JP5585148B2 - Pointing key - Google Patents

Description

  The present invention relates to a pointing key, and more particularly to an analog pointing key provided as an operation device for an electronic device.

  In recent years, cellular phone terminals and portable music players are equipped with functions similar to those of a personal computer such as WEB browsing, and a pointer is displayed on a display screen like a mouse for a personal computer as well as a general direction key. There is a need to install a pointing device that moves continuously and moves in an analog fashion.

  As such, the rigid key top is fixed to the surface, and the rigid key top is allowed to displace in a direction along the surface at a position surrounding the rigid key top; and A support member provided with an elastic return portion capable of restoring the displacement, and is fixed to the support member and surrounds the rigid key top, and is positioned between the rigid key top and the elastic return portion. There is known an analog pointing key structure including a ring-shaped magnet member and a magnetic sensor that detects a change in magnetic flux density due to the displacement of the ring-shaped magnet member interlocked with the rigid key top.

  For example, in Patent Document 1 below, a key top and a support member having a pusher for pressing the contact input portion of the substrate facing the back surface on the back surface, the key top being fixed to the surface on the operation surface side, A magnet that is fixed to a support member at a side position of the pusher with the pusher at the center, a magnetic sensor that detects a change in magnetic flux density caused by the interlocking of the magnets accompanying the lateral movement of the key top, and a magnet and a pusher; There is disclosed an analog pointing key structure provided with an elastic flexible portion that allows displacement in the direction of the pressing operation by pressing the key top.

JP 2007-12591 A

  By the way, in the analog pointing key structure disclosed in Patent Document 1, the key top is fixed to a base sheet made of a rubber-like elastic body with an adhesive. For this reason, the key top is moved to the side perpendicular to the direction in which the key top is pushed in. If the user strongly operates the key top, the key top may be peeled off from the base sheet. Will be damaged.

  In addition, since the operation of the key top is defined only by the support member, for example, when the key top is pressed, the displacement of the key top in the pressing operation direction is not immediately restored, or the reactivity of the magnet linked to the key top is low. There was a problem of getting worse. That is, such an analog pointing key structure with low operability has a problem of poor practicality.

  Therefore, an object of the present invention is to provide a pointing key that is the above-described problem and has excellent durability, excellent operability, and excellent practicality.

In order to achieve the above object, a pointing key according to an aspect of the present invention includes:
An operation key top exposed on the surface of the casing of the electronic device and operated by an operator;
An enclosure member that is exposed on the surface of the housing and is provided to surround the operation key top, and has a hole that exposes the operation key top on the surface of the housing;
The operation key top and the surrounding member are positioned below and formed so as to close a gap between the operation key top and the surrounding member, the operation key top is fixed to the upper surface, and the operation key top is A support member having an elastic return portion that allows displacement in the circumferential direction and that can restore the displacement at a location located around the operation key top; and
A ring-shaped magnet member that is positioned below the surrounding member and the support member and is fixed between the support member and positioned between the operation key top and the elastic return portion;
A magnetic sensor that detects a change in magnetic flux density due to the displacement of the ring-shaped magnet member interlocked with the operation key top;
An annular outer peripheral plate located below the surrounding member and provided on the upper surface of the support member, and having an inner peripheral portion located between the outer side of the operation key top and the inner side of the hole of the surrounding member. ,
A key top support plate that is interposed between the operation key top and the support member and is fixedly installed; and
A vertical elastic member disposed below the operation key top and the support member, allowing the operation key top to be displaced downward and restoring the displacement;
Is provided.

  By being configured as described above, the present invention has excellent durability, good operability, and can improve practicality.

It is a disassembled perspective view which shows the structure of the mobile telephone in embodiment of this invention. It is a disassembled perspective view of the key sheet disclosed in FIG. FIG. 3 is a partial cross-sectional view of the key sheet disclosed in FIG. 2.

<Embodiment 1>
A first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an exploded perspective view showing a structure of a mobile phone, and FIG. 2 is an exploded perspective view of a key sheet mounted on the mobile phone. FIG. 3 is a partial cross-sectional view of the key sheet.

[Constitution]
The pointing key according to the first embodiment of the present invention constitutes an operating device that is a part of the configuration of the mobile phone. Specifically, the pointing key in the present embodiment is a pointing key that allows the operator to detect an input of a pressing operation or a moving operation in a predetermined direction along the operation surface.

