JP7371746B2 - Seesaw switches and electronic equipment - Google Patents

Description

The present invention relates to a seesaw switch and electronic equipment.

Among the buttons that are pressed by the user to perform input operations, there are some buttons that perform different operations depending on the position at which the switch is pressed, thereby allowing two types of input operations to be performed with one switch. For example, Patent Documents 1 and 2 describe a so-called seesaw switch that can swing using both ends in the longitudinal direction of a button as fulcrums. The seesaw switch described in Patent Documents 1 and 2 swings with the other end as the fulcrum when one end in the longitudinal direction is pressed, and swings with the one end as the fulcrum when the other end is pressed. It is now possible to do so. By changing the way the seesaw switch oscillates depending on the position to which it is pressed, two types of input operations can be performed with one switch.

Utility Model Publication No. 62-152329 Utility Model Publication No. 6-26131

Here, the seesaw switch is a part of the seesaw switch that performs an input operation, and detects an input operation by having an operation part that swings during an input operation and the operation part coming into contact with each other when an input operation is made to the operation part. It has a tact switch. The tactile switches are arranged below the operating section at two positions near both ends of the seesaw switch in the longitudinal direction. In the seesaw switches described in Patent Documents 1 and 2, when an input operation is performed at a position near either end in the longitudinal direction of the operation part, the seesaw switch swings around the opposite end as a fulcrum. When the input operation is performed, the tact switch located on the side where the input operation is performed detects the input operation.

However, when an input operation is performed on the seesaw switch, if the operation section swings around the longitudinal end of the operation section as a fulcrum, the operation section will move to the tact switch on the side where the input operation was performed. Not only that, but also approach the tact switch on the fulcrum side. Therefore, when an input operation is performed on the seesaw switch, the operation part and the tact switch can prevent the operation part from coming into contact with a tact switch different from the tact switch corresponding to the input operation. Therefore, it is necessary to ensure the clearance between the operating section and the tact switch with high precision. In this case, high precision is required in manufacturing the seesaw switch.

On the other hand, when the fulcrum of the seesaw switch is provided near the center in the longitudinal direction of the seesaw switch to swing the operation part, as mentioned in the prior art in Patent Document 1, the fulcrum is located near the center in the longitudinal direction of the seesaw switch, The operating section swings in the direction in which the end opposite to the end of the tactile switch moves away from the tact switch. For this reason, high precision is not required for the clearance between the operating section and the tact switch, making manufacturing easier. However, since the operating section swings a lot during input operations, the clearance between the seesaw switch and the surrounding components is large. There is a risk that the appearance will be poor because the end on the opposite side of the end on which the input operation was performed may be raised. For these reasons, it has been extremely difficult for the seesaw switch to achieve both aesthetics and ease of manufacture.

The present invention has been made in view of the above, and an object of the present invention is to provide a seesaw switch and an electronic device that are both aesthetically pleasing and easy to manufacture.

In order to solve the above-mentioned problems and achieve the objects, a seesaw switch according to the present invention includes a swinging part that swings in response to a pressing operation, and a flexible switch located at at least one end in the longitudinal direction of the swinging part. a second fulcrum located between both ends in the longitudinal direction of the swinging part; and an end of the swinging part opposite to the end where the first fulcrum is located. a main body switch that is arranged and comes into contact with the swinging part when the swinging part swings due to the pressing operation, and the swinging part is located at the first fulcrum in the longitudinal direction of the swinging part. The fulcrum of the swing is switched between the first fulcrum and the second fulcrum in accordance with the amount of pressing operation on the end opposite to the end, and the first fulcrum is the second fulcrum when the swinging part is moved to the second fulcrum. It bends when swinging using the fulcrum as a fulcrum.

Further, in order to solve the above-mentioned problems and achieve the object, an electronic device according to the present invention includes a display panel having a display surface on the front, a front panel surrounding the display panel, and a display panel surrounded by the front panel. The above-mentioned seesaw switch is provided.

The seesaw switch and electronic device according to the present invention have the advantage of being able to maintain both aesthetic appearance and ease of manufacture.

FIG. 1 is a front view showing an electronic device according to a first embodiment. FIG. 2 is a sectional view taken along line AA in FIG. FIG. 3 is a perspective view of the swinging portion and hinge shown in FIG. 2. FIG. 4 is a sectional view taken along line BB in FIG. FIG. 5 is a sectional view of the seesaw switch according to the second embodiment.

DESCRIPTION OF EMBODIMENTS Below, embodiments of a seesaw switch and an electronic device according to the present invention will be described in detail based on the drawings. Note that the present invention is not limited to this embodiment. Further, the constituent elements in the embodiments described below include those that can be replaced and easily conceived by those skilled in the art, or those that are substantially the same.

[Embodiment 1]
FIG. 1 is a front view showing an electronic device 1 according to the first embodiment. FIG. 2 is a sectional view taken along line AA in FIG. As shown in FIGS. 1 and 2, an electronic device 1 according to the first embodiment is, for example, an AV (Audio Visual) integrated car navigation device that is mounted inside a vehicle. The electronic device 1 includes a display panel 2, a front panel 3, a button 4, a seesaw switch 5, a substrate 6, and a holder part 7.

In the following description, the upper side of the electronic device 1 during normal use will be referred to as the upper side of the electronic device 1, and the lower side of the electronic device 1 during normal use will be referred to as the lower side of the electronic device 1. explain. Furthermore, in the following description, the left-right direction when the electronic device 1 is viewed from the front panel 3 side will be described as the left-right direction of the electronic device 1 as well.

The display panel 2 is formed in a rectangular shape and has a display surface 2A on the front. The front is the surface viewed by the operator, and in the case of a car navigation device, it is located at the front of the vehicle, so it is the surface facing toward the rear of the vehicle. The display surface 2A has a rectangular shape smaller than the rectangular shape of the display panel 2, and is arranged inside the outer edge 2B of the display panel 2. In the first embodiment, the display panel 2 has a display surface 2A configured as a pressure-sensitive touch panel.

