JP2012216206A - Electronic device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic device in which a piezoelectric element or the like bends and vibrates a touch panel and that is resistance to dust with attenuation of vibration reduced.SOLUTION: An electronic device includes: a rectangular touch panel 20; vibration parts 50 for vibrating the touch panel 20; and support members 10a and 10b between which the touch panel 20 is mounted and that cover a front face peripheral portion of the touch panel 20. An elastic member 70 is sandwiched between each of two opposed edge side portions of a front face of the touch panel 20 and the support members 10a and 10b. A flexible seal member is press-fitted between each of the other two opposed edge side portions of a rear face of the touch panel 20 and the support members 10a and 10b.

Description

  The present invention relates to an electronic device. More specifically, the present invention relates to an electronic device that detects an operation input to a touch panel and feeds back an operational feeling.

  Currently, touch panels and touch pads are widely used as input devices for electronic devices. In such an input device, when an operator operates a touch panel, a touch pad, or the like, a device that feeds back a feeling of operation to an operator's fingertip by vibrating the touch panel or the touch pad is proposed ( For example, see Patent Document 1).

  FIG. 8 is an external perspective view in which the electronic device described in Patent Document 1 is disassembled. As shown in FIG. 8, the electronic device (display device) described in Patent Document 1 includes a display monitor 100, a panel fixing frame 210, a touch panel 400, and a cover 500. This electronic device is configured by assembling each component such as the touch panel 400 to the display monitor 100.

  In the electronic device described in Patent Document 1, the display monitor 100 is composed of a liquid crystal display (LCD), and has a rectangular and flat shape as a whole. The display monitor 100 displays, for example, objects such as keys and buttons or various information on the display surface according to control by a control device (not shown). On the display surface of the display monitor 100, the touch panel 400 having the same size as that of the monitor 100 is assembled.

  The touch panel 400 is configured so that, for example, when a matrix-like switch circuit is formed on a transparent resin plate and the panel surface is touched by an operator's fingertip or the like, a detection signal corresponding to the contact position is output to the control device. It is configured. That is, the operator can input various information corresponding to the display to the electronic device by operating the panel 400 according to the display on the display monitor 100 displayed through the touch panel 400.

  In this electronic device, as shown in FIG. 8, a pair of piezoelectric elements (piezo elements) 420 are attached along the upper side (the back side in the figure) and the bottom side (the near side in the figure) of the back surface side of the touch panel 400. It has been. When the touch panel 400 detects contact by the operator, the electronic device gives a drive signal (voltage) to the piezoelectric element 420 from the control device. When this drive signal is received, the piezoelectric element 420 expands and contracts to deform (bend) the touch panel 400, so that the electronic device can generate vibration on the operation surface of the touch panel 400. That is, the touch panel 400 vibrates with the above operation, so that the operator can obtain an operational feeling.

  In this electronic apparatus, the touch panel 400 is assembled to the display monitor 100 via a panel fixing frame 210. The panel fixing frame 210 is formed of a hard resin material such as ABS, so that the entire panel fixing frame 210 has rigidity.

  As shown in FIG. 8, a holder 220 that holds the touch panel 400 at its four corners is assembled to the panel fixing frame 210. FIG. 9 is an enlarged view showing a state where one of the four holders 220 is attached to a corner of the touch panel 400. Each holder 220 is formed with a slit-like insertion portion 360 into which a corner portion of the touch panel 400 can be inserted. As shown in FIG. 8, a fixing hole 320 for fixing the holder 220 is provided on the peripheral side surface of the panel fixing frame 210 near the end of each side surface. 9 is inserted into each fixing hole 320 shown in FIG. 8, each holder 220 fixes the touch panel 400 to the panel fixing frame 210.

  As described above, when the four corners of the touch panel 400 are inserted into the respective holders 220, the respective holders 220 hold the touch panel 400 from the outside at the four corners and also from both sides in the thickness direction. Therefore, the electronic device described in Patent Document 1 can be arranged such that the touch panel 400 is fixed.

