to the drawings. For convenience of explanation, only components that are different from the first and second embodiments described above will be described.

  As shown in FIG. 8, the operation key 20B of the present embodiment has a base 30B that is held and fixed on the surface side of a switch board (not shown), and is provided on the base 30B and is tilted by being pressed. Key top 40B.

The base 30B includes an upper surface plate portion 31B and four spring pieces 32B whose base end portions are supported by the upper surface plate portion 31B. Moreover, these four spring pieces 32B are arranged along the up / down / left / right cross directions.
The plurality of spring pieces 32B are formed corresponding to the positions of the switch portions of the switch board.

  The key top 40B is a cross key formed in a cross shape, and a coupling portion (not shown) coupled to each of the four spring pieces 32B is a back surface of each tip portion in the cross direction of the key top 40B. Projected to These four coupling portions are coupled to the four spring pieces 32B of the base 30B.

  As described above, according to the present embodiment, since the four spring pieces 32B of the base 30B and the key top 40B formed in the cross shape are coupled, the key top 40B is moved in the cross direction. The key top 40B can be tilted by a pressing operation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 illustrates a first embodiment of an operation key according to the present invention, and is a perspective view illustrating a state before a base and a key top are coupled. FIG. 2 is a perspective view illustrating the operation key of FIG. 1 and a state after the base and the key top are coupled. It is a perspective view which shows the operation key of FIG. The state which inserted the center key in the through-hole is shown, (a) is sectional drawing which shows before tilting of a key top, (b) is sectional drawing which shows after tilting of a key top. It is sectional drawing which shows the state which pressed the several place of the key top simultaneously. (A) is a principal part expanded sectional view which shows the movement distance of the spring piece bent when a keytop is pressed in one direction and tilts, (b) is between a flange part of a base and a keytop. It is a principal part expanded sectional view which shows that the clearance gap is formed in. It is sectional drawing which shows 2nd Embodiment of the operation key which concerns on this invention. It is a perspective view which shows 3rd Embodiment of the operation key which concerns on this invention. (A)-(c) is a sectional side view which shows embodiment of the conventional operation key. The conventional operation key is shown, (a) is a perspective view which shows the surface of a keytop, (b) is a rear view which shows the back surface of a keytop. 10A is a side cross-sectional view showing a non-operated state of the key top, and FIG. 10B is a side cross-sectional view showing an operating state of the key top.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Switch board 10a Switch part 20 Operation key 30 Base 31 Upper surface board part 32 Spring piece 40 Key top 42 Joint part 43 Flange part

Claims (6)

A base that is held and fixed on the surface side of the switch board having a plurality of switch portions, and a key top that is provided on the base and tilted by being pressed;
The base includes an upper surface plate portion disposed above the plurality of switch portions;
A base end portion is supported by the upper surface plate portion, and a plurality of spring pieces flexibly elastically along the thickness direction of the upper surface plate portion with the base end portion as a base point;
A plurality of push bosses which are provided on the back surfaces of the plurality of spring pieces, and which are switched by contacting each switch part when each spring piece is elastically bent downward in the thickness direction of the upper surface plate part; Have
The key top protrudes from the back surface of the key top and has a plurality of coupling portions respectively coupled to the plurality of spring pieces.
The key top is supported by the plurality of coupling portions at a predetermined interval above the base. The plurality of coupling portions are formed into protrusions that fit into fitting holes formed in the plurality of spring pieces, respectively.
Around these projection-like coupling portions, there is integrally provided a stopper portion that comes into contact with the upper surface of the spring piece when the projection-like coupling portions are fitted into the fitting holes, respectively. The operation key according to claim 1. The key top protrudes from the back surface of the key top, and has a cylindrical flange portion that approaches the upper surface plate portion of the base when the key top is pressed.
Between the lower end portion of the flange portion and the upper surface plate portion of the base, when the key top is tilted by being pressed in one direction, a gap that does not hinder the tilting of the key top is maintained. The operation key according to claim 1, wherein the operation key is set.   Between the lower end portion of the flange portion and the upper surface plate portion of the base, when a plurality of portions of the key top are pressed at the same time, a gap is maintained in which the plurality of push bosses do not simultaneously press the switch portions. The operation key according to claim 3, wherein the operation key is set so as to be performed. The base is formed with a first through-hole penetrating the base in the vertical direction,
The key top is formed with a second through hole extending through the key top in the vertical direction and extending along the inner peripheral wall of the cylindrical flange portion,
These first and second through holes are continuously arranged in the axial direction of these first and second through holes,
The switch board includes a central switch portion disposed in the first through hole,
5. The operation key according to claim 3, wherein a center key that is inserted through the first and second through holes and operates the center switch portion is connected to the center switch portion. The key top protrudes from the back surface of the key top, and has a fulcrum boss that supports the key top so that the key top can be tilted to a position separated from the upper surface plate portion of the base.
2. The operation key according to claim 1, wherein the fulcrum boss has a convex spherical surface in contact with the upper surface plate portion.

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