  In particular, as shown in FIG. 1, the pointing key in the present embodiment is provided in a foldable mobile phone having a display-side casing and an operation unit-side casing. That is, the pointing key is provided on the casing on the operation unit side. Note that the pointing key in the present invention is not limited to being mounted on a mobile phone, and may be mounted on any electronic device such as a digital camera or a portable game device.

  FIG. 1 is an exploded perspective view showing the structure of the operation unit side housing of the mobile phone. As shown in this figure, the operation unit side housing has a key sheet 1 formed in a sheet shape, a metal dome sheet 14, and a flexible substrate 16, which are attached to a front case 24. It is comprised by. The front case 24 is formed by integrally molding the insert metal plate 19 (see the hatched portion in FIG. 1) and resin.

  2 is an exploded perspective view of the key sheet 1 disclosed in FIG. 1, and FIG. 3 is a partial cross-sectional view showing the structure of a pointing key portion. As shown in FIG. 2, the key sheet 1 includes a key unit 2, a direction key 25, a magnet concealment plate 4, a decision key top 3, a peeling prevention plate 13, a ring-shaped magnet member 5, and a key rubber 6. And a stopper plate 10.

  The key unit 2 is a member molded into a sheet shape, and is formed with a circular hole 2a and a plurality of buttons 2c. The circular hole 2a is configured such that the determination key top 3 and the direction key 25 are exposed to the outside of the casing. The button 2c is elastically deformable so as to be pressed and returned in the thickness direction of the key unit 2.

  As shown in FIGS. 2 and 3, the decision key top 3 (operation key top) is a member formed by molding a hard resin into a substantially disk shape, and directly touches the operator's finger or the like on the upper surface to directly perform the operation. It has a convex top portion to be received and a flange portion formed on the outer peripheral side of the top portion. The determination key top 3 is attached to the peeling prevention plate 13 on the back side with an adhesive or the like.

  The peeling prevention plate 13 (key top support plate) is a member obtained by molding a hard resin or the like into a substantially disk shape, and is larger than the outer diameter of the decision key top 3 and larger than the inner diameter of the magnet hidden plate 4 described later. Has a large outer diameter. In the peeling prevention plate 13, the decision key top 3 is fixed to the upper surface with an adhesive or the like, and the lower surface (back surface) is fixed to the key rubber 6 with an adhesive or the like. That is, the peeling prevention plate 13 is interposed between the determination key top 3 and the key rubber 6 and functions to firmly fix the determination key top 3 to the key rubber 6.

  The direction key 25 (second operation key top (enclosure member)) is a thin and highly rigid metal plate formed into a substantially annular shape, and is larger than the circular hole 2 a of the key unit 2. A hole 25 a having a diameter and an inner diameter larger than the outer diameter of the determination key top 3 is formed. As a result, the determination key top 3 is arranged such that the top portion is exposed to the housing surface inside the hole 25 a of the direction key 25.

  Next, the configuration of the key rubber 6 (support member) will be described in detail. The key rubber 6 shown in FIG. 2 is formed in a sheet shape made of a rubber-like elastic body (rubber-like member), and is a member formed to be approximately the same size as the key unit 2. Since the key rubber 6 is positioned below the determination key top 3 and the direction key 25 described above, the key rubber 6 is formed so as to close a gap between the determination key top 3 and the direction key 25. As shown in FIGS. 3 and 2, the key rubber 6 includes a peeling prevention plate attaching part 7, a ring-shaped magnet fixing part 9, a bellows part 8, and a direction key attaching part 26.

  The peeling prevention plate attaching portion 7 is a circular plane having a size substantially corresponding to the peeling prevention plate 13 and is formed at the upper center portion of the upper surface (surface) of the key rubber 6. And the peeling prevention plate 13 is fixed to this peeling prevention plate sticking part 7, and the determination key top 3 is further fixed on it.

  Further, as shown in FIG. 3, the ring-shaped magnet fixing portion 9 is formed on the back surface side around the tear-off preventing plate attaching portion 7 and is recessed from the back surface side to the front surface (upper surface) side. It is comprised in the part of. And in this ring-shaped magnet fixing | fixed part 9, the ring-shaped magnet member 5 which consists of an annular | circular shaped permanent magnet is accommodated, and is arrange | positioned fixedly. That is, the ring-shaped magnet member 5 is disposed below the key rubber 6 and on the side opposite to the mounting surface of the determination key top 3 and the direction key 25. Thereby, since the ring-shaped magnet member 5 is covered with the key rubber 6 on the determination key top 3 side, it is possible to prevent liquid such as water from adhering to the ring-shaped magnet member 5.