  Each of the holders 220 is made of a material having a smaller elastic coefficient than that of the panel fixing frame 210, and is integrally formed of, for example, silicon-based resin or rubber. As described above, the holder 220 is configured to be elastically deformable so that the touch panel 400 can vibrate while stably holding the touch panel 400. Note that a gap that allows displacement of the touch panel 400 in the thickness direction is secured between the touch panel 400 and the display monitor 100. For this reason, when the piezoelectric element 420 vibrates, the displacement of the touch panel 400 in the thickness direction accompanying the vibration is possible.

  Therefore, since the electronic device described in Patent Document 1 is configured not to greatly disturb the vibration when the touch panel 400 is vibrated, the operational feeling due to the vibration of the touch panel 400 can be ensured satisfactorily. .

JP 2010-44497 A

  As described above, the electronic device described in Patent Literature 1 can ensure a feeling of operation due to vibration of the touch panel, and can be arranged so that the touch panel is fixed.

  By the way, the electronic device described in Patent Document 1 is assumed to be a display device of an in-vehicle navigation system, for example, and no dust-proof measures are taken on the electronic device itself. For example, when the electronic device shown in FIG. 8 is assembled, the touch panel 400 is attached to the panel fixing frame 210 while being inserted into the insertion portion 360 of the elastic material holder 220, that is, via the holder 220. This is because if the touch panel 400 is firmly fixed to the panel fixing frame 210, the touch panel 400 is not displaced in the thickness direction when the piezoelectric element 420 vibrates, and the touch panel 400 cannot be vibrated satisfactorily. Because. Therefore, a gap is formed between the touch panel 400 and the panel fixing frame 210, and it is assumed that dust or the like enters from the gap.

  Therefore, in the electronic device described in Patent Document 1, as a dust-proof measure, for example, a member such as a dust-proof cushion may be inserted between the touch panel 400 and the panel fixing frame 210. However, even if such a dustproof cushion is made of a material that can be compressed to some extent, the physical space in which the touch panel is curved is taken away by the thickness after compression. Therefore, in such a structure, there arises a problem that the amplitude when the touch panel vibrates cannot be obtained.

  An object of the present invention made in view of such circumstances is to provide an electronic device in which a dustproof measure is taken while reducing attenuation of vibration in an electronic device in which a touch panel is bent and vibrated by a piezoelectric element or the like.

The invention of the electronic device according to the first aspect of achieving the above object is as follows:
A rectangular touch panel;
A vibrating section for vibrating the touch panel;
The touch panel is disposed and a supporting member that covers a surface peripheral edge portion of the touch panel, and an electronic device comprising:
Interposing a first elastic member between two opposing edge portions on the surface of the touch panel and the support member;
A second elastic member is interposed between the two opposing edge portions perpendicular to the two opposing edge portions on the back surface of the touch panel and the support member.

The invention according to a second aspect is the electronic device according to the first aspect,
Supports are formed at four corners on the back surface of the touch panel, and the second elastic member is interposed in a part other than the support.

  ADVANTAGE OF THE INVENTION According to this invention, in the electronic device which carries out bending vibration of a touch panel with a piezoelectric element etc., dustproofness can be improved, reducing attenuation | damping of vibration.

1 is an external perspective view of an electronic apparatus according to an embodiment of the present invention. 1 is an exploded perspective view of an electronic device according to an embodiment of the present invention. It is an external appearance perspective view explaining the touch panel and peripheral element which concern on embodiment of this invention. It is the end elevation which cut the electronic device concerning an embodiment of the invention along line AA. It is the end elevation which cut the electronic device concerning an embodiment of the invention along line BB. It is the end view which cut | disconnected the electronic device which concerns on embodiment of this invention along line CC. It is the end elevation which cut the electronic device concerning an embodiment of the invention along line DD. It is a figure explaining the structure of the conventional electronic device. It is another figure explaining the structure of the conventional electronic device.

  Embodiments of the present invention will be described below with reference to the drawings.

  First, a schematic configuration of an electronic device according to an embodiment of the present invention will be described. FIG. 1 is a perspective view showing an external appearance of an electronic apparatus according to the present embodiment.

  As shown in FIG. 1, the electronic device 1 according to the present embodiment includes an upper casing 10 a, a lower casing 10 b, and a touch panel 20 in appearance.

