JP2016151896A - Touch input device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a touch input device that allows a user to perform an intuitive touch operation without requiring the user to continue seeing a point on a touch screen to be touched for input.SOLUTION: A touch input device 1 can detect a touch input signal, and comprises a touch input part 2 and display means 3 that projects or transmits a video on/through the touch input part 2. The touch input part 2 comprises: a three-dimensional substrate 21 that includes a principal surface part 22 on/through which the video displayed by the display means 3 is projected or transmitted, and a three-dimensional part 23 that is formed at least as one of a convex shape and a concave shape with respect to the surface of the principal surface part; and a touch electrode part 25 that is formed in an area corresponding to the three-dimensional part 23.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a touch input device, and more particularly to a touch input device having a three-dimensional touch surface.

  Conventionally, a touch input unit for detecting an input position is attached to the display surface of a display device in a personal computer, a portable terminal, an electronic notebook, an OA device, a game machine, a PDA, a bank terminal (cash dispenser), a ticket machine, and the like. Touch input devices are known. For example, as disclosed in Patent Document 1, the touch input unit included in such a touch input device includes a touch electrode unit for detecting a touch position formed on one surface of a planar substrate made of glass or the like. Has been configured.

JP 2011-054199 A

  The conventional touch input device is operated by the user by touching a predetermined area corresponding to the button partial image in the video that the display device transmits to the touch input unit. It is necessary to visually confirm a button partial image to be touched and to perform a touch operation while viewing the displayed button partial image. In other words, when operating the touch input device, the user must always visually check the video displayed on the display device, and can perform a touch operation with the eyes away from the displayed video. There was a problem that it was difficult. After confirming the position of the button partial image by visual observation, touch the approximate position of the button partial image (the place to be touched) while keeping an eye on the display image, relying on the memory, and touch input device However, in such a case, it is highly likely that the wrong position will be touched and the touch input device will be operated differently from the desired action. The operation cannot be performed.

  The present invention has been made to solve such a problem, and it is not necessary for the user to continue to visually observe the place where the touch input is to be made on the touch surface, and an intuitive touch operation can be performed. An object is to provide an input device.

  The above object of the present invention is a touch input device capable of detecting a touch input signal, comprising a touch input unit and display means for projecting or transmitting an image on the touch input unit, wherein the touch input unit includes: A three-dimensional substrate having a main surface portion on which an image displayed by the display means is projected or transmitted, and a three-dimensional portion formed as at least one of a convex shape and a concave shape with respect to the surface of the main surface portion; It is achieved by a touch input device comprising a touch electrode portion formed in a region corresponding to a three-dimensional portion.

  In the touch input device, it is preferable that the display unit projects or transmits an information image indicating a touch input position with respect to the touch input unit to a user in an area corresponding to the three-dimensional unit.

  In addition, it is preferable that the contour shape of the three-dimensional portion in plan view matches the contour shape of the information image projected or transmitted by the display unit on the region corresponding to the three-dimensional portion.

  Moreover, it is preferable that the main surface part of the said three-dimensional board | substrate is formed in planar shape or curved surface shape.

  A detection unit that detects a touch input signal from an electrical change of the touch input unit; and a control unit that changes an image projected or transmitted to the touch input unit based on the touch input signal detected by the detection unit. It is preferable to further provide.

  Moreover, it is preferable that the said three-dimensional board | substrate is provided with the light-diffusion layer, and the said display means is a projection type display apparatus which projects an image | video on the said touch input part.

  According to the present invention, it is possible to provide a touch input device capable of performing an intuitive touch operation without requiring the user to continue to visually observe a place where touch input is to be performed on the touch surface.

It is a schematic structure sectional view of a touch input device concerning the present invention. It is a top view of the touch input device seen from the arrow A direction in FIG. It is a top view which shows the modification of the solid part which a touch input device has. It is a top view which shows the modification of the touch electrode part which a touch input device has. It is a top view which shows the other modification of the touch electrode part which a touch input device has. It is a schematic structure sectional view showing other modifications of a solid part which a touch input device has. FIG. 10 is a schematic cross-sectional view illustrating a modification of the touch input device illustrated in FIG. 1. FIG. 7 is a schematic cross-sectional view illustrating another modification of the touch input device illustrated in FIG. 1.