  The ring-shaped magnet member 5 has an inner diameter that is smaller than the diameter of the hole 25a of the direction key 25 and an outer diameter that is larger than the diameter of the hole 25a. Further, the difference between the outer diameter and the inner diameter of the ring-shaped magnet member 5 is configured to be larger than the slidable length of the decision key top 3 that slides by the bellows portion 8 formed on the key rubber 6 as will be described later.

  The outer diameter of the ring-shaped magnet member 5 is preferably reduced as much as possible within a range that does not affect the detection of the differential magnetic flux by the Hall IC 17 (described later) of the ring-shaped magnet member 5. Thereby, the diameter of the bellows part 8 to be described later of the key rubber 6 can be reduced, and the adjustment range of the moving load of the direction key 25 can be expanded.

  The bellows portion 8 (elastic return portion) is a portion in which the cross section in the thickness direction of the key rubber 6 is formed into a bellows shape, and is annularly formed at a position surrounding the ring-shaped magnet fixing portion 9. The bellows portion 8 is configured to be elastically deformable and expandable when receiving a load acting in a direction along the surface of the peeling prevention plate attaching portion 7, that is, in a sliding direction along the surface of the key unit 2. ing. That is, the bellows portion 8 acts so that the determination key top 3 can be displaced in the circumferential direction and can be restored by an elastic force.

  The direction key attaching part 26 is an annular plane part formed at a position surrounding the bellows part 8. An outer peripheral portion of the direction key 25 is fixed to the direction key attaching portion 26 with an adhesive. Thus, the direction key 25 is allowed to be displaced vertically by the bellows portion 8 by being fixed to the direction key attaching portion 26 formed outside the bellows portion 8 of the key rubber 6. And the displacement can be restored.

  In the key rubber 6, the rubber hardness of the inner region of the bellows portion 8 that is elastically deformed when the determination key top 3 is operated and the other peripheral regions can be made different from each other. In this case, it is preferable that the rubber hardness is different at least between the bellows portion 8 and the direction key attaching portion 26 that supports the direction key 25. Thereby, each moving load can be appropriately adjusted when the enter key top 3 is operated and when the other direction keys 25 are operated.

  In addition, although not shown in the figure, button pushers protrude from the key rubber 6 at positions corresponding to the buttons 2 c equipped on the key unit 2. Further, the key rubber 6 has a direction key presser protruding at a position corresponding to the outer peripheral edge of the direction key 25. For example, four directional key presses are provided at equal intervals in the circumferential direction, for example.

  As shown in FIGS. 2 and 3, the stopper plate 10 (vertical elastic member) is disposed below the determination key top 3 and the key rubber 6, and the determination is performed when the determination key top 3 is pressed. The key top 3 is allowed to be displaced downward, and the displacement can be restored. Specifically, the stopper plate 10 is a member formed in a substantially disk shape, and includes a pusher portion 11 located in the center, a spring portion 12 surrounding the pusher portion 11, and the pusher portion 11. And an outer ring fixing portion formed in an annular shape.

  The pusher portion 11 of the stopper plate 10 is formed in a substantially disk shape, and as shown in FIG. 3, a pusher circular surface 11a formed on the side facing the metal dome sheet 14 and the pusher portion 11a. And a key top pusher 11b projecting from the center of the child circular surface 11a toward the metal dome sheet 14. In the pusher portion 11, a load receiving surface formed on the side opposite to the pusher circular surface 11 a is fixed to the back surface of the peeling prevention plate attaching portion 7 in the key rubber 6.

  The spring portion 12 of the stopper plate 10 is disposed so as to surround the pusher portion 11 and connects the pusher portion 11 and the outer ring fixing portion. The spring portion 12 is set to a bending load that is bent when the determination key top 3 is pressed and does not affect the click feeling, and a load is applied in a direction perpendicular to the thickness direction by the sliding operation of the determination key top 3. Is set so as not to be easily deformed. The outer ring fixing portion formed around the spring portion 12 is formed in an annular shape, and is connected to the spring portion 12 and the metal dome sheet 14 and the ring-shaped magnet fixing portion 9 are fixed to each other. Has been.