  The upper housing 10a and the lower housing 10b constitute the housing 10 when they are combined together. The upper casing 10a is bonded to the lower casing 10b using a double-sided tape or an adhesive. The upper housing 10a and the lower housing 10b may be structured to be sealed to some extent when they are combined together. The upper housing 10a and the lower housing 10b are preferably made of a material that can withstand a certain degree of impact, such as a resin case. When the upper housing 10a can be integrated with the lower housing 10b, the upper housing 10a does not need to be provided as a separate member from the lower housing 10b.

  The upper housing 10a can be various members such as a bezel, for example, but is collectively referred to as “upper housing” in the present specification. When the upper housing 10a is a bezel, the upper housing 10a can be made of, for example, metal, plastic, resin such as ABS, and is preferably made of a material having a certain degree of strength. .

  The touch panel 20 is usually disposed in front of the display unit 80 to be described later, and contact with an object displayed on the display unit 80 by an operator's finger, stylus pen or the like (hereinafter simply referred to as “contact object”) is performed. Detection is performed on the touch surface of the corresponding touch panel 20. Therefore, in the present embodiment, the “touch panel” is described assuming a member disposed on the front surface of the display unit 80 that can be an LCD or the like, that is, a member provided separately from the display unit 80. In addition, the touch panel 20 detects the position of contact of the contact object with respect to the touch surface, and notifies the detected position of the contact to a control unit (not shown).

  The touch panel 20 may be a touch panel configured by a resistance film method, a capacitance method, an optical method, or the like. In addition, when the touch panel 20 detects the contact by a contact thing, it is not essential that a contact thing touches the touch panel 20 physically. For example, when the touch panel 20 is optical, the touch panel 20 detects a position where the infrared light on the touch panel 20 is blocked by the contact object, and thus it is not necessary for the contact object to touch the touch panel 20.

  The display unit 80 described above displays an object such as a push button switch (push button switch) such as a key as an image. This object is an image that suggests to the operator an area to be touched on the touch surface of the touch panel 20. The push button switch is a button, key, or the like (hereinafter, simply referred to as “key, etc.”) used by an operator for input operation. The display unit 80 is configured using, for example, a liquid crystal display panel (LCD), an organic EL display panel, or the like. That is, a display unit 80 such as an LCD can be arranged on the back side of the touch panel 20 shown in FIG.

  2 shows a state in which the upper casing 10a is separated from the lower casing 10b in the electronic apparatus 1 shown in FIG. 1, that is, the casing is disassembled, and the peripheral elements related to the touch panel 20 are further removed. It is a perspective view which shows a state.

  As shown in FIG. 2, the upper housing 10 a is a frame-like member so that a window (opening) is formed when viewed from the front surface (upper surface). With this window, in an assembled state of the electronic apparatus 1, the operator can visually recognize a display on the display unit 80 described later, and further, the operator can touch the touch panel 20. As will be described later, for example, a display unit such as an LCD, an LCD holder, and various components such as various substrates can be installed on the bottom inside the lower housing 10b. Such parts are not shown.

  As can be seen from FIG. 2, in a state where the lower casing 10b and the upper casing 10a are combined, the touch panel 20 is supported by various members shown in the drawing while the lower casing 10b and the upper casing 10a are Arranged between. These various members will be described below.

  Between the upper housing 10a and the touch panel 20, an elongated elastic member 70 is disposed as shown in FIG. In FIG. 2, the elastic member 70 is arranged along two long sides of the edge portion of the touch panel 20 on the surface (front surface) of the touch panel 20. Here, the long side of the touch panel 20 means a side in the direction parallel to the Y-axis direction shown in FIG.

  The elongated elastic member 70 disposed on the front surface side of the touch panel 20 is made of a stretchable material such as sponge, or a flexible material having elasticity and stretchability such as urethane foam or poron (trade name). Is preferred. The elastic member 70 is preferably bonded to the upper housing 10a and the touch panel 20 with, for example, a double-sided tape or an adhesive. As described above, in the present embodiment, the elastic member 70 is interposed between two opposing edge portions and the upper housing 10a on the surface (front surface) of the touch panel 20.

  Further, as can be seen from FIG. 2, the support column 30 and the flexible seal member 40 are disposed inside the lower housing 10 b. The touch panel 20 is supported by the support columns 30 and the flexible seal member 40. In addition, both the elastic member 70 and the flexible sealing material 40 shall be contained in the elastic member of this invention.

