JP2018029020A - Electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress a reduction in operability of an operation button as one aspect of a technology disclosed in the present application.SOLUTION: An electronic apparatus 10 comprises: a printed circuit board 40; a switch 32 that is provided on the printed circuit board 40; an operation button 50 that presses the switch 32; an elastic support member 60 that is arranged between the switch 32 and operation button 50, supports the operation button 50, and brings the operation button 50 into contact with the switch 32 or separates the operation button 50 from the switch 32; and a stopper part 56 that projects from the operation button 50 and faces the printed circuit board 40 through the elastic support member 60.SELECTED DRAWING: Figure 4

Description

  The technology disclosed in the present application relates to an electronic device.

  There is a push button switch including a switch provided on a base member and an operation button (key top) that presses the switch when pressed by an operator (for example, see Patent Documents 1 to 4).

  In this type of push button switch, the operation button is supported by the elastic support member disposed between the switch and the operation button so as to be able to contact and separate from the switch.

  Further, the push button switch is provided with a stopper portion that contacts the base member when the operation button is excessively pressed by the operator and limits the movement amount (push-in amount) of the operation button.

Japanese Patent Application Laid-Open No. 07-085751 Japanese Utility Model Publication No. 06-028952 Japanese Utility Model Publication No. 07-034534 JP 2009-004252 A

  By the way, when the elastic support member and the stopper portion are integrally formed of the same elastic body, the stopper portion is easily crushed when the stopper portion comes into contact with the base member. Therefore, it may be difficult to limit the movement amount of the operation button by the stopper portion.

  On the other hand, when the elastic cover and the stopper portion are integrally formed of a highly rigid resin or the like, the stopper portion is not easily crushed when the stopper portion contacts the base member. Therefore, the amount of movement of the operation button can be limited by the stopper portion.

  However, when the elastic cover is formed of a highly rigid resin or the like, it is difficult for the elastic cover to be elastically deformed when the operator presses the operation button. For this reason, the operability of the operation buttons by the operator may be reduced.

  The technology disclosed in the present application is, as one aspect, intended to suppress a decrease in operability of the operation buttons.

  In the technology disclosed in the present application, an electronic device includes a base member, a switch, an operation button, an elastic support member, and a stopper portion. The switch is provided on the base member. The operation button presses the switch. The elastic support member is disposed between the switch and the operation button, supports the operation button, and brings the operation button into and out of contact with the switch. The stopper portion protrudes from the operation button, passes through the elastic support member, and faces the base member.

  According to the technology disclosed in the present application, as one aspect, it is possible to suppress a decrease in operability of the operation button.

FIG. 1 is a perspective view of an electronic device on which a push button switch according to an embodiment is mounted as viewed from the front side. 2 is an exploded perspective view of the electronic device shown in FIG. FIG. 3 is a perspective view of the front cover, operation buttons, elastic support member, switch, and printed circuit board shown in FIG. 2 as viewed from the rear side. 4 is a cross-sectional view taken along line 4-4 of FIG. 1 showing a state before the operation button is pressed. FIG. 5 is a front view (front view) of the elastic support member, the switch, and the printed board shown in FIG. 2 as viewed from the front side. FIG. 6 is a cross-sectional view corresponding to FIG. 4 showing a state where the operation button is pressed. FIG. 7 is a cross-sectional view corresponding to FIG. 4 illustrating a state in which the operation button is pressed and the stopper portion is in contact with the printed circuit board. FIG. 8 is a cross-sectional view corresponding to FIG. 4 showing an electronic device on which a push button switch according to a comparative example is mounted.

  Hereinafter, an embodiment of the technology disclosed in the present application will be described.

(Electronics)
FIG. 1 shows an electronic device 10 on which a push button switch 30 according to the present embodiment is mounted. The electronic device 10 is, for example, a vehicle-mounted device such as a digital tachograph mounted on a vehicle. The electronic device 10 includes a case main body 12 and a front cover 14.

  As shown in FIG. 2, the case body 12 is formed in a rectangular parallelepiped shape. Further, the case body 12 accommodates a control board, a storage device, and the like (not shown). A front cover 14 is attached to the front side (front side) of the case body 12.