The front panel 3 is formed into a rectangular shape so as to surround the display panel 2. The front panel 3 has a rectangular frame 3A surrounding the display panel 2, and a rectangular window 3B that opens the display surface 2A of the display panel 2 inside the frame 3A.

As shown in FIG. 1, the buttons 4 and seesaw switches 5 are arranged in plural numbers in the left and right direction on the lower side of the front panel 3 and on the front side of the front panel 3. Of these, the button 4 is an input member that allows you to perform a predetermined input operation by pressing it, and the seesaw switch 5 is an input member that allows you to perform different input operations depending on the position you press it. There is. The button 4 and the seesaw switch 5 have approximately the same width in the vertical direction, and the seesaw switch 5 is longer than the button 4 in the horizontal direction. This allows the seesaw switch 5 to perform different input operations depending on whether it is pressed at a position closer to one side in the left-right direction or when it is pressed at a position closer to the other side. A plurality of buttons 4 and seesaw switches 5 formed in this manner are arranged side by side in the left-right direction.

As shown in FIG. 2, the seesaw switch 5 includes a key 5A, a swinging portion 5B, and a hinge 5C. The key 5A is a part that appears on the front side of the front panel 3, and is a part that is pressed by the operator. The swinging portion 5B is arranged on the back side of the key 5A, and a hinge 5C is integrally connected to the back side. The swinging portion 5B and the hinge 5C are made of a resin material, and the hinge 5C is formed into a rod shape or a plate shape so as to be elastically deformed, and is curved or bent. Therefore, when the key 5A is pressed toward the back side by the operator, the key 5A and the swinging portion 5B are provided so that the vicinity of the pressed position can be moved toward the back side by swinging due to the deformation of the hinge 5C. ing. The seesaw switch 5 has positions near both ends in the left-right direction that are pressed when an input operation is made to the seesaw switch 5. Further, when the key 5A is not operated by the operator, the elasticity of the hinge 5C urges the swinging portion 5B together with the key 5A to a position moved to the front side.

In addition, as shown in FIG. 2, the front panel 3 is provided with a guide section 3C so as to surround the top, bottom, left and right sides of the swinging section 5B, and is configured so that the guide section 3C guides the movement of the swinging section 5B. ing. The key 5A is arranged to cover the front side of the guide section 3C so as not to obstruct the movement of the swinging section 5B.

The substrate 6 is arranged along the front of the display panel 2 at the bottom of the display panel 2 . In the first embodiment, the substrate 6 is provided continuously in the left-right direction. As shown in FIG. 2, the board 6 has a main body switch 6A, which is a tactile switch, mounted on the front surface. Two main body switches 6A are arranged for one seesaw switch 5 (see FIG. 4), and each main body switch 6A faces the back side of the swinging portion 5B of the seesaw switch 5. It is arranged as follows. Therefore, when the operator presses the key 5A toward the back side, the main body switch 6A swings with the key 5A by causing the key 5A and the swinging portion 5B to swing together due to the deformation of the hinge 5C. It operates by moving the vicinity of the pressed position in the portion 5B to the back side. This board 6 is housed in the front panel 3. Specifically, the front panel 3 is formed with a case portion 3D that extends from the above-mentioned guide portion 3C to the back side and surrounds the upper, lower, left, and right sides. The board 6 is housed in this case portion 3D.

As shown in FIG. 2, the holder part 7 is provided at the lower part of the display panel 2 so as to be sandwiched between the front surface of the display panel 2 and the back surface of the substrate 6. The holder part 7 is formed in a plate shape, is provided so as to cover the back side of the case part 3D of the front panel 3 in which the board 6 is accommodated, and is attached to the front panel 3. Specifically, the holder part 7 has a protrusion 7A that is inserted into a through hole 3E formed at the bottom of the front panel 3, and is attached to the front panel 3 by fitting the protrusion 7A into the through hole 3E.

Moreover, the holder part 7 is attached to the front panel 3 and is provided in contact with the back surface of the board 6 . As described above, when the operator presses the key 5A toward the back side, the key 5A and the swinging portion 5B swing due to the deformation of the hinge 5C, and the vicinity of the pressed position moves toward the back side. The main body switch 6A of the board 6 operates, but at this time, the holder portion 7 comes into contact with the back surface of the board 6, thereby generating a reaction force against the board 6 being pushed toward the back side.

Next, the swinging portion 5B and hinge 5C of the seesaw switch 5 will be explained. FIG. 3 is a perspective view of the swinging portion 5B and hinge 5C shown in FIG. 2. FIG. 4 is a sectional view taken along line BB in FIG. Note that FIG. 3 shows a state in which the key 5A is removed from the swinging portion 5B. The seesaw switch 5 is arranged on the front side of a substrate 6, which is an arrangement part on which the seesaw switch 5 is arranged, and includes a key 5A, a swing part 5B, a hinge 5C, and a contact part 5G.

As described above, the swinging portion 5B is arranged on the back side of the key 5A in the seesaw switch 5, and operates the main body switch 6A when the key 5A is pushed to the back side by the operator. That is, the swinging section 5B is arranged so that it can swing in response to a pressing operation on the seesaw switch 5, and its relative positional relationship with the board 6 can be changed. Therefore, when the operator presses the key 5A toward the back side of the swinging section 5B, the vicinity of the pressed position in the swinging section 5B approaches the board 6, so that the main body switch 6A disposed on the board 6 It is possible to make contact and operate the main body switch 6A. The swinging portion 5B is configured as a block having a substantially rectangular parallelepiped shape, for example, and is made of a resin material. Swinging part 5
B is arranged so that the longitudinal direction of the rectangular parallelepiped is the left-right direction of the electronic device 1, the short direction is the vertical direction of the electronic device 1, and the height direction is the front and back directions of the electronic device 1. There is.

Further, in the swinging portion 5B, a protruding portion 5H that projects toward the back side is formed at a position near the center in the longitudinal direction of the swinging portion 5B on the back surface. The protruding portion 5H protrudes toward the back side of the swinging portion 5B from a portion other than the protruding portion 5H on the back side surface of the swinging portion 5B. The protruding portion 5H is formed, for example, at a constant height over the lateral direction of the swinging portion 5B.