  The support columns 30 that support the touch panel 20 are respectively arranged at the four corners inside the lower housing 10b. The support column 30 is made of an elastic material such as silicon rubber, and has a JIS-A hardness of about 50 to 60 degrees, for example. As described above, when the touch panel 20 is vibrated by using the support 30 made of an elastic material, attenuation of the vibration is reduced.

  In addition, the flexible sealing member 40 that supports the touch panel 20 is disposed along two short sides of the edge portion of the touch panel 20 on the back surface (back surface) of the touch panel 20. Here, the short side of the touch panel 20 means a side in the direction parallel to the X-axis direction shown in FIG. The flexible sealing member 40 is preferably made of, for example, soft silicon rubber or waterproof gel having a lower hardness than the support 30. In any case, the flexible sealing member 40 is made of a material that is rich in elasticity and that exerts a restoring force in a compressed state. The flexible seal member 40 may be a material containing bubbles, such as a foamable material, but at least a material that does not allow dust or dust to pass through, that is, a material suitable for dust prevention is used. To.

  The flexible seal member 40 shown in FIG. 2 represents a state before being sandwiched between the struts 30 on both sides. Thus, the length of the flexible seal member 40 in the longitudinal direction is slightly larger than the dimension between the columns 30 in a state before being sandwiched between the columns 30. When the flexible seal member 40 is inserted between the columns 30, the flexible seal member 40 is sandwiched between the columns 30 while being slightly compressed in the lateral direction. Furthermore, the height of the flexible seal member 40 is also slightly larger than the height of the support column 30 in a state before the touch panel 20 is attached. And when the touch panel 20 is attached to each support | pillar 30, it is inserted | pinched between the touch panel 20 and the convex part 12b of the lower housing | casing 10b in the state in which the flexible sealing member 40 was compressed a little in the vertical direction. To do. As described above, in the present embodiment, the flexible seal member 40 is press-fitted between the two opposing edge portions and the lower housing 10b on the back surface (back surface) of the touch panel 20.

  In addition, as shown in FIG. 2, the convex part 12b for arrange | positioning the support | pillar 30 and the flexible sealing member 40 is formed in the inside of the lower housing | casing 10b. The height of the convex portion 12b is designed so that the touch panel 20 is maintained at an appropriate height according to the dimensions of the support column 30 and the flexible seal member 40. Further, for example, if a spacer having a predetermined height is inserted below the support column 30 (that is, between the support column 30 and the convex portion 12b of the lower housing 10b), the height of the touch panel 20 can be further finely adjusted. . The flexible sealing member 40 is preferably bonded to at least one of the back surface of the touch panel 20 or the lower housing 10b (projection 12b) with, for example, a double-sided tape or an adhesive.

  FIG. 3 is a diagram for further explaining the touch panel 20 shown in FIG. 2 and peripheral elements of the touch panel 20. As described above, on the front surface (front surface) side of the touch panel 20, the elongated elastic member 70 is disposed along two opposing long sides of the edge portion of the touch panel 20. As shown in FIG. 3, in the present embodiment, the touch panel 20 is preferably rectangular.

  As shown in FIG. 3, the vibration unit 50 is attached to the back surface of the touch panel 20 near the upper and lower edges (the back side and the near side in the figure). The vibrating unit 50 is preferably bonded to the back surface of the touch panel 20 with, for example, a double-sided tape or an adhesive. The vibration unit 50 is made of, for example, a piezoelectric element, and vibrates by bending the touch panel 20.

  In the embodiment shown in FIG. 3, the vibration unit 50 is attached from the back surface of the touch panel 20, but in the present invention, the vibration unit 50 transmits vibration to the touch panel 20. Therefore, the vibration part 50 shall fix a piezoelectric element etc. by adhere | attaching etc. on arbitrary positions, such as a touch panel 20 or the panel holder (not shown) holding the said touch panel 20, and vibrate the touch panel 20. You can also. However, the vibrating unit 50 is preferably a piezoelectric element or the like attached to the back surface of the touch panel 20 so that the touch panel 20 can be vibrated satisfactorily.

  The vibration unit 50 presents a tactile sensation to a contact object that is in contact with the touch surface of the touch panel 20 by generating vibration according to a predetermined vibration pattern. In the present embodiment, the vibration unit 50 generates vibration based on a drive signal supplied from a control unit (not shown), for example.