  The front cover 14 is formed in a box shape having an opening on the case body 12 side. The front cover 14 has a cover panel portion 14 </ b> A that forms the front surface of the electronic device 10. The cover panel section 14A is provided with a display section 16 for displaying information and a plurality of operation buttons 18 as input devices. Further, the cover panel portion 14A is formed with a button opening 20 for exposing an operation button 50 described later.

(Push-button switch)
As shown in FIGS. 2 and 3, the push button switch 30 includes a switch 32, an operation button 50, and an elastic support member 60. The switch 32 is mounted on a printed board (switch board) 40.

(Printed board)
The printed circuit board 40 is formed in a plate shape. The printed circuit board 40 has a mounting surface 40A. A switch 32 and an electronic component (not shown) are mounted on the mounting surface 40A. The printed circuit board 40 is accommodated in the front cover 14 with the mounting surface 40A facing the cover panel portion 14A. The printed circuit board 40 is fixed to the case main body 12 or the front cover 14 with screws or the like (not shown). The printed circuit board 40 is an example of a base member.

(switch)
As shown in FIG. 4, the switch 32 is mounted on the mounting surface 40 </ b> A in a state of protruding from the mounting surface 40 </ b> A of the printed circuit board 40. The switch 32 is, for example, a tactile switch. Specifically, the switch 32 includes a case 34, a fixed contact 36, a movable contact 38, and an elastic body (not shown).

  Case 34 is fixed to mounting surface 40 </ b> A of printed circuit board 40. In the case 34, a fixed contact 36, a movable contact 38, and an elastic body are accommodated. The case 34 has an opening 34 </ b> A that exposes the movable contact 38.

  The fixed contact 36 is fixed to the case 34 or the printed board 40. The fixed contact 36 is electrically connected to the printed circuit board 40. A movable contact 38 is arranged on the opposite side of the fixed contact 36 from the printed circuit board 40.

  The movable contact 38 is accommodated in the case 34 so as to be able to contact and separate from the fixed contact 36. A part of the movable contact 38 is exposed from the opening 34 </ b> A of the case 34. When the movable contact 38 is brought into contact with the fixed contact 36, the switch 32 is turned on (energized state). On the other hand, when the movable contact 38 is separated from the fixed contact 36, the switch 32 is turned off (non-energized state). An elastic body (not shown) is disposed between the movable contact 38 and the fixed contact 36.

  The elastic body is formed by a reversing spring or the like, for example. This elastic body biases the movable contact 38 in a direction away from the fixed contact 36. Due to the urging force of the elastic body, the movable contact 38 is held in an off state away from the fixed contact 36. In this off state, a part of the switch 32 protrudes from the opening 34 </ b> A of the case 34.

  The structure of the switch 32 can be changed as appropriate. Therefore, the switch 32 may be a dome switch or the like, for example.

(Manual operation button)
An operation button 50 is disposed on the side opposite to the printed circuit board 40 with respect to the switch 32. The operation button 50 is a push button operated by an operator's hand or the like. The operation button 50 is supported by an elastic support member 60, which will be described later, so as to be able to contact and separate from the switch 32. The operation button 50 is formed of a material such as a resin having higher rigidity or strength than an elastic support member 60 described later. In addition, the arrow M shown in each figure shows the moving direction (contact / separation direction) of the operation button 50 with respect to the switch 32.

  The operation button 50 includes a button main body portion 52 and an extension portion 54. The button main body 52 is formed in a flat cylindrical shape. The button main body 52 is arranged with the moving direction (arrow M direction) of the operation button 50 as the axial direction of the button main body 52. The button main body 52 is disposed in the button opening 20 of the cover panel portion 14A.

  An extension part (flange part) 54 is provided at an end of the button main body part 52 on the switch 32 side. The extension portion 54 is formed in a ring shape surrounding the button main body portion 52 when viewed from the moving direction of the operation button 50. The extending portion 54 extends outward from the button main body portion 52 and is disposed between the cover panel portion 14A and a switch cover portion 66 described later. When the extended portion 54 is engaged with and engaged with the inner surface 14A1 of the cover panel portion 14A, the operation button 50 is suppressed from coming out of the button opening 20.