  Further, the magnet concealment plate 4 (outer peripheral plate) described above is a substantially annular member as shown in FIGS. 2 and 3, which is larger than the outer diameter of the determination key top 3, and outside the peeling prevention plate 13. The inner diameter is smaller than the diameter, and the outer diameter is larger than the inner diameter of the hole 25a of the direction key 25. The magnet concealment plate 4 is fixedly provided on the upper surface of the key rubber 6 located between the direction key 25 and the ring-shaped magnet member 5. That is, the magnet concealment plate 4 is fixed to the direction key 25 side which is the opposite side of the ring-shaped magnet fixing portion 9 of the key rubber 6, and the inner peripheral portion of the magnet concealment plate 4 is the outer periphery of the decision key top 3. Between the side and the inside of the hole 25 a of the direction key 25.

  Thereby, the magnet concealment plate 4 covers the inner peripheral side of the ring-shaped magnet member 5 located below the hole 25a of the direction key 25 from the housing surface side, and the determination key top 3 and the direction key 25 The ring-shaped magnet member 5 is prevented from being visually recognized from the gap, that is, from the housing surface side.

  Further, as shown in FIG. 3, the inner peripheral part of the magnet concealment plate 4 is located above the outer peripheral part of the above-described peeling prevention plate 13, that is, the inner peripheral part of the magnet concealment plate 4. And the outer peripheral portion of the peeling prevention plate 13 are arranged at positions that overlap in the vertical direction. Such a configuration is formed such that the upper surface of the peeling prevention plate attaching portion 7 of the key rubber 6 is located at a position lower than the upper surface of the ring-shaped magnet fixing portion 9 (the surface opposite to the position where the ring-shaped magnet 5 is disposed). Is realized. With this configuration, the gap between the determination key top 3 and the direction key 25 is in a state of being blocked by the magnet concealment plate 4 and the peeling prevention plate 13.

  Further, as shown in FIG. 1, the metal dome sheet 14 is formed in a substantially rectangular shape, and a metal dome having a switching function is connected to each button 2c (each button formed on the key unit 2 described above. These are arranged according to the positions of the pusher and the decision key top 3 (keytop pusher).

  In addition, the metal dome sheet 14 is provided with eight substantially rectangular sheet escape holes 15 at circumferential positions at equal intervals at a position surrounding the determination key top 3. The metal dome sheet 14 is affixed to the flexible substrate 16.

  The flexible substrate 16 is formed in a substantially rectangular shape, and a plurality of electronic components are mounted thereon. In this embodiment, the front case where the Hall IC 17 (magnetic sensor) that detects the magnetic force acting by the ring-shaped magnet member 5, that is, the change in magnetic flux density due to the displacement of the ring-shaped magnet member 5, is on the back side of the flexible substrate 16. It is mounted on the 24th side. Specifically, four Hall ICs 17 are provided circumferentially at equal intervals so as to surround the decision key top 3.

  Further, in this flexible substrate 16 (substrate), eight substrate escape holes 18 formed in the same size and shape as the sheet escape holes 15 are positions that surround the four Hall ICs 17 and correspond to the sheet escape holes 15. It is provided at equal intervals in a circumferential manner at the position. Such a flexible substrate 16 is accommodated and fixed to the front case 24.

  The front case 24 is formed by insert-molding an insert sheet metal 19 (see a hatched line in FIG. 1) integrally with a resin. The insert sheet metal 19 (substrate) is formed by sheet metal drawing, and includes a key sheet pasting surface 23 and a flexible substrate housing portion that is formed to be recessed from the key sheet pasting surface 23 and accommodates and pastes the flexible substrate 16. 20, four magnetic sensor escape holes 21 formed in the flexible substrate housing 20, and eight protrusions 22 projecting in a circumferential shape.

  Note that the flexible substrate housing portion 20 is not limited to sheet metal, for example, resin molding integrally with the key sheet pasting surface 23 as long as it can accommodate the flexible substrate 16 by providing a step with the key sheet pasting surface 23. It is good also as another structure, such as forming by.

  The magnetic sensor clearance holes 21 formed in the flexible substrate housing part 20 are arranged in four circumferential shapes corresponding to the positions of the four Hall ICs 17 mounted on the flexible substrate 16 housed in the flexible substrate housing part 20. The hall IC 17 is accommodated as shown in FIG.