  Next, the details of the internal configuration of the electronic apparatus according to the embodiment of the invention will be described. 4-7 is a figure which shows the mode of the end surface which cut | disconnected the electronic device 1 after combining the upper housing | casing 10a and the lower housing | casing 10b in various positions. Hereinafter, the details of the internal configuration of the electronic device 1 will be described by describing the end face of the electronic device 1.

  FIG. 4 is a diagram showing an end surface of electronic device 1 according to the present embodiment cut along line AA shown in FIG. That is, FIG. 4 is a diagram showing an end surface obtained by cutting the vicinity of the front end of the electronic device 1 in FIG. 1 in the lateral direction (X-axis direction in FIG. 1). In addition, the figure which shows the end surface which cut | disconnected the edge part vicinity of the back side of the electronic device 1 in the horizontal direction (X-axis direction of FIG. 1) is also the same. Also in the following description, the long side of the touch panel 20 means a side in the direction parallel to the Y-axis direction shown in FIG. 2 in the touch panel 20, and the short side of the touch panel 20 means the X shown in FIG. The side in the direction parallel to the axial direction is meant.

  As shown in FIG. 4, in the present embodiment, an elastic member 70 is interposed between the upper housing 10 a and the touch panel 20. The elastic member 70 is a material suitable for dust prevention, and is bonded to the upper housing 10 a and the touch panel 20. Therefore, the elastic member 70 prevents dust and dirt from entering the inside of the lower housing 10 b, that is, the back side of the touch panel 20 on the long side of the touch panel 20.

  Further, as shown in FIG. 4, in the present embodiment, a support column 30 and a flexible seal member 40 are interposed between the touch panel 20 and the lower housing 10b (projection 12b). The flexible seal member 40 is press-fitted in a compressed state between the columns 30 and between the back surface of the touch panel 20 and the lower housing 10b (projection 12b). Therefore, on the edge side (short side) where the elastic member 70 is not provided on the surface side of the touch panel 20, dust or dust is placed inside the lower housing 10 b, that is, on the back side of the touch panel 20 by the flexible sealing member 40. Dust is prevented from entering.

  On the other hand, as shown in FIG. 4, the elastic member 70, the elastic column 30, and the flexible seal member 40 are in direct contact with the touch panel 20. Therefore, in a state where the touch panel 20 is not vibrated, the touch panel 20 is stably supported by the struts 30 made of an elastic material and the flexible seal member 40 in a compressed state. However, when the vibration unit 50 vibrates the touch panel 20, none of the elastic member 70, the elastic material column 30, and the flexible seal member 40 significantly attenuates the vibration. Can be reduced.

  In particular, in the present embodiment, in the touch panel 20, it is preferable that the flexible sealing member 40 is not disposed on the back side of the portion where the elastic member 70 is disposed on the surface. Similarly, in the touch panel 20, it is preferable that the elastic member 70 not be disposed on the front surface side where the flexible seal member 40 is disposed on the back surface thereof. That is, when the elastic member 70 and the flexible seal member 40 are arranged, the direction of the two edge portions where the elastic member 70 is arranged is different from the direction of the two edge portions where the flexible seal member 40 is arranged. Is preferable. In this way, the entire periphery of the touch panel 20 is not sandwiched between the front and back surfaces of the touch panel 20 with the elastic member or the like, but the touch panel 20 is always supported by the elastic member or the like only on one of the front or back surface. become.

  For example, at the position of the end face shown in FIG. 4, the long side of the touch panel 20 is supported only from the upper side by the elastic member 70 and is not supported from the lower side as will be described later. Moreover, in the position of the end surface shown in FIG. 4, it is clear that the short side of the touch panel 20 is supported only from the lower side by the flexible sealing member 40 and is not supported from the upper side. Therefore, in this case, since the touch panel 20 can be vibrated more freely, it can be expected that vibration attenuation is further reduced.

  FIG. 5 is a diagram showing an end surface of electronic device 1 according to the present embodiment cut along line BB shown in FIG. That is, FIG. 5 is a diagram showing an end surface obtained by cutting the vicinity of the center of the electronic device 1 in FIG. 1 in the lateral direction (X-axis direction in FIG. 1). In addition, in FIG. 5, since the end surface cut | disconnected along the BB line shown in FIG. 1 is shown, the support | pillar 30, the flexible sealing member 40, and convex part 12b which exist in the back | inner side rather than the said end surface Etc. are not shown.