(Elastic support member)
An elastic support member 60 is disposed between the operation button 50 and the printed board 40. The elastic support member 60 is formed of an elastic body such as silicon rubber. The operation button 50 is elastically supported by the printed circuit board 40 through the elastic support member 60. Further, the operation button 50 is moved toward and away from the switch 32 as the elastic support member 60 is elastically deformed.

  Specifically, the elastic support member 60 includes a peripheral wall portion 62 and a switch cover portion 66. The peripheral wall 62 has a cylindrical shape. Moreover, the surrounding wall part 62 has opening 64A, 64B at the both ends of an axial direction, respectively. The peripheral wall portion 62 is disposed between the printed circuit board 40 and the cover panel portion 14 </ b> A with the moving direction (arrow M direction) of the operation button 50 as the axial direction of the peripheral wall portion 62.

  The peripheral wall portion 62 is sandwiched between the printed board 40 and the cover panel portion 14A. Therefore, the axial one end 62E1 of the peripheral wall 62 is pressed against the mounting surface 40A of the printed board 40. Similarly, the other end 62E2 in the axial direction of the peripheral wall 62 is pressed against the inner surface 14A1 of the cover panel 14A.

  A switch cover portion 66 that covers the switch 32 is provided inside the peripheral wall portion 62. The peripheral wall 62 is formed in a circular shape when viewed from the moving direction of the operation button 50. Further, the switch cover portion 66 is provided at an intermediate portion in the axial direction of the peripheral wall portion 62. Further, the switch cover portion 66 is formed in a partition shape that partitions the internal space of the peripheral wall portion 62 in the axial direction of the peripheral wall portion 62. As a result, the switch cover 66 partitions the inner space of the peripheral wall 62 into the switch storage chamber 68 on the switch 32 side and the button storage chamber 70 on the operation button 50 side.

  In the following, the portion of the peripheral wall portion 62 that extends from the outer peripheral portion of the switch cover portion 66 to the switch 32 side is referred to as a switch-side peripheral wall portion 62A, and the peripheral wall that extends from the outer peripheral portion of the switch cover portion 66 to the operation button 50 side. The part 62 is defined as a button side peripheral wall 62B.

  The switch housing chamber 68 is partitioned by the switch cover portion 66 and the switch side peripheral wall portion 62A. The switch 32 is accommodated in the switch accommodating chamber 68 from the opening 64 </ b> A on one end side of the peripheral wall 62. Further, as described above, the one end portion 62E1 of the peripheral wall portion 62 is pressed against the printed circuit board 40. Thereby, water or dust or the like is prevented from entering the switch housing chamber 68 from the opening 64 </ b> A on one end side of the peripheral wall portion 62.

  The button storage chamber 70 is partitioned by the switch cover portion 66 and the button side peripheral wall portion 62B. A part of the operation button 50 is accommodated in the button accommodating chamber 70 from the opening 64 </ b> B on the other end side of the peripheral wall 62. Further, as described above, the other end portion 62E2 of the peripheral wall portion 62 is pressed against the inner surface 14A1 of the cover panel portion 14A. Thereby, it is suppressed that water, dust, etc. penetrate | invade into the button storage chamber 70 from the opening 64B of the other end side of the surrounding wall part 62. FIG.

  An operation button 50 is fixed to the outer surface 66B of the switch cover portion 66 opposite to the switch 32. Specifically, the operation button 50 has a fixed surface 50A. The fixed surface 50 </ b> A is a flat surface extending between the button main body portion 52 and the extending portion 54. The fixed surface 50A is fixed (bonded) to the outer surface 66B of the switch cover portion 66 by an adhesive or a double-sided tape. The fixed surface 50A can be formed on at least part of the surface of the operation button 50 on the switch cover portion 66 side.

  Here, the operation button 50 is elastically supported by the switch cover portion 66. Accordingly, when the operation button 50 is pressed by the operator's hand or the like, the switch cover portion 66 is elastically deformed so as to protrude toward the switch 32 side. As a result, the operation button 50 approaches the switch 32. On the other hand, when the operator releases his / her hand from the operation button 50, the switch cover 66 is restored to its original shape. As a result, the operation button 50 is released from the switch 32.