As described above, the hinge 5C is made of a resin material, is integrally connected to the swinging part 5B, and swingably supports the swinging part 5B by its own elastic deformation. The swinging section 5B is provided with arm sections 5F extending toward the back side at four locations on the top, bottom, left, and right on the back side, and the four arm sections 5F are provided near four corners on the back side of the swinging section 5B. each is placed. The hinge 5C is connected to the arm portion 5F formed in this way, and is connected to the swinging portion 5B via the arm portion 5F. The hinge 5C has a first hinge 5D and a second hinge 5E, and two first hinges 5D and two second hinges 5E are provided for each swinging portion 5B. Both of the first hinge 5D and the second hinge 5E are formed in the shape of a square rod, and their ends are connected to the arm portion 5F. Further, the first hinge 5D and the second hinge 5E are respectively arranged at both ends in the longitudinal direction of the swinging portion 5B.

The first hinges 5D, which are arranged at both ends of the swinging section 5B in the longitudinal direction, are connected to the same side of the swinging section 5B in the transverse direction of the swinging section 5B. Specifically, the two first hinges 5D are attached to two arm parts 5F located near the upper side of the swing part 5B in the vertical direction of the electronic device 1, among the four arm parts 5F provided on the swing part 5B. , are connected at one end and extend from the arm portion 5F in the longitudinal direction of the swinging portion 5B in the opposite direction to the side where the other first hinge 5D is located. That is, the two first hinges 5D connected to one swinging section 5B are located near different ends in the longitudinal direction of the swinging section 5B and on the upper side of the electronic device 1 in the short direction of the swinging section 5B. They are respectively connected at the closer positions and extend in the longitudinal direction of the swinging portion 5B. The first hinge 5D, which is thus connected to the swinging section 5B via the arm section 5F, has flexibility and bends with the end connected to the swinging section 5B as a fulcrum. It is now possible.

Further, the second hinges 5E, which are arranged at both ends in the longitudinal direction of the swinging part 5B, are connected to the first hinge 5D in the transverse direction of the swinging part 5B, with respect to the swinging part 5B. is connected to the opposite side. Specifically, the two second hinges 5E connected to the swinging section 5B are located near the bottom of the swinging section 5B in the vertical direction of the electronic device 1, among the four arm sections 5F provided on the swinging section 5B. One end is connected to each arm portion 5F (see FIG. 3) located at two locations. The other end of the second hinge 5E is located at a position on the side of the swinging section 5B to which the first hinge 5D is connected, that is, at a position above the electronic device 1 in the lateral direction of the swinging section 5B. It is connected to hinge 5D.

Specifically, the second hinge 5E extends from the position where it is connected to the arm part 5F in the opposite direction of the longitudinal direction of the swinging part 5B to the side where the other second hinge 5E is located, and is located at a predetermined position. The swinging portion 5B is bent in the lateral direction toward the first hinge 5D. That is, the second hinge 5E has a bent portion 5Ea, and is bent at approximately 90 degrees at the bent portion 5Ea. Therefore, the second hinge 5E has a portion between the end connected to the arm portion 5F and the bending portion 5Ea extending in the longitudinal direction of the swinging portion 5B, and a side connected to the first hinge 5D. A portion between the end portion and the bent portion 5Ea extends in the lateral direction of the swinging portion 5B. At that time, the portion between the end of the second hinge 5E on the side connected to the arm portion 5F and the bent portion 5Ea is connected to the first hinge 5D.
It is located closer to the front. Therefore, the portion between the end of the second hinge 5E connected to the first hinge 5D and the bent portion 5Ea is from the front side to the back side as it goes from the bent portion 5Ea side to the first hinge 5D side. It is sloped in the direction of.

Further, the second hinge 5E has flexibility like the first hinge 5D, and does not bend with the end connected to the swinging part 5B via the arm part 5F as a fulcrum. It is now possible. Therefore, the first hinge 5D and the second hinge 5E are located on the same side in the longitudinal direction of the swinging part 5B and are connected to each other by connecting the end of the second hinge 5E to the first hinge 5D. This means that they can bend as one. That is, the hinge 5C having the first hinge 5D and the second hinge 5E can bend together with the first hinge 5D and the second hinge 5E.

The contact portion 5G is connected to the end of the first hinge 5D opposite to the end connected to the swinging portion 5B via the arm portion 5F, and extends in the longitudinal direction of the swinging portion 5B. It is arranged on an extension line of the first hinge 5D. That is, the first hinge 5D has one end connected to the swinging portion 5B, and the other end connected to the contact portion 5G. The contact portion 5G is formed to protrude toward the back side of the electronic device 1 when viewed in the vertical direction of the electronic device 1, that is, when viewed in the lateral direction of the swinging portion 5B. In this way, the contact portion 5G to which the first hinge 5D is connected is a portion of the seesaw switch 5 that comes into contact with the substrate 6, which is an arrangement portion on which the seesaw switch 5 is arranged. The contact portion 5</b>G has a front end surface that protrudes toward the back side of the electronic device 1 in contact with the substrate 6 .

The plurality of seesaw switches 5 arranged on the front side of the board 6 are connected to the side where the first hinge 5D is connected to the swinging part 5B and the second hinge 5E is connected to the swinging part 5B in the lateral direction of the swinging part 5B. All sides are the same. In the first embodiment, in all of the seesaw switches 5 among the plurality of seesaw switches 5, the first hinge 5D is located above the electronic device 1 in the lateral direction of the swinging part 5B with respect to the swinging part 5B. The second hinge 5E is connected to the lower side of the electronic device 1 in the lateral direction of the swinging portion 5B.

The swing portion 5B, hinge 5C, arm portion 5F, and contact portion 5G formed as described above are integrally formed by molding or the like from a resin material.