  Hereinafter, a touch input device according to an embodiment of the present invention will be described with reference to the accompanying drawings. Each drawing is partially enlarged or reduced to facilitate understanding of the configuration, not the actual size ratio. As for the operation content of the touch input device, the video displayed by the touch operation on the touch surface is provided to the user, the music is provided to the user by the touch operation on the touch surface, or the touch operation is performed. Various contents such as ticket issuing tickets are conceivable, but in this embodiment, for ease of explanation, by repeating the touch input operation, different videos are sequentially switched and displayed to the user. A case will be described below as an example. FIG. 1 is a schematic cross-sectional view of a touch input device 1 according to the present invention, and FIG. 2 is a plan view seen from the direction of arrow A. A touch input device 1 according to the present invention is a touch input device 1 capable of detecting a touch input signal, and includes a capacitive touch input unit 2 and a display unit 3.

  The touch input unit 2 is a member that is disposed on the front side of the display unit 3 and that allows the user to perform a touch operation. As shown in FIG. 1, the touch input unit 2 includes a three-dimensional substrate 21 and a touch electrode unit 25. The three-dimensional substrate 21 has a main surface portion 22 on which an image displayed by the display unit 3 is projected or transmitted, and a three-dimensional portion 23 formed as at least one of a convex shape and a concave shape with respect to the surface of the main surface portion 22. The front surface of the three-dimensional substrate 21 (the surface opposite to the side on which the display unit 3 is arranged) constitutes a touch surface that is touched by the user. In the present embodiment, the three-dimensional substrate 21 is configured by forming the dome-shaped three-dimensional portion 23 so as to be convex toward the touch surface and to have a circular outline shape in plan view. The three-dimensional substrate 21 may be configured by laminating a hard coat layer for preventing scratches, an antifouling coating layer, an antireflection layer, or the like on the surface of the three-dimensional substrate 21 on the touch surface side.

  Here, in the present embodiment, the contour shape in plan view of the three-dimensional part 23 included in the three-dimensional substrate 21 is configured to be circular, but is not limited to such a form, for example, in plan view. The solid portion 23 may be configured in various forms such as a rectangular shape, an elliptical shape, a trapezoidal shape, and a star shape. Moreover, in the cross-sectional view of the three-dimensional part 23, as shown in FIG. 3, you may comprise the three-dimensional part 23 so that the several level | step-difference part 231 may be provided. When the solid portion 23 is configured to have a plurality of step portions 231 in this way, the touch electrode unit 25 is provided in each of the regions corresponding to the step portions 231, and the touch input device 1 is operated by a touch operation on each step portion 231. May be configured to perform different operations (for example, an operation of displaying different images in response to a touch operation on each stepped portion 231).

  The material forming the three-dimensional substrate 21 is preferably a dielectric material and is made of a highly transparent resin material. For example, a resin material such as polymethyl methacrylate (PMMA) or polycarbonate (PC) which is a thermoplastic resin can be preferably used. Note that the three-dimensional substrate 21 may be formed using various resin materials capable of forming the three-dimensional portion 23, without being limited to such a resin material.