  A protrusion 72 that pushes the movable contact 38 of the switch 32 is provided on the inner surface 66A of the switch cover 66 on the switch 32 side. The protruding portion 72 protrudes in a protruding shape from the center portion of the inner surface 66 </ b> A of the switch cover portion 66 and faces the movable contact 38 of the switch 32. The protrusion 72 pushes the movable contact 38 in accordance with the elastic deformation of the switch cover 66, and brings the movable contact 38 into contact with the fixed contact 36. As a result, the switch 32 is turned on. On the other hand, when the switch cover portion 66 is restored to the original shape, the projecting portion 72 is separated from the movable contact 38, so that the movable contact 38 is separated from the fixed contact 36. As a result, the switch 32 is turned off.

  A plurality of through holes 74 are formed in the switch cover portion 66. Each through hole 74 is a circular hole that penetrates the switch cover portion 66 in the thickness direction. In these through holes 74, stopper portions 56 of the operation buttons 50 described later are respectively inserted. Further, each through hole 74 is closed by the fixed surface 50 </ b> A of the operation button 50. As a result, water or dust or the like is prevented from entering the switch housing chamber 68 from the through hole 74.

(Stopper part)
The operation button 50 is provided with a plurality of stopper portions 56. The plurality of stopper portions 56 limit the moving amount (pressing amount) of the operation button 50. In other words, the plurality of stopper portions 56 limit the amount of elastic deformation of the switch cover portion 66. These stopper portions 56 are integrally formed with the operation button 50 by using a material such as a resin having higher rigidity or higher strength than an elastic support member 60 described later.

  Projecting from the fixed surface 50 </ b> A of each operation button 50 in a projecting manner and penetrating through the through hole 74 of the switch cover 66. Further, as shown in FIG. 5, the plurality of stopper portions 56 are arranged on the outer periphery of the switch 32 when the operation button 50 is viewed from the movement direction (arrow M direction).

  As shown in FIG. 4, the tip portions 56 </ b> T of the plurality of stopper portions 56 are opposed to the mounting surface 40 </ b> A of the printed board 40. These stopper portions 56 are brought into contact with the mounting surface 40A of the printed circuit board 40 when the operator further depresses the operation button 50 while the switch 32 is turned on while the operator depresses the operation button 50. . Thereby, the movement amount of the operation button 50 is limited by the plurality of stopper portions 56.

  Next, the operation of this embodiment will be described.

  FIG. 5 shows a state before the operation button 50 is pressed by the operator. In this state, the protrusion 72 of the switch cover 66 is separated from the movable contact 38 of the switch 32, and the switch 32 is turned off. Further, the stopper portion 56 of the operation button 50 is separated from the printed circuit board 40.

  From the OFF state of the switch 32, for example, when the operation button 50 is pressed down to the switch 32 side by the operator's hand, the switch cover portion 66 protrudes toward the switch 32 side as shown in FIG. Elastically deforms. Accordingly, the movable contact 38 of the switch 32 is pushed by the protruding portion 72 protruding from the inner surface 66A of the switch cover portion 66. As a result, the movable contact 38 comes into contact with the fixed contact 36, and the switch 32 is switched from the off state to the on state.

  Next, when the operator releases the operation button 50, the switch cover 66 is restored to its original shape, and the protruding portion 72 of the case 34 is separated from the movable contact 38 of the switch 32. Thereby, the movable contact 38 is separated from the fixed contact 36, and the switch 32 is switched from the on state to the off state. At this time, the extended portion 54 of the operation button 50 is engaged with the inner surface 14A1 of the cover panel portion 14A. As a result, the operation button 50 is prevented from coming out of the button opening 20 of the cover panel portion 14A.

  By the way, when the operator further presses the operation button 50 when the switch 32 is in the ON state, the movable contact 38 is excessively pressed against the fixed contact 36, and the fixed contact 36 and the movable contact 38 may be damaged. is there.

  On the other hand, in this embodiment, when the operator further presses the operation button 50 when the switch 32 is in the ON state, the plurality of stopper portions 56 of the operation button 50 are provided on the printed circuit board 40 as shown in FIG. It contacts the mounting surface 40A. Thereby, the movement amount (push-in amount) of the operation button 50 is limited. As a result, excessive pressing of the movable contact 38 against the fixed contact 36 is suppressed. Therefore, damage to the fixed contact 36 and the movable contact 38 is suppressed.