The swinging portion 5B is arranged such that the contact portion 5G connected to the first hinge 5D contacts the front side of the substrate 6. When the contact portion 5G is in contact with the substrate 6, the second hinge 5E connected to the swing portion 5B and the first hinge 5D is located on the back side of the case portion 3D that accommodates the substrate 6 in the front panel 3. , contacts the case part 3D from the back side. Specifically, a portion of the second hinge 5E between the end connected to the first hinge 5D and the bent portion 5Ea contacts the case portion 3D from the back side of the case portion 3D. Further, the second hinges 5E located on both sides in the longitudinal direction of the swinging portion 5B contact the case portion 3D from the back side of the case portion 3D.

On the other hand, the protruding portion 5H formed on the swinging portion 5B is separated from the substrate 6 when the contact portion 5G is in contact with the substrate 6 and no pressing operation is performed on the seesaw switch 5. That is, since the protruding part 5H is formed on the back side of the swinging part 5B, it faces the board 6 when the contact part 5G is in contact with the board 6, and a pressing operation is not performed on the seesaw switch 5. In the state in which the protrusion 5H is not attached, the protrusion 5H is separated from the substrate 6.

Further, the main body switches 6A, which are mounted on the substrate 6 and two of which are arranged for one seesaw switch 5, are arranged at positions on both sides of the protruding part 5H in the longitudinal direction of the swinging part 5B. That is, the two body switches 6A are mounted on the substrate 6 at positions on both sides of the protrusion 5H in the longitudinal direction of the swinging section 5B, and face the swinging section 5B. These body switches 6A are separated from the swinging portion 5B when the seesaw switch 5 is not pressed.

The seesaw switch 5 and the electronic device 1 according to the first embodiment include the configurations described above, and their functions will be described below. When performing an input operation on the seesaw switch 5, the operator presses the key 5A of the seesaw switch 5 with, for example, a finger. Specifically, a pressing operation is performed on a position near the end of the seesaw switch 5 in the longitudinal direction.

Note that the seesaw switch 5 has different effects on the electronic device 1 when it is pressed at a position near one end in the longitudinal direction and when it is pressed at a position near the other end. Since it is possible to cause different actions to be performed at each end, it is preferable to display the function of the action associated with each end. For example, the operation of the electronic device 1 when a pressing operation is performed near each end in the longitudinal direction of the seesaw switch 5 is displayed on the surface of the key 5A, or displayed near the seesaw switch 5 on the display panel 2. It is preferable to

When a pressing operation is performed at a position near an end in the longitudinal direction of the seesaw switch 5, the seesaw switch 5 swings in a direction in which the side on which the pressing operation is performed moves from the front side to the rear side. The seesaw switch 5 according to the first embodiment has a first fulcrum F1 and a second fulcrum F2 as fulcrums when the seesaw switch 5 swings. The first fulcrum F1 is a contact portion between the case portion 3D of the front panel 3 and the portion of the second hinge 5E between the end portion of the second hinge 5E connected to the first hinge 5D and the bent portion 5Ea. , serves as a fulcrum located near the end in the longitudinal direction of the swinging portion 5B. That is, the first fulcrum F1 is disposed near both ends in the longitudinal direction of the swinging portion 5B. The second fulcrum F2 is a fulcrum formed by the protruding portion 5H of the swinging portion 5B coming into contact with the substrate 6, and is located between both ends of the swinging portion 5B in the longitudinal direction. In other words, the protruding portion 5H of the swinging portion 5B is provided as the second fulcrum F2, and functions as a fulcrum by contacting the substrate 6.

The first fulcrums F1 are located at two locations near both ends in the longitudinal direction of the swinging portion 5B, and function as fulcrums depending on the position of the pressing operation when pressing the seesaw switch 5. The first fulcrum F1 is switched. Further, the first fulcrum F1 and the second fulcrum F2 are such that the fulcrum of the swing of the swinging portion 5B is the first fulcrum F1 and the second fulcrum F2 depending on the amount of pressing operation when pressing the seesaw switch 5. It switches between two fulcrums F2.

To explain the swinging of the seesaw switch 5 in response to a pressing operation, when the pushing operation Pa (see FIG. 4) is performed near one end in the longitudinal direction of the seesaw switch 5, first, the swinging portion 5B moves in the longitudinal direction. The swinging portion 5B swings Ra (see FIG. 4) together with the key 5A, using the first fulcrum F1a (see FIG. 4) on the other end side as a fulcrum. That is, the swinging portion 5B swings Ra about the first fulcrum F1a in a direction in which the end portion on the side on which the pressing operation Pa is performed in the longitudinal direction moves toward the back surface.

The first fulcrum F1a is the distance from the position where the pressing operation Pa is performed in the longitudinal direction of the swinging part 5B to the second fulcrum F2 from the position where the pressing operation Pa is performed in the longitudinal direction of the swinging part 5B. It is large compared to the distance. Therefore, when the swinging section 5B swings Ra about the first fulcrum F1a, the angle of swing relative to the amount of pressing operation is the same as when the swinging section 5B swings Ra about the second fulcrum F2. , which is smaller than the angle of swing relative to the amount of pressing operation.

When the swinging portion 5B swings Ra about the first fulcrum F1a, the protrusion 5H of the swinging portion 5B facing the substrate 6 approaches the substrate 6, and the protrusion 5H comes into contact with the substrate 6. If the pressing operation Pa is continued with the protruding portion 5H in contact with the substrate 6, the swinging fulcrum of the swinging portion 5B switches to the second supporting point F2. In other words, the distance between the second fulcrum F2 and the substrate 6 changes depending on the amount of pressing operation when performing a pressing operation near the end opposite to the end where the first fulcrum F1 of the swinging section 5B is located. When the second fulcrum F2 is in contact with the substrate 6, the swinging portion 5B swings about the second fulcrum F2. In this manner, the swinging portion 5B is configured such that the swinging fulcrum is set to the first fulcrum depending on the amount of pressing operation to the end opposite to the end where the first fulcrum F1 is located in the longitudinal direction of the swinging portion 5B. It switches between F1 and the second fulcrum F2.

Here, the first fulcrum F1 is a fulcrum formed by contact between the case portion 3D of the front panel 3 and the second hinge 5E, and the second hinge 5E has flexibility. There is. Therefore, the first fulcrum F1 also has flexibility, and when the swinging portion 5B swings about the second fulcrum F2, the first fulcrum F1 is bent.