  As illustrated in FIG. 5, the vibration unit 50 is bonded to the back surface of the touch panel 20 depending on the position at which the electronic device 1 is cut. In FIG. 5, a display unit 80 such as an LCD and various substrates 90 are shown inside the lower housing 10b. The display unit 80 and the substrate 90 exemplify various members. For example, the display unit 80 may be a display unit holder that supports the display unit, or the substrate 90 may be another support member. It can be set as this member. In the present embodiment, as in the case of a device provided with a general touch panel, as shown in FIG. 5, the display unit 80 is provided on the back side of the touch panel 20 (that is, the side where the vibration unit 50 is disposed). Is preferably arranged.

  Also in the position of the end surface shown in FIG. 5, the elastic member 70 is each arrange | positioned along the long side which opposes on the surface of the touch panel 20, similarly to the case of FIG. Moreover, in the position of the end surface shown in FIG. 5, it is clear that the long side of the touch panel 20 is supported only from the upper side by the elastic member 70 and is not supported from the lower side. Thus, according to the present embodiment, touch panel 20 can be vibrated freely, and vibration attenuation is reduced.

  FIG. 6 is a diagram showing an end surface of electronic device 1 according to the present embodiment cut along line CC shown in FIG. That is, FIG. 6 is a diagram showing an end face obtained by cutting the vicinity of the left end of the electronic device 1 in FIG. 1 in the vertical direction (Y-axis direction in FIG. 1). The same applies to the drawing showing the end face of the electronic device 1 that is cut in the vertical direction (the Y-axis direction in FIG. 1) near the right end.

  As shown in FIG. 6, on the back side of the touch panel 20, the vibrating unit 50 is disposed near the support column 30 disposed on the short side of the peripheral edge of the touch panel 20. Also in FIG. 6, it can be seen that the elastic member 70 is arranged along the long side on the surface of the touch panel 20. 6 also shows that the long side of the touch panel 20 is supported only from the upper side by the elastic member 70 and is not supported from the lower side at the position of the end face shown in FIG.

  FIG. 7 is a diagram showing an end surface of electronic device 1 according to the present embodiment, cut along line DD shown in FIG. That is, FIG. 7 is a diagram showing an end surface obtained by cutting the vicinity of the center of the electronic device 1 in FIG. 1 in the vertical direction (Y-axis direction in FIG. 1). In FIG. 7, since the end surface cut along the line DD shown in FIG. 1 is shown, the elastic member 70 and the like existing on the back side from the end surface are not shown.

  In the position of the end surface shown in FIG. 7, it can be seen that the short side of the touch panel 20 is supported only from the lower side by the flexible sealing member 40 and is not supported from the upper side.

  In the embodiment described above, the upper housing 10a and the lower housing 10b are members that cover the surface peripheral edge of the touch panel 20 while the touch panel 20 is disposed. Accordingly, in the present embodiment, a support member is configured including the upper housing 10a and the lower housing 10b.

  Thus, according to the present embodiment, it is possible to take a dustproof measure while reducing attenuation of vibration in an electronic device that vibrates the touch panel. Moreover, according to this Embodiment, depending on the raw material used for the flexible sealing member 40 and the elastic member 70, a certain amount of waterproofing effect can be expected.

  In addition, this invention is not limited only to the said embodiment, Many deformation | transformation or a change is possible. The main feature of the present invention is that when the touch panel is disposed on the support member, characteristic dust-proof measures are taken on each of the front and back surfaces of the touch panel without attenuating vibration. Accordingly, various components other than those described in the present specification can be adopted as the components and the configuration aspects of the present invention.

  For example, in the above-described embodiment, the elastic member 70 is disposed on the front surface (upper surface) side of the touch panel 20, and the flexible seal member 40 is disposed on the rear surface (rear surface) side of the touch panel 20. However, the present invention is not limited to such an arrangement. For example, the flexible seal member 40 is arranged on the surface (upper surface) side of the touch panel 20. The elastic member 70 may be disposed on the back surface (back surface) side.