  Here, FIG. 8 shows a push button switch 100 according to a comparative example. In the push button switch 100, the switch cover portion 66 and the plurality of stopper portions 102 are integrally formed of an elastic body. Therefore, in the push button switch 100 according to the comparative example, the stopper portion 102 is easily crushed when the tip end portion of the stopper portion 102 contacts the mounting surface 40A of the printed circuit board 40. Accordingly, it may be difficult to limit the amount of movement of the operation button 50 by the stopper portion 102.

  As a countermeasure, for example, it is conceivable that the switch cover portion and the plurality of stopper portions are integrally formed of a highly rigid resin or the like. In this case, when the stopper portion comes into contact with the mounting surface of the printed board, the stopper portion is not easily crushed. Therefore, the movement amount of the operation button can be limited by the stopper portion.

  However, when the switch cover portion is formed of a highly rigid resin or the like, the switch cover portion is difficult to elastically deform when the operator presses the operation button. For this reason, the operability of the operation buttons by the operator may be reduced.

  On the other hand, in this embodiment, as shown in FIG. 4, the operation button 50 and the plurality of stopper portions 56 are integrally formed of a highly rigid resin or the like. Therefore, when the front end portions 56T of the plurality of stopper portions 56 come into contact with the mounting surface 40A of the printed circuit board 40, the stopper portions 56 are not easily crushed. Therefore, the movement amount of the operation button 50 can be limited by the stopper portion 56.

  Further, the plurality of stopper portions 56 protrude from the fixed surface 50 </ b> A of the operation button 50 and penetrate through the through hole 74 of the switch cover portion 66. That is, in the present embodiment, the switch cover portion 66 and the stopper portion 56 are separated. Accordingly, the switch cover portion 66 can be formed of an elastic body such as silicon rubber while the stopper portion 56 is formed of a resin having higher rigidity than the switch cover portion 66. Therefore, it is possible to suppress a decrease in operability of the operation button 50 while limiting the movement amount of the operation button 50 by the highly rigid stopper portion 56.

  In the present embodiment, the switch 32 is covered by the switch cover 66. Thereby, for example, water or dust that has entered the inside of the cover panel portion 14 </ b> A from the button opening 20 is prevented from touching the switch 32.

  Further, the switch 32 is surrounded by a switch-side peripheral wall 62A that extends from the outer periphery of the switch cover 66 to the printed circuit board 40 side. In other words, the switch 32 is accommodated in the switch accommodating chamber 68 defined by the switch cover portion 66 and the switch side peripheral wall portion 62A. Thereby, it is further suppressed that water or dust that has entered the inside of the cover panel portion 14 </ b> A from the button opening 20 touches the switch 32.

  In addition, the elastic support member 60 is sandwiched between the cover panel portion 14 </ b> A and the printed circuit board 40. Thereby, the one end 62E1 of the peripheral wall 62 is pressed against the mounting surface 40A of the printed circuit board 40. As a result, the gap between the one end 62E1 of the peripheral wall 62 and the mounting surface 40A of the printed board 40 is sealed. Therefore, the entry of water or dust into the switch housing chamber 68 from the gap between the one end portion 62E1 of the peripheral wall portion 62 and the mounting surface 40A of the printed board 40 is suppressed.

  Similarly, the other end 62E2 of the peripheral wall 62 is pressed against the inner surface 14A1 of the cover panel 14A. As a result, the gap between the other end portion 62E2 of the peripheral wall portion 62 and the inner surface 14A1 of the cover panel portion 14A is sealed. Therefore, the entry of water or dust into the switch housing chamber 68 from the gap between the other end portion 62E2 of the peripheral wall portion 62 and the inner surface 14A1 of the cover panel portion 14A is suppressed.

  Further, each through hole 74 of the switch cover portion 66 is closed by the fixing surface 50 </ b> A of the operation button 50. Thereby, water or dust or the like can be prevented from entering the switch accommodating chamber 68 from the through hole 74.

  Next, a modification of the above embodiment will be described.

  In the above embodiment, the stopper portion 56 is formed in a protruding shape. However, the stopper portion may be formed in a wall shape or a rib shape, for example. The operation button 50 can be provided with at least one stopper portion 56.

  In the above embodiment, the stopper portion 56 is passed through the through hole 74 of the switch cover portion 66. However, the stopper part 56 may be penetrated by a notch or the like formed in the switch cover part 66, for example.