  In addition, the protrusions 22 (regulating members) formed in the flexible substrate housing part 20 are arranged on the surface of the flexible substrate housing part 20 in a circumferential shape so as to surround the four Hall ICs 17 in the flexible substrate housing part 20. On the other hand, it is formed so as to protrude in a substantially orthogonal direction (flexible substrate 16 side). And the protrusion part 22 penetrates the sheet | seat escape hole 15 formed in the flexible substrate 16, and the board | substrate escape hole 18 formed in the metal dome sheet | seat 14, and is located in the side part of the stopper plate 10 which comprises a key sheet. To position. As a result, when the determination key top 3 moves in the circumferential direction, the protrusion 22 abuts the outer periphery of the stopper plate 10 that moves with the determination key top 3, so that the movement of the determination key top 3 is locked. It functions to regulate the deformation of the bellows portion 8.

  Here, the direction key presser formed on the key rubber 6 described above is provided on the outer peripheral side of the protrusion 22. That is, the outer diameter of the direction key 25 is set larger than the diameter of the circle formed by the eight protrusions 22.

[Operation]
Next, the operation of the pointing key configured as described above will be described. First, when the operator applies an appropriate load and slides the decision key top 3 in a direction perpendicular to the thickness direction of the decision key top 3 (a direction along the surface of the key rubber 6), the bellows portion of the key rubber 6 8, the bellows part 8 located in the sliding direction is reduced, and the bellows part 8 in the direction opposite to the sliding direction is extended. At this time, the ring-shaped magnet member 5 slides in the same direction by the same amount of displacement as the decision key top 3 in conjunction with the decision key top 3 via the stopper plate 10.

  When the ring-shaped magnet member 5 slides, the relative positional relationship between the ring-shaped magnet member 5 and the four Hall ICs 17 (see FIG. 3) changes, and the thickness of the ring-shaped magnet member 5 and each Hall IC 17 in the thickness direction changes. Since the amount of overlap changes, the difference magnetic flux is detected by the four Hall ICs 17 and the position of the decision key top 3 is read. That is, the Hall IC 17 supplies the magnetic flux density based on the position of the ring-shaped magnet member 5 to the flexible substrate 16 as a detection signal.

  When the determination key top 3 is further slid in the same direction, the peripheral edge of the stopper plate 10 abuts against the protrusion 22, and the protrusion 22 limits the movable range of the determination key top 3. Also at this time, the Hall IC 17 continues to supply a detection signal corresponding to the amount of displacement to the flexible substrate 16. Even if the determination key top 3 is slid to the position where the peripheral edge of the stopper plate 10 abuts against the protrusion 22, the ring-shaped magnet member 5 is covered with the magnet concealment plate 4 and is not visible from above.

  Thereafter, when the operator removes the load on the determination key top 3, the deformation of the bellows portion 8 is restored by the return elastic force of the bellows portion 8, and the position of the determination key top 3 returns to the reference position.

  On the other hand, when the operator pushes the decision key top 3 in the thickness direction, the peripheral edge of the peeling prevention plate attaching portion 7 and the spring portion 12 of the stopper plate 10 are bent in the thickness direction, and the decision key presser 11b is thick. Displaces in the direction (vertical direction). At this time, this push-in operation is satisfactory without affecting the click feeling. When the metal dome sheet 14 detects the displacement of the determination key presser 11b, the metal dome sheet 14 supplies a pressing signal to the flexible substrate 16.

  Thereafter, when the operator stops the pushing operation, the displacement of the decision key top 3 is quickly canceled by the return elastic force of the spring portion 12 of the stopper plate 10 and returns to the reference position. The operator slides the determination key top 3 again in the same manner as described above with the displacement in the thickness direction of the determination key top 3 eliminated. At this time, since the displacement in the thickness direction of the decision key top 3 is eliminated, the key top pusher 11b of the decision key top 3 does not interfere with the metal dome sheet in accordance with the slide operation.

  As described above, according to the pointing key of the present invention, since the peeling prevention plate 13 is provided, even if the user operates the determination key top 3 with a strong force, the determination key top 3 is peeled off. And the durability of a product having a pointing key can be improved. Moreover, since the gap between the determination key top 3 and the direction key 25 can be hidden by the peeling prevention plate 13 and the magnet concealment plate 4, the appearance of the product can be improved.

  Furthermore, since the ring-shaped magnet 5 is disposed below the key rubber 6, it is possible to prevent liquids such as water from entering from the outside, and to prevent the liquid from adhering to the ring-shaped magnet 5, thereby suppressing corrosion of the magnet. it can. As a result, the durability of the product can be further improved.