For example, when the swinging part 5B swings Ra about the second fulcrum F2 due to the pressing operation Pa near one end in the longitudinal direction of the seesaw switch 5, the other end in the longitudinal direction of the swinging part 5B swings Ra. The end portion increases in distance from the substrate 6 and moves toward the front side. Therefore, a force in a direction toward the front side also acts on the first fulcrum F1a located at the end opposite to the side on which the pressing operation Pa is performed in the longitudinal direction of the seesaw switch 5, but the first fulcrum The second hinge 5E forming F1a is in contact with the case portion 3D of the front panel 3 from the back side. As a result, movement of the second hinge 5E from the back side toward the front side is restricted by the case portion 3D.

On the other hand, since the second hinge 5E has flexibility, it can be bent by an external force. Therefore, the swinging part 5B that swings about the second fulcrum F2 is in a state where the second hinge 5E is bent, the second hinge 5E contacts the case part 3D, and the position of the second hinge 5E does not change. Thus, the entire swinging section 5B can swing. That is, the swinging portion 5B swings Ra about the second fulcrum F2 by bending the first fulcrum F1a located at the end opposite to the side on which the pressing operation Pa is performed in the longitudinal direction. be able to.

By swinging Ra about the second fulcrum F2, the swinging part 5B moves toward the rear in the longitudinal direction of the swinging part 5B near the end on the side where the pressing operation Pa is performed. It contacts the main body switch 6A arranged on the board 6 between the swinging part 5B and the board 6. At that time, two main body switches 6A are arranged for one seesaw switch 5, but when the swinging portion 5B swings Ra about the second fulcrum F2, the two main body switches 6A Of these, the swinging part 5B contacts the main body switch 6Aa (see FIG. 4) located near the end of the swinging part 5B on the side where the pressing operation Pa has been performed in the longitudinal direction.

In other words, the main body switch 6Aa that contacts the swinging part 5B when the swinging part 5B swings Ra about the second fulcrum F2 has the first fulcrum F1a in the swinging part 5B of the two main body switches 6A. The main body switch 6A is disposed at the end opposite to the end where the main body switch 6A is located. This main body switch 6Aa comes into contact with the swinging portion 5B by the swinging Ra of the swinging portion 5B caused by the pressing operation Pa near one end in the longitudinal direction of the seesaw switch 5.

The main body switch 6Aa operates when the swinging part 5B comes into contact with it, detects that a pressing operation Pa is performed near one end of the seesaw switch 5, and activates the control part (not shown) of the electronic device 1. (omitted) that the pressing operation Pa has been performed near one end of the seesaw switch 5. Thereby, the control unit performs the operation assigned to the vicinity of one end of the seesaw switch 5, that is, the operation when the pressing operation Pa is performed near the one end of the seesaw switch 5. Then, the electronic device 1 is controlled.

On the other hand, when the swinging part 5B swings Ra about the second fulcrum F2, the end of the swinging part 5B is located on the opposite side of the second fulcrum F2 to the end on which the pressing operation Pa is performed. Movement of the portion in the front direction is regulated by a first fulcrum F1a formed by contact between the case portion 3D of the front panel 3 and the second hinge 5E. Therefore, when the swinging portion 5B swings Ra about the second fulcrum F2, the pressing operation Pa is performed on the swinging portion 5B in the longitudinal direction of the swinging portion 5B of the two main body switches 6A. A force is applied in the front direction from the main body switch 6Ab (see FIG. 4), which is located near the end opposite to the opposite end, but as the first fulcrum F1a is bent, it is moved away from the second fulcrum F2. The main body switch 6Aa (see FIG. 4) is reliably operated while suppressing the lifting of the portion located on the opposite side of the end on the side where the pressing operation Pa is performed in the front direction.

Similarly, when the pressing operation Pb (see FIG. 4) is performed near the other end in the longitudinal direction of the seesaw switch 5, the first fulcrum on the one end in the longitudinal direction of the swinging part 5B The swinging portion 5B swings Rb (see FIG. 4) together with the key 5A using F1b (see FIG. 4) as a fulcrum. That is, the swinging portion 5B swings Rb about the first fulcrum F1b in a direction in which the end portion on the side on which the pressing operation Pb is performed in the longitudinal direction moves toward the back surface.

The first fulcrum F1b is the distance from the position where the pressing operation Pb is performed in the longitudinal direction of the swinging part 5B to the second fulcrum F2 from the position where the pressing operation Pb is performed in the longitudinal direction of the swinging part 5B. It is large compared to the distance. Therefore, when the swinging section 5B swings Rb about the first fulcrum F1b, the angle of swing relative to the pressing operation amount is the same as when the swinging section 5B swings Rb about the second fulcrum F2. , which is smaller than the angle of swing relative to the amount of pressing operation.

When the swinging portion 5B swings Rb about the first fulcrum F1b, the protrusion 5H of the swinging portion 5B facing the substrate 6 approaches the substrate 6, and the protrusion 5H comes into contact with the substrate 6. Thereby, the fulcrum of the swinging portion 5B switches from the first fulcrum F1b to the second fulcrum F2.

The second hinge 5E on the first fulcrum F1b side also has flexibility like the second hinge 5E on the first fulcrum F1a side, so the swinging portion 5B swings about the second fulcrum F2. In this case, the second hinge 5E on the side of the first fulcrum F1b bends while being in contact with the case portion 3D that forms the first fulcrum F1b together with the second hinge 5E. Thereby, the entire swinging section 5B can swing without changing the position of the second hinge 5E. That is, the swinging portion 5B swings Rb about the second fulcrum F2 by bending the first fulcrum F1b located at the end opposite to the side on which the pressing operation Pb is performed in the longitudinal direction. be able to.

By swinging Rb about the second fulcrum F2, the swinging portion 5B moves toward the rear side in the longitudinal direction of the swinging portion 5B near the end on the side where the pressing operation Pb is performed. As a result, the swinging section 5B contacts the main body switch 6Ab, which is located closer to the end of the two main body switches 6A on the side where the pressing operation Pb has been performed in the longitudinal direction of the swinging section 5B.