  Further, the members such as the upper housing 10a and the lower housing 10b, the flexible sealing member 40, and the elastic member 70 described above can have various shapes as long as the effects of the present invention can be obtained. For example, the flexible seal member 40 and the elastic member 70 can have various configurations, for example, a hollow structure, as long as appropriate dust prevention is achieved.

  Further, in the above-described embodiment, the support column 30 is not an essential component. If the height of the touch panel 20 can be maintained by maintaining the shape of the flexible sealing member 40 to some extent, the support column 30 in the present invention. It can also be set as the structure which does not use.

  Furthermore, in the above-described embodiment, the flexible sealing member 40 is disposed on the short side of the touch panel 20 that is the vicinity where the vibration unit 50 is fixed, and the elastic member 70 is disposed on the long side of the touch panel 20. I did it. However, the present invention is not limited to such an arrangement, and the elastic member 70 is arranged on the short side of the touch panel 20 and the flexible seal member 40 is arranged on the long side of the touch panel 20. May be. Further, as described above, the arrangement and configuration of the vibration unit 50 that vibrates the touch panel 20 can be variously changed (for example, the vibration unit 50 is fixed in the vicinity of the long side).

  Further, the upper casing 10a and the lower casing 10b have been described assuming the casings constituting the main body of the electronic device. However, the housing of the present invention is not limited to the members described above, and can be various members.

  In the said embodiment, the aspect in which the upper housing | casing 10a and the lower housing | casing 10b comprise a supporting member was demonstrated. However, the support member according to the present invention can be any member as long as the touch panel 20 is disposed and covers the peripheral edge of the surface of the touch panel 20. Therefore, for example, an aspect in which various members constitute the support member such as an LCD unit, various substrates or bezels, or other support members formed on the upper housing 10a or the lower housing 10b can be assumed.

  Moreover, in embodiment mentioned above, the object was displayed on the display part 80 arrange | positioned on the back side of the touch panel 20, and the aspect which the touch panel 20 detects a contact with an operator's finger | toe etc. was demonstrated. However, the present invention is not limited to such an aspect. For example, an aspect in which an object is directly printed on the touch surface of the touch panel 20 with ink or the like without the display unit 80 is assumed. You can also. In such a modification, the display unit 80 configured as described above is not an essential component.

  In the above embodiment, the touch panel 20 is used to detect contact with the touch surface of the touch panel 20. That is, in the above embodiment, the “touch panel 20” has been described assuming a member such as a so-called touch sensor. However, the touch panel used in the electronic device according to the present invention may be any as long as it can be touched by a contact object such as an operator's finger or a stylus pen.

  For example, the touch panel used in the electronic device according to the present invention may be a member such as a simple “panel” that does not detect the position of contact of the contact object with the touch surface (that is, has no sensing function). In the electronic device having such a configuration, for example, it is possible to determine that contact with the touch panel has been made based on the pressure detected by the pressure detection unit by further providing a pressure detection unit that detects pressure on the touch panel. it can.

  In the above embodiment, the touch panel 20 is used to detect contact with the touch surface of the touch panel 20. However, it is also possible to determine that the touch detection unit detects a press on the touch panel and that the touch is made on the touch panel based on the press.

  The above-described press detection unit detects a press on the touch surface of the touch panel. For example, a strain gauge sensor or a piezoelectric that changes physical or electrical characteristics (strain, resistance, voltage, etc.) according to the press. An arbitrary number of elements can be used. Further, when the vibration unit is a piezoelectric element, the piezoelectric element can also be used as a press detection unit. By adopting such a configuration and detecting the distortion of the touch panel due to the press, it is possible to assume a configuration in which the pressure on the touch panel is calculated from the distortion.

  For example, when the pressure detection unit is configured using a piezoelectric element or the like, the piezoelectric element of the pressure detection unit is a load (force) magnitude (or magnitude of the load (force) related to the pressure on the touch surface of the touch panel. The voltage magnitude (voltage value), which is an electrical characteristic, changes according to the speed (acceleration) at which the voltage changes. In this case, the pressure detection unit can notify the control unit of the magnitude of the voltage (voltage value (hereinafter simply referred to as data)). The control unit acquires the data when the press detection unit notifies the control unit of the data, or when the control unit detects data related to the piezoelectric element of the press detection unit. That is, a control part acquires the data based on the press with respect to the touch surface of a touchscreen. That is, a control part acquires the data based on a press from a press detection part. Then, when the data based on the press satisfies a predetermined standard, the control unit can determine that contact has been made and generate a predetermined vibration. Here, the predetermined reference can be set as appropriate according to the load characteristic when the push button switch is to be expressed.