  In the above-described embodiment, the amount of movement of the operation button 50 is limited by the tip portion 56 </ b> T of the stopper portion 56 coming into contact with the printed circuit board 40. However, for example, when the switch 32 is provided on the case main body 12 via the printed circuit board 40, the distal end portion 56 </ b> T of the stopper portion 56 may be configured to contact the case main body 12. In this case, the case main body 12 is an example of a base member. That is, the base member includes not only the printed board 40 but also various members provided with the switch 32.

  Moreover, in the said embodiment, the surrounding wall part 62 of the elastic support member 60 is formed in a cylinder shape. That is, the cross-sectional shape of the peripheral wall portion 62 is formed in a circular shape. However, the cross-sectional shape of the peripheral wall portion may be rectangular.

  Moreover, in the said embodiment, the surrounding wall part 62 and the switch cover part 66 of the elastic support member 60 are formed with an elastic body. However, the peripheral wall 62 may be formed of, for example, resin or metal.

  In the above embodiment, the button support chamber 70 is provided in the elastic support member 60. However, the button storage chamber 70 can be omitted. That is, the button side peripheral wall 62B can be omitted. Similarly, the switch housing chamber 68 can be omitted. That is, the switch side peripheral wall 62A can be omitted. In this case, the elastic support member is fixed to the cover panel portion 14A via, for example, the button side peripheral wall portion 62B. Further, the peripheral wall 62 can be omitted. In this case, the switch cover part 66 is fixed to, for example, a plurality of bosses protruding from the printed circuit board 40 or the cover panel part 14A.

  In the above embodiment, the operation button 50 is fixed to the switch cover portion 66. However, the operation button 50 may not be fixed to the switch cover part 66 but may be held between the switch cover part 66 and the cover panel part 14A.

  Further, the operation button 50 of the above embodiment presses the movable contact 38 of the switch 32 via the protrusion 72 of the switch cover 66. However, the operation button 50 may be provided with a protrusion that protrudes from the operation button 50 and passes through the switch cover 66 and faces the movable contact 38 of the switch 32. In this case, when the operation button is pressed by the operator, the movable contact 38 of the switch 32 is pressed by the protruding portion protruding from the operation button.

  Further, in the above embodiment, the extending portion 54 is provided on the operation button 50. However, the extending part 54 can be omitted. Further, the shape of the operation button 50 can be changed as appropriate. Furthermore, the operation button 50 may be formed of a metal having higher rigidity or strength than the switch cover portion 66. Furthermore, the cover panel portion 14A can be omitted.

  Moreover, the push button switch 30 according to the above embodiment is applicable not only to the vehicle-mounted device but also to various electronic devices. Therefore, for example, the push button switch 30 according to the above embodiment can be applied to a keyboard of a personal computer or the like.

  As mentioned above, although one Embodiment of the technique which this application discloses was described, the technique which this application discloses is not limited to said embodiment. In addition, the above embodiment and various modifications may be used in appropriate combination, and it is needless to say that various embodiments can be implemented without departing from the gist of the technology disclosed in the present application.

  In addition, the following additional remarks are disclosed regarding the above embodiment.