  In addition, the outer diameter of the direction key 25 is set to be larger than the diameter of the circle formed by the eight protrusions 22, and usually the key key 6 is pressed to a position corresponding to the outer peripheral edge of the direction key 25. A child is formed. Moreover, since the stopper plate 10 is structured to move inside the protrusion 22 of the insert metal plate 19, the metal dome for the direction key 25 and the direction key presser cannot be arranged inside the protrusion 22, Needs to be arranged outside the protrusion 22 of the insert metal plate 19. As a result, the outer diameter of the direction key 25 becomes larger than that of a general sheet type key, and the area of the surrounding key is reduced accordingly.

  On the other hand, since the direction key 25 is formed of a thin and highly rigid metal material, it is possible to prevent the direction key 25 itself from being bent when the key is pressed. The key click of the direction key 25 can be achieved even if it is not arranged at a position corresponding to the part. Since the deflection of the direction key 25 can be prevented in this way, the degree of freedom of the position of the pusher of the direction key 25 is increased, and the direction key 25 can be reduced in diameter.

  In addition, according to the pointing key described above, the stopper plate 10 is provided, and even if the enter key top 3 is pushed in, if the push operation is stopped, the displacement of the enter key top 3 is quickly eliminated and immediately returns to the reference position. . Then, the next push-in operation or slide operation is performed immediately.

  Further, since the operation of the decision key top 3 can be regulated not only by the key rubber 6 but also by the stopper plate 10, the displacement due to the pushing operation on the decision key top 3 can be immediately restored. be able to.

  Further, since the positional relationship between the decision key top 3 and the ring-shaped magnet member 5 in the sliding direction is defined, when the decision key top 3 is slid, the ring-shaped magnet member 5 is also slid with the same displacement amount, and the ring-shaped magnet member The reactivity of 5 can be improved.

  In addition, since the key rubber 6 is in contact with the protrusion 22 and restricts the movable range in the direction along the surface of the key rubber 6, the movable range of the decision key top 3 is adjusted, and the slide operation of the decision key top 3 is performed. As a result, no load is generated on the key rubber 6. Therefore, the movable range can be set so as to conform to good operability, and deterioration of operability due to deterioration of the key rubber 6 can be prevented.

  Further, since the determination key top 3 and the ring-shaped magnet member 5 are arranged so as not to overlap each other in the thickness direction of the key rubber 6, the design freedom can be improved and the thickness can be reduced.

  Further, since the Hall IC 17 is arranged on the flexible substrate 16 so as not to overlap the decision key top 3 in the thickness direction, the Hall IC 17 and the decision key top 3 do not overlap in the thickness direction of the key rubber 6. Further, it is possible to further reduce the thickness by improving the degree of freedom of design while maintaining good operability.

  In addition, since the Hall IC 17 is accommodated in the magnetic sensor escape hole 21, it is possible to further reduce the thickness.

  Note that the operation procedure shown in the above-described embodiment, various shapes and combinations of the constituent members, and the like are examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention. For example, in the above-described embodiment, the shape of the decision key top 3 is a substantially disk shape, but may be another shape. Further, the material is not limited to hard resin, and may be made of metal or the like.

  In the embodiment described above, the Hall IC 17 is used as the magnetic sensor. However, a Hall element, a magnetoresistive effect element, a magnetoresistive effect IC, or the like may be used.

  Here, each component is fixed using an adhesive, a double-sided adhesive tape, or the like. However, spot welding between metals, threading to a metal object, and fixing with a screw may be used.

  Further, the protrusion 22 that regulates the operating range of the stopper plate 10 is formed of a sheet metal inserted into the front case 24. However, when a housing without a sheet metal is used, the protrusion is formed on the flexible substrate 16. By providing a protrusion exhibiting a function equivalent to that of the sheet 22, it is possible to replace the sheet metal cutting protrusion.

  In addition to this, as long as it does not depart from the gist of the present invention, the configuration described in the above embodiment can be selected or changed to another configuration as appropriate.

<Appendix>
Part or all of the above-described embodiment can be described as in the following supplementary notes. The outline of the configuration of the pointing key in the present invention will be described below. However, the present invention is not limited to the following configuration.