In other words, the main body switch 6Ab that contacts the swinging part 5B when the swinging part 5B swings Rb about the second fulcrum F2 has the first fulcrum F1b of the swinging part 5B among the two main body switches 6A. The main body switch 6A is disposed at the end opposite to the end where the main body switch 6A is located. This main body switch 6Ab comes into contact with the swinging part 5B by the swinging Rb of the swinging part 5B caused by the pressing operation Pb near the other end in the longitudinal direction of the seesaw switch 5.

The main body switch 6Ab operates when the swinging part 5B comes into contact with it, detects that a pressing operation Pb is performed near the other end of the seesaw switch 5, and sends a message to the control part of the electronic device 1. Then, it is transmitted to the vicinity of the other end of the seesaw switch 5 that the pressing operation Pb has been performed. Thereby, the control unit performs the operation assigned to the vicinity of the other end of the seesaw switch 5, that is, the operation when the pressing operation Pb is performed near the other end of the seesaw switch 5. Then, the electronic device 1 is controlled.

On the other hand, when the swinging part 5B swings Rb about the second fulcrum F2, the end of the swinging part 5B is located on the opposite side of the second fulcrum F2 to the end on which the pressing operation Pb is performed. Movement of the portion in the front direction is regulated by a first fulcrum F1b formed by contact between the case portion 3D of the front panel 3 and the second hinge 5E. Therefore, when the swinging section 5B swings Rb about the second fulcrum F2, the pushing operation Pb is performed on the swinging section 5B in the longitudinal direction of the swinging section 5B of the two main body switches 6A. A force is applied in the front direction from the main body switch 6Aa (see FIG. 4), which is located near the end opposite to the opposite end. The main body switch 6Ab (see FIG. 4) is reliably operated while suppressing the lifting of the portion located on the opposite side of the end on the side where the pressing operation Pb is performed in the front direction.

As shown above, the seesaw switch 5 swings to the main body switch 6A differently depending on when the pressing operation Pa is performed near one end in the longitudinal direction and when the pressing operation Pb is performed near the other end. Since the moving part 5B can be brought into contact, different input operations can be performed depending on the pressed position.

Furthermore, if the operator releases his/her finger from the seesaw switch 5 after performing a pressing operation on the seesaw switch 5, the swinging portion 5B will move around the pressed end due to the elasticity of the second hinge 5E. The swinging portion 5B swings in the direction away from the substrate 6. That is, when the pressing operation Pa is performed near one end in the longitudinal direction of the seesaw switch 5 and the application of the pressing force is finished, the swinging portion 5B moves the first fulcrum F1a on the other end side. Due to the elasticity of the second hinge 5E formed, the entire swinging section 5B swings in a direction in which the vicinity of the end on the side where the pressing operation Pa is performed moves away from the substrate 6. As a result, the swinging portion 5B is separated from the main body switch 6Aa, and the protruding portion 5H of the swinging portion 5B, which forms the second fulcrum F2, is also separated from the substrate 6.

Similarly, when applying the pressing force is finished after performing the pressing operation Pb near the other end in the longitudinal direction of the seesaw switch 5, the swinging portion 5B moves to the first fulcrum F1b on the one end side. Due to the elasticity of the second hinge 5E forming the second hinge 5E, the entire swinging section 5B swings in a direction in which the vicinity of the end on the side where the pressing operation Pb is performed moves away from the substrate 6. As a result, the swinging portion 5B is separated from the main body switch 6Ab, and the protruding portion 5H of the swinging portion 5B, which forms the second fulcrum F2, is also separated from the substrate 6. Accordingly, when the operator releases his/her finger from the seesaw switch 5 after performing a pressing operation on the seesaw switch 5, the seesaw switch 5 returns to the state before the pressing operation was performed.

The seesaw switch 5 and the electronic device 1 according to the first embodiment described above swing according to the amount of pressing operation on the end opposite to the end where the first fulcrum F1 is located in the longitudinal direction of the swinging part 5B. Since the fulcrum of the swing of the portion 5B is switched between the first fulcrum F1 and the second fulcrum F2, the way the swing portion 5B swings can be changed during the pressing operation. In other words, in the range in which the swinging portion 5B swings about the first fulcrum F1, the swinging angle relative to the amount of pressing operation can be made small, so that when the seesaw switch 5 swings, the seesaw switch 5 and the front panel It is possible to suppress deterioration in appearance due to an increase in the gap between

In addition, in the range in which the swinging portion 5B swings about the second fulcrum F2, lifting of the end opposite to the end on which the pressing operation is performed in the longitudinal direction of the swinging portion 5B is suppressed. I can do it. As a result, when a pressing operation is performed on the seesaw switch 5, the swinging portion 5B is prevented from coming into contact with a main body switch 6A different from the main body switch 6A corresponding to the pressing operation, and the seesaw switch 5 is It is possible to suppress deterioration in appearance due to the raised key 5A of No. 5. As a result, both aesthetic appearance and ease of manufacture can be achieved.

Further, the distance between the protruding part 5H of the swinging part 5B and the substrate 6 changes depending on the amount of pressing operation on the swinging part 5B, and the second fulcrum F2 is such that the protruding part 5H of the swinging part 5B is connected to the board 6. By coming into contact with this, it functions as a fulcrum for the swinging of the swinging portion 5B. Therefore, the swinging portion 5B can easily switch the fulcrum when swinging between the first fulcrum F1 and the second fulcrum F2 according to the amount of pressing operation applied to the swinging portion 5B. As a result, it is possible to more easily achieve both aesthetic appearance and ease of manufacture.

Further, the first fulcrum F1 has flexibility, and when the swinging part 5B swings about the second fulcrum F2, the first fulcrum F1 is bent, so the swinging part 5B becomes the second fulcrum. When swinging about F2 as a fulcrum, it is possible to swing more reliably. Thereby, the fulcrum at which the swinging portion 5B swings can be more reliably switched between the first fulcrum F1 and the second fulcrum F2. As a result, it is possible to more reliably ensure both aesthetic appearance and ease of manufacture.