  Furthermore, such a press detection part can be comprised according to the contact detection system in a touch panel. For example, in the case of the resistance film method, a strain gauge sensor, a piezoelectric element, or the like is used by associating the magnitude of the resistance corresponding to the size of the contact area with the pressing load (force) on the touch surface of the touch panel. It can be configured without. Alternatively, in the case of the capacitance method, the capacitance can be configured without using a strain gauge sensor or a piezoelectric element by associating the size of the capacitance with a load (force) of pressing against the touch surface of the touch panel. it can.

  Further, the vibration unit 50 is configured using an arbitrary number of piezoelectric vibrators, is configured by providing a transparent piezoelectric element on the entire surface of the touch panel 20, or rotates the eccentric motor once in one cycle of the drive signal. Can also be configured. Furthermore, when the pressure detection unit and the vibration unit 50 are configured using piezoelectric elements, the pressure detection unit / vibration unit can also be configured by sharing the piezoelectric elements. This is because the piezoelectric element generates a voltage when pressure is applied and deforms when the voltage is applied.

  Further, as described above, the vibration unit 50 vibrates by driving the piezoelectric element when the voltage level (voltage value (data)) of the piezoelectric element that also serves as the pressure detection unit satisfies a predetermined reference. Can also be generated. Here, when the voltage level (voltage value (data)) of the piezoelectric element satisfies a predetermined reference, the voltage value (data) may reach a predetermined reference value, It may be when the value (data) exceeds a predetermined reference value or when a voltage value (data) equal to the predetermined reference value is detected.

  In the above-described embodiment, the description has been made assuming the configuration in which the touch panel 20 is disposed so as to overlap the upper surface of the display unit 80. The electronic device according to the present invention does not necessarily have such a configuration, and the touch panel 20 and the display unit 80 can be separated. However, when the touch panel 20 is arranged so as to overlap the upper surface of the display unit 80, the operator can easily recognize the correspondence between the displayed image, the region where the operation input is detected, and the generated vibration. Can be made.

  In addition, the display unit 80 and the touch panel 20 in the description of the present embodiment may be configured by an integrated device, for example, by providing both functions of the display unit and the contact detection unit on a common substrate. . As an example of the configuration of the device in which both functions of the display unit and the contact detection unit are integrated as described above, a plurality of photoelectric conversion elements such as photodiodes are regularly arranged in a matrix electrode array of pixel electrodes included in the liquid crystal panel. Can be mentioned. This device displays an image with a liquid crystal panel structure, while reflecting the light of a backlight for liquid crystal display at the tip of a pen that touches and inputs a desired position on the surface of the panel. The reflected light is reflected by peripheral photoelectric conversion elements. The touch position can be detected by receiving the light.

  In addition, the vibration part 50 may be comprised so that the touch panel 20 may be vibrated indirectly by vibrating an electronic device based on a vibration motor (eccentric motor) etc., and a piezoelectric element is provided in the touch panel 20. By doing so, the touch panel 20 may be configured to vibrate directly.

DESCRIPTION OF SYMBOLS 1 Electronic device 10a Upper housing | casing 10b Lower housing | casing 20 Touch panel 30 Support | pillar 40 Flexible sealing member 50 Vibrating part 70 Elastic member 80 Display part 90 Substrate

Claims (2)

A rectangular touch panel;
A vibrating section for vibrating the touch panel;
The touch panel is disposed and a supporting member that covers a surface peripheral edge portion of the touch panel, and an electronic device comprising:
Interposing a first elastic member between two opposing edge portions on the surface of the touch panel and the support member;
2. An electronic apparatus comprising a second elastic member interposed between two opposing edge portions perpendicular to the two opposing edge portions on the back surface of the touch panel and the support member. The electronic apparatus according to claim 1, wherein pillars are formed at four corners on the back surface of the touch panel, and the second elastic member is interposed in a part other than the pillars.

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