(Appendix 1)
An operation key top exposed on the surface of the casing of the electronic device and operated by an operator;
An enclosure member that is exposed on the surface of the housing and is provided to surround the operation key top, and has a hole that exposes the operation key top on the surface of the housing;
Located below the operation key top and the surrounding member, and formed so as to close a gap between the operation key top and the surrounding member, the operation key top is fixed to an upper surface, and the operation key top is A support member having an elastic return portion that allows displacement in the circumferential direction and that can restore the displacement at a location located around the operation key top; and
A ring-shaped magnet member that is positioned below the surrounding member and the support member, and is fixed between the support member and positioned between the operation key top and the elastic return portion;
A magnetic sensor for detecting a change in magnetic flux density due to a displacement of the ring-shaped magnet member interlocked with the operation key top;
An annular outer peripheral plate positioned below the surrounding member and provided on the upper surface of the support member, and having an inner peripheral portion located between the outer side of the operation key top and the inner side of the hole of the surrounding member. ,
A key top support plate that is interposed between the operation key top and the support member and is fixedly installed; and
An upper and lower elastic member disposed below the operation key top and the support member, allowing the operation key top to be displaced downward and restoring the displacement;
Pointing key with

(Appendix 2)
The pointing key according to attachment 1, wherein
The key top support plate has an outer peripheral portion formed larger than an inner peripheral portion of the outer peripheral plate, and is positioned below the outer peripheral plate.
Pointing key.

(Appendix 3)
The pointing key according to appendix 1 or 2,
The key top support plate and the outer peripheral plate are arranged to close the gap between the operation key top and the hole portion of the surrounding member by being arranged at a position overlapping in the vertical direction.
Pointing key.

(Appendix 4)
The pointing key according to any one of appendices 1 to 3,
The surrounding member is a second operation key top provided to surround the operation key top;
The second operation key top is fixed to the outside of the elastic return portion of the support member, and the elastic return portion allows the second operation key top to be displaced in the vertical direction and Displacement can be restored,
Pointing key.

(Appendix 5)
The pointing key according to any one of appendices 1 to 4,
The support member is formed of a rubber-based material.
Pointing key.

(Appendix 6)
A pointing key according to appendix 5,
The elastic return portion of the support member and the portion that supports the second operation key top are formed with different rubber hardness.
Pointing key.

(Appendix 7)
The pointing key according to any one of appendices 1 to 6,
While including a substrate for mounting the magnetic sensor,
The board is provided with a regulating member that regulates deformation of the elastic return portion so that the operation key top is displaced only within a predetermined distance in the circumferential direction of the operation key top.
Pointing key.

(Appendix 8)
Provided with a pointing key to input operation instructions from the operator to the electronic device,
The pointing key is
An operation key top exposed on the surface of the casing of the electronic device and operated by an operator;
An enclosure member that is exposed on the surface of the housing and is provided to surround the operation key top, and has a hole that exposes the operation key top on the surface of the housing;
The operation key top is positioned below the surrounding member and is formed so as to close a gap between the operation key top and the surrounding member, and the operation key top is fixed to the upper surface, and the operation key top The support member having an elastic return portion that allows the displacement in the circumferential direction and that can restore the displacement at a location located around the operation key top;
A ring-shaped magnet member that is positioned below the surrounding member and the support member, and is fixed between the support member and positioned between the operation key top and the elastic return portion;
A magnetic sensor for detecting a change in magnetic flux density due to a displacement of the ring-shaped magnet member interlocked with the operation key top;
An annular outer peripheral plate positioned below the surrounding member and provided on the upper surface of the support member, and having an inner peripheral portion located between the outer side of the operation key top and the inner side of the hole of the surrounding member. ,
A key top support plate that is interposed between the operation key top and the support member and is fixedly installed; and
An upper and lower elastic member disposed below the operation key top and the support member, allowing the operation key top to be displaced downward and restoring the displacement;
Configured with,
Electronics.

(Appendix 9)
The electronic device according to attachment 8, wherein
The key top support plate constituting the pointing key has an outer peripheral portion formed larger than an inner peripheral portion of the outer peripheral plate and is positioned below the outer peripheral plate.
Electronics.