Moreover, since the first fulcrum F1 is arranged at both ends in the longitudinal direction of the swinging part 5B, even when a pressing operation is performed on a position near any end in the longitudinal direction of the seesaw switch 5, The swinging portion 5B can be rocked by switching between the first fulcrum F1 and the second fulcrum F2 according to the amount of pressing operation. As a result, it is possible to more reliably ensure both aesthetic appearance and ease of manufacture.

[Embodiment 2]
The seesaw switch 5 according to the second embodiment has substantially the same configuration as the seesaw switch 5 according to the first embodiment, but an auxiliary switch 6B is provided in addition to the main switch 6A as a tact switch that the swinging portion 5B comes into contact with. It is characterized by the fact that it is Since the other configurations are the same as those of the first embodiment, their explanation will be omitted and the same reference numerals will be given.

FIG. 5 is a sectional view of the seesaw switch 5 according to the second embodiment. Like the seesaw switch 5 according to Embodiment 1, the seesaw switch 5 according to the second embodiment has a first fulcrum F1 and a second fulcrum F2, and the first fulcrum F1 in the longitudinal direction of the swinging portion 5B is located. The fulcrum of the swing of the swinging portion 5B is switched between the first fulcrum F1 and the second fulcrum F2 according to the amount of pressing operation on the end opposite to the end. Further, in the seesaw switch 5 according to the second embodiment, an auxiliary switch 6B is arranged at a position facing the second fulcrum F2.

Specifically, the auxiliary switch 6B is provided as a tact switch like the main body switch 6A, and is mounted on the board 6 at a position between the two main body switches 6A. That is, the auxiliary switch 6B is mounted at a position facing the protruding portion 5H of the swinging portion 5B. The protruding portion 5H of the swinging portion 5B is spaced apart from the auxiliary switch 6B when the seesaw switch 5 is not pressed. The protrusion 5H provided as the second fulcrum F2 functions as a fulcrum by contacting the auxiliary switch 6B.

In the seesaw switch 5 according to the second embodiment having the auxiliary switch 6B, the main body switch 6A functions in cooperation with the auxiliary switch 6B. Specifically, the auxiliary switch 6B is used as a tact switch that functions during the first stroke when the amount of pressing operation on the seesaw switch 5 is relatively small, and the main switch 6A is used as a tact switch that functions when the amount of pressing operation on the seesaw switch 5 is relatively small. It is used as a tact switch that functions during the second stroke, which is larger than one stroke. The first stroke in this case is such that when a pressing operation is performed on the seesaw switch 5, the swinging portion 5B contacts the auxiliary switch 6B but does not contact the main switch 6A. The second stroke is a pressing operation amount such that the swinging portion 5B contacts both the auxiliary switch 6B and the main switch 6A. The main body switch 6A functions in cooperation with the auxiliary switch 6B by being pressed while being pressed against the auxiliary switch 6B.

Next, the operation of the seesaw switch 5 according to the second embodiment will be explained. For example, when a pressing operation Pa is performed near one end of the seesaw switch 5 in the longitudinal direction, the first fulcrum F1a on the other end of the swinging portion 5B in the longitudinal direction The swinging portion 5B swings Ra together with the key 5A using the key 5A as a fulcrum. That is, the swinging portion 5B swings Rb about the first fulcrum F1a in a direction in which the end portion on the side on which the pressing operation Pa is performed in the longitudinal direction moves toward the back surface.

When the swinging part 5B swings Ra about the first fulcrum F1a, the protrusion 5H formed on the swinging part 5B approaches the auxiliary switch 6B facing the protrusion 5H, and the protrusion 5H approaches the auxiliary switch 6B. Contact. That is, when the amount of pressing operation Pa of the seesaw switch 5 reaches the first stroke, the protrusion 5H contacts the auxiliary switch 6B.

As a result, the auxiliary switch 6B detects that the pressing operation amount of the pressing operation Pa on the seesaw switch 5 has reached the first stroke, and detects that the pressing operation has been performed with the pressing operation amount of the first stroke. The information is transmitted to the first control unit. The control unit controls the electronic device 1 to perform an operation that is preset as an operation to be performed when the pressing operation amount of the pressing operation on the seesaw switch 5 reaches the first stroke. The auxiliary switch 6B is thus operated by the swinging of the swinging portion 5B about the first fulcrum F1.

When the amount of pressing operation on the seesaw switch 5 reaches the first stroke and the protruding portion 5H contacts the auxiliary switch 6B, the fulcrum of the swinging portion 5B switches from the first fulcrum F1a to the second fulcrum F2. The second fulcrum F2 in this case is a fulcrum formed by the protruding portion 5H of the swinging portion 5B coming into contact with the auxiliary switch 6B.

When the pressing operation Pa near one end of the seesaw switch 5 is continued with the swinging fulcrum of the swinging part 5B switched from the first fulcrum F1a to the second fulcrum F2, the swinging part 5B It contacts the main body switch 6Aa located near the end on the side where the pressing operation Pa is performed in the longitudinal direction of the swinging portion 5B. That is, when the pressing operation amount of the pressing operation Pa on the seesaw switch 5 reaches the second stroke, the swinging portion 5B contacts the main body switch 6Aa.

As a result, the main body switch 6Aa detects that the pressing operation amount of the pressing operation Pa on the seesaw switch 5 has reached the second stroke, and electronically detects that the pressing operation Pa has been performed with the pressing operation amount of the second stroke. The information is transmitted to the control unit of the device 1. The control unit performs an operation that is preset as an operation to be performed when the amount of pressing operation Pa when the pressing operation Pa is performed near one end in the longitudinal direction of the seesaw switch 5 reaches the second stroke. Then, the electronic device 1 is controlled. The main body switch 6A is thus operated by the swinging of the swinging portion 5B about the second fulcrum F2.