(Appendix 1)
A base member;
A switch provided on the base member;
An operation button for pressing the switch;
An elastic support member that is disposed between the switch and the operation button, supports the operation button, and contacts and separates the operation button from the switch;
A stopper portion protruding from the operation button, penetrating the elastic support member and facing the base member;
Electronic equipment comprising.
(Appendix 2)
The elastic support member has a switch cover portion that covers the switch and through which the stopper portion passes.
The electronic device according to attachment 1.
(Appendix 3)
The switch cover portion has a through hole through which the stopper portion is penetrated.
The electronic device according to attachment 2.
(Appendix 4)
The operation button has a fixed surface that is fixed to the switch cover portion and closes the through hole,
The stopper portion protrudes from the fixed surface and penetrates through the through hole.
The electronic device according to attachment 3.
(Appendix 5)
The elastic support member has a switch side peripheral wall portion that extends from the outer peripheral portion of the switch cover portion to the base member side and surrounds the switch.
The electronic device according to any one of appendix 2 to appendix 4.
(Appendix 6)
The switch side peripheral wall portion has a switch accommodating chamber for accommodating the switch inside,
The electronic device according to attachment 5.
(Appendix 7)
The switch side peripheral wall portion has a cylindrical shape,
The electronic device according to appendix 5 or appendix 6.
(Appendix 8)
The operation button is supported by the base member via the elastic support member.
The electronic device according to any one of appendix 2 to appendix 7.
(Appendix 9)
The switch cover portion has a protruding portion that protrudes toward the switch and faces the switch,
The operation button presses the switch through the protrusion,
The electronic device according to any one of appendix 2 to appendix 8.
(Appendix 10)
A cover panel having a button opening in which the operation button is disposed and disposed on a side opposite to the base member with respect to the elastic support member;
The electronic device according to any one of appendix 2 to appendix 9.
(Appendix 11)
Extending from the outer periphery of the switch cover portion to the cover panel portion side, and having a button side peripheral wall portion surrounding the button opening,
The electronic device according to attachment 10.
(Appendix 12)
The button side peripheral wall portion has a button storage chamber for storing the operation button inside,
The electronic device according to attachment 11.
(Appendix 13)
The elastic support member is sandwiched between the cover panel portion and the base member;
The electronic device according to any one of appendix 10 to appendix 12.
(Appendix 14)
The operation buttons are
A button body disposed in the button opening;
An extension part extending between the cover panel part and the elastic support member from the button body part;
Having
The electronic device according to any one of appendix 10 to appendix 13.
(Appendix 15)
The stopper portion is more rigid than the switch cover portion.
The electronic device according to any one of appendix 2 to appendix 14.
(Appendix 16)
The switch cover portion is formed of an elastic body.
The electronic device according to any one of appendix 2 to appendix 15.
(Appendix 17)
The stopper portion limits the approach of the operation button to the base member with contact with the base member.
The electronic device according to any one of supplementary notes 1 to 16.
(Appendix 18)
The stopper portion is brought into contact with the base member after the switch is pressed by the operation button.
The electronic device according to any one of supplementary notes 1 to 17.
(Appendix 19)
The base member has a printed circuit board on which the switch is mounted.
The electronic device according to any one of supplementary notes 1 to 18.
(Appendix 20)
A switch provided on the base member;
An operation button for pressing the switch;
An elastic support member that is disposed between the switch and the operation button, supports the operation button, and contacts and separates the operation button from the switch;
A stopper portion protruding from the operation button, penetrating the elastic support member and facing the base member;
Push button switch with.

DESCRIPTION OF SYMBOLS 10 Electronic device 14A Cover panel part 20 Button opening 30 Pushbutton switch 32 Switch 40 Printed circuit board (an example of a base member)
50 Operation button 50A Fixed surface (an example of a fixed surface of the operation button)
52 Button body portion 54 Extension portion 56 Stopper portion 60 Elastic support member 62A Switch side peripheral wall portion 62B Button side peripheral wall portion 66 Switch cover portion 68 Switch storage chamber 70 Button storage chamber 72 Protruding portion 74 Through hole

Claims (7)

A base member;
A switch provided on the base member;
An operation button for pressing the switch;
An elastic support member that is disposed between the switch and the operation button, supports the operation button, and contacts and separates the operation button from the switch;
A stopper portion protruding from the operation button, penetrating the elastic support member and facing the base member;
Electronic equipment comprising. The elastic support member has a switch cover portion that covers the switch and through which the stopper portion passes.
The electronic device according to claim 1. The switch cover portion has a through hole through which the stopper portion is penetrated.
The electronic device according to claim 2. The operation button has a fixed surface that is fixed to the switch cover portion and closes the through hole,
The stopper portion protrudes from the fixed surface and penetrates through the through hole.
The electronic device according to claim 3. The elastic support member has a switch side peripheral wall portion that extends from the outer peripheral portion of the switch cover portion to the base member side and surrounds the switch.
The electronic device of any one of Claims 2-4. A cover panel having a button opening in which the operation button is disposed and disposed on a side opposite to the base member with respect to the elastic support member;
The electronic device according to any one of claims 2 to 5. Extending from the outer periphery of the switch cover portion to the cover panel portion side, and having a button side peripheral wall portion surrounding the button opening,
The electronic device according to claim 6.

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