DESCRIPTION OF SYMBOLS 1 Key sheet 2 Key unit 2a Circular hole 2c Button 3 Determination key top 4 Magnet hidden plate 5 Ring-shaped magnet 6 Key rubber 7 Stripping prevention plate sticking part 8 Bellows part 9 Ring-shaped magnet fixing part 10 Stopper plate 11 Pusher part 11a Push Child circular surface 11b Pusher 12 Spring portion 13 Peeling prevention plate 14 Metal dome sheet 15 Sheet hole 16 Flexible substrate 17 Hall IC
18 Substrate escape hole 19 Insert sheet metal 20 Flexible substrate accommodating portion 21 Magnetic sensor escape hole 22 Projection portion 23 Key sheet pasting surface 24 Front case 25 Direction key 25a Hole portion 26 Direction key pasting portion

Claims (6)

An operation key top exposed on the surface of the casing of the electronic device and operated by an operator;
An enclosure member that is exposed on the surface of the housing and is provided to surround the operation key top, and has a hole that exposes the operation key top on the surface of the housing;
Located below the operation key top and the surrounding member, and formed so as to close a gap between the operation key top and the surrounding member, the operation key top is fixed to an upper surface, and the operation key top is A support member having an elastic return portion that allows displacement in the circumferential direction and that can restore the displacement at a location located around the operation key top; and
A ring-shaped magnet member that is positioned below the surrounding member and the support member, and is fixed between the support member and positioned between the operation key top and the elastic return portion;
A magnetic sensor for detecting a change in magnetic flux density due to a displacement of the ring-shaped magnet member interlocked with the operation key top;
An annular outer peripheral plate positioned below the surrounding member and provided on the upper surface of the support member, and having an inner peripheral portion located between the outer side of the operation key top and the inner side of the hole of the surrounding member. ,
A key top support plate that is interposed between the operation key top and the support member and is fixedly installed; and
An upper and lower elastic member disposed below the operation key top and the support member, allowing the operation key top to be displaced downward and restoring the displacement;
With
The key top support plate is formed so that an outer peripheral portion thereof is larger than an inner peripheral portion of the outer peripheral plate and smaller than an inner diameter of a hole portion of the surrounding member, and is positioned below the outer peripheral plate, The outer peripheral part of the support plate and the inner peripheral part of the outer peripheral plate are arranged so as to close the gap between the operation key top and the hole part of the surrounding member by being arranged at positions overlapping in the vertical direction.
Pointing key. The pointing key according to claim 1,
The surrounding member is a second operation key top provided to surround the operation key top;
The second operation key top is fixed to the outside of the elastic return portion of the support member, and the elastic return portion allows the second operation key top to be displaced in the vertical direction and Displacement can be restored,
Pointing key. The pointing key according to claim 1 or 2,
The support member is formed of a rubber-based material.
Pointing key. The pointing key according to claim 3,
The elastic return portion of the support member and the portion that supports the second operation key top are formed with different rubber hardness.
Pointing key. The pointing key according to any one of claims 1 to 4,
While including a substrate for mounting the magnetic sensor,
The board is provided with a regulating member that regulates deformation of the elastic return portion so that the operation key top is displaced only within a predetermined distance in the circumferential direction of the operation key top.
Pointing key. Provided with a pointing key to input operation instructions from the operator to the electronic device,
The pointing key is
An operation key top exposed on the surface of the casing of the electronic device and operated by an operator;
An enclosure member that is exposed on the surface of the housing and is provided to surround the operation key top, and has a hole that exposes the operation key top on the surface of the housing;
The operation key top is positioned below the surrounding member and is formed so as to close a gap between the operation key top and the surrounding member, and the operation key top is fixed to the upper surface, and the operation key top The support member having an elastic return portion that allows the displacement in the circumferential direction and that can restore the displacement at a location located around the operation key top;
A ring-shaped magnet member that is positioned below the surrounding member and the support member, and is fixed between the support member and positioned between the operation key top and the elastic return portion;
A magnetic sensor for detecting a change in magnetic flux density due to a displacement of the ring-shaped magnet member interlocked with the operation key top;
An annular outer peripheral plate positioned below the surrounding member and provided on the upper surface of the support member, and having an inner peripheral portion located between the outer side of the operation key top and the inner side of the hole of the surrounding member. ,
A key top support plate that is interposed between the operation key top and the support member and is fixedly installed; and
An upper and lower elastic member disposed below the operation key top and the support member, allowing the operation key top to be displaced downward and restoring the displacement;
Is configured with
The key top support plate is formed so that an outer peripheral portion thereof is larger than an inner peripheral portion of the outer peripheral plate and smaller than an inner diameter of a hole portion of the surrounding member, and is positioned below the outer peripheral plate, The outer peripheral part of the support plate and the inner peripheral part of the outer peripheral plate are arranged so as to close the gap between the operation key top and the hole part of the surrounding member by being arranged at positions overlapping in the vertical direction.
Electronics.

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