Similarly, when the pressing operation Pb is performed on the seesaw switch 5 near the other end in the longitudinal direction, the first fulcrum F1b on the one end side in the longitudinal direction of the swinging part 5B is used as the fulcrum. , the swinging portion 5B swings Rb together with the key 5A. When the swinging portion 5B swings Rb about the first fulcrum F1b and the amount of pressing operation Pb of the seesaw switch 5 reaches the first stroke, the protruding portion 5H contacts the auxiliary switch 6B.

Thereby, the auxiliary switch 6B transmits to the control unit that the pressing operation amount of the first stroke is performed, and the control unit determines that the pressing operation amount of the pressing operation on the seesaw switch 5 is the first stroke. The electronic device 1 is controlled to perform an operation that is preset as an operation to be performed when the stroke is reached.

When the amount of pressing operation on the seesaw switch 5 reaches the first stroke and the protruding portion 5H contacts the auxiliary switch 6B, the fulcrum of the swinging portion 5B switches from the first fulcrum F1b to the second fulcrum F2. When the pressing operation Pb continues with the swinging fulcrum of the swinging portion 5B switched from the first fulcrum F1b to the second fulcrum F2, and the amount of pressing operation Pb reaches the second stroke, the swinging portion 5B contacts the main body switch 6Ab located near the end on the side where the pressing operation Pb was performed in the longitudinal direction of the swinging portion 5B.

Thereby, the main body switch 6Ab transmits to the control unit that the pressing operation Pb has been performed with the pressing operation amount of the second stroke. The control unit performs an operation that is preset as an operation to be performed when the amount of pressing operation Pb is performed near the other end in the longitudinal direction of the seesaw switch 5 reaches the second stroke. Then, the electronic device 1 is controlled.

In the second embodiment, the main body switch 6A functions in cooperation with the auxiliary switch 6B in order to detect the contact of the swinging portion 5B while detecting that the protrusion 5H is in contact with the auxiliary switch 6B. . As a result, for example, when the seesaw switch 5 is used as a switch for reproducing content such as a video that can be played back on the electronic device 1, the first stroke starts or stops the content playback, and the second stroke starts or stops the content playback. It is possible to set related functions between the first stroke and the second stroke, such as high-speed playback or reverse playback of the content.

In the seesaw switch 5 and the electronic device 1 according to the second embodiment, the auxiliary switch 6B is arranged at a position facing the second fulcrum F2, so three or more functions can be set in the seesaw switch 5. As a result, it is possible to improve the functionality of the seesaw switch 5, and it is possible to easily perform multiple input operations without increasing the number of components such as the button 4 and the seesaw switch 5 that perform input operations on the electronic device 1. can. As a result, it is possible to improve the operability when performing a plurality of types of input operations.

Further, by setting three or more functions to the seesaw switch 5, the number of members for performing input operations, such as the button 4 and the seesaw switch 5, can be reduced relative to the number of types of input operations. As a result, the device can be made more compact.

Further, the auxiliary switch 6B is operated by the swinging of the swinging part 5B about the first fulcrum F1, and the main switch 6A is operated by the swinging of the swinging part 5B about the second fulcrum F2. Therefore, the operation of the auxiliary switch 6B and the operation of the main body switch 6A can be switched by a series of pressing operations on the seesaw switch 5. As a result, the operability when performing a plurality of types of input operations can be more reliably improved.

Moreover, since the main body switch 6A cooperates with the auxiliary switch 6B, a plurality of related functions can be set in the seesaw switch 5. Thereby, a plurality of related input operations can be performed with one seesaw switch 5. As a result, the operability when performing a plurality of types of input operations can be more reliably improved.

[Modified example]
In addition, in the first and second embodiments described above, the first fulcrum F1 is disposed near both ends in the longitudinal direction of the swinging portion 5B, but the first fulcrum F1 may be located at one location. That is, in the first and second embodiments described above, the first fulcrum F1 is provided at two locations on one seesaw switch 5, and the two main body switches 6A are provided on one seesaw switch 5. F1 may be provided at one location, and only one main body switch 6A may be provided. Even if there is one first fulcrum F1 and one main body switch 6A, the main body switch 6A is located at the end opposite to the end where the first fulcrum F1 is located in the longitudinal direction of the swinging portion 5B. By arranging the swing part 5B, the swing part 5B can be brought into contact with the main body switch 6A by swinging the swing part 5B when the seesaw switch 5 is pressed. In this way, the first fulcrum F1 only needs to be located at at least one end in the longitudinal direction of the swinging portion 5B.

1 Electronic device 2 Display panel 3 Front panel 4 Button 5 Seesaw switch 5A Key 5B Swinging part 5C Hinge 5D First hinge 5E Second hinge 5Ea Bent part 5G Contact part 5H Projecting part 6 Board 6A Main switch 6B Auxiliary switch 7 Holder part F1 1st fulcrum F2 2nd fulcrum

Claims (3)

a swinging section that swings when pressed;
a first fulcrum located at at least one end in the longitudinal direction of the swinging section and having flexibility;
a second fulcrum located between both ends in the longitudinal direction of the swinging part;
a main body switch that is disposed on an end side of the swinging section opposite to the end where the first fulcrum is located, and that comes into contact with the swinging section when the swinging section swings due to the pressing operation;
Equipped with
The distance between the second fulcrum and the substrate on which the swinging section is arranged changes depending on the amount of pressing operation applied to an end of the swinging section opposite to the end where the first fulcrum is located. ,
The swinging part is configured such that the swinging fulcrum is aligned between the first fulcrum and the first fulcrum in accordance with a pressing operation amount on an end opposite to the end in the longitudinal direction of the swinging part where the first fulcrum is located. When the second fulcrum is in contact with the substrate, it swings about the second fulcrum, and when the swinging section swings about the second fulcrum, the second fulcrum contacts the substrate . A seesaw switch characterized by one fulcrum bending. The seesaw switch according to claim 1, wherein the first fulcrum is disposed at both ends of the swinging portion in the longitudinal direction. a display panel having a display surface on the front;
a front panel surrounding the display panel;
The seesaw switch according to claim 1 or 2, surrounded by the front panel;
An electronic device characterized by comprising:

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