  A touch electrode portion 25 is formed on the three-dimensional substrate. The touch electrode unit 25 is a unit that generates a touch signal when a person touches the touch surface, and is formed on an area corresponding to the three-dimensional unit 23 on one side of the three-dimensional substrate 21. Yes. In the present embodiment, as shown in FIG. 1, the touch electrode portion 25 is formed on the concave surface of the three-dimensional portion 23 on the surface side of the three-dimensional substrate 21 facing the display means 3 side. The touch electrode portion 25 can be formed, for example, as a mesh pattern having a certain aperture ratio (for example, 60% or more) of a thin metal wire having a line width of 1 to 50 μm. As a material for forming the fine metal wire, for example, a metal material such as copper or nickel can be used. You may further provide a rust prevention coating layer, an adhesion layer, a blackening layer, etc. with respect to a metal fine wire. The specific form of the touch electrode unit 25 is not limited to the mesh shape, but touch input such as an ITO film formed by sputtering or a transparent conductive film formed by applying conductive fine particles such as carbon nanotubes. Any form that can detect a signal can be adopted. In the present embodiment, the touch electrode unit 25 is configured to be formed on one surface side of the three-dimensional substrate 21 (the surface side of the three-dimensional substrate 21 facing the display unit 3 side). For example, the touch electrode unit 25 may be disposed on the other surface side (touch surface side) of the three-dimensional substrate 21. In the case of such a configuration, it is preferable that a protective sheet (protective layer) for protecting the touch electrode unit 25 is disposed on the touch electrode unit 25.

  The touch input unit 2 having the above configuration can be formed by, for example, the following method. First, reducing polypyrrole fine particles and a binder are placed at a predetermined position (position where the touch electrode portion 25 is formed) on one surface of a flat substrate formed of a resin material such as polymethyl methacrylate (PMMA) or polycarbonate (PC). The coating material is applied in a form corresponding to the mesh pattern of the touch electrode portion 25 to form a coating layer. Thereafter, a predetermined position (peripheral position where the coating film layer is formed) of the flat substrate is three-dimensionally deformed by a vacuum forming technique or the like, and the three-dimensional portion 23 that is convex from one side to the other side is formed. Form. Next, the catalytic metal is adsorbed by ion reduction on the coating layer on the three-dimensional substrate 21 on which the three-dimensional part 23 is formed, and then a metal layer made of copper or nickel is deposited by electroless plating. The deposited metal layer has a mesh pattern shape, which becomes the touch electrode portion 25. In addition, the formation method of the touch input part 2 is not specifically limited to such a method, The three-dimensional board | substrate 21 which has the solid part 23 is formed, and the touch electrode part 25 is formed in the predetermined area | region corresponding to the solid part 23 Any forming method may be adopted as long as it is a method.

  In the three-dimensional substrate 21, a wiring portion (not shown) that is electrically connected to the touch electrode portion 25 is formed on the surface side where the touch electrode portion 25 is formed. The wiring portion may be formed by the same method as the method of forming the touch electrode portion 25 by plating as described above, or after the touch electrode portion 25 is formed by plating as described above, the conductive ink is applied in a predetermined manner. You may form by apply | coating to the position of. In addition, a detection unit (not shown) is electrically connected to the wiring unit. The detection unit detects whether or not there is a touch input from an electrical change of the touch input unit 2 (touch electrode unit 25), that is, from a signal (touch input signal) related to the touch position on the three-dimensional substrate 21 detected by the touch electrode unit 25. It is a means to detect.

  The display means 3 is a device that projects or transmits an image on the touch input unit 2, and various types of display devices can be employed. In the present embodiment, a projection display device (projector device) that projects an image on the touch input unit 2 is employed as the display unit 3, and the image to be displayed is projected onto the touch input unit 2 to be the main of the three-dimensional substrate 21. The image is projected on the surface portion 22 so that the user can visually recognize the image. When a projection display device is employed as the display unit 3, the three-dimensional substrate 21 is preferably configured to include a light diffusion layer. The light diffusion layer is a layer for isotropically diffusing the image light incident from the projection display device to be emitted from the touch surface side and delivering it to the user. The light diffusion layer is made of a known material and a forming method. be able to. For example, the light diffusing layer is composed of a base material made of a transparent resin and a diffusing component dispersed in the base material, and the refractive index difference between the base material and the diffusing component or the reflecting property of the diffusing component itself. To diffuse light isotropically. As the diffusion component, it is preferable to use resin beads having high transparency, for example, acrylic beads, melamine beads, acrylic-styrene beads, polycarbonate beads, polyethylene beads, polystyrene beads, and the like.

  The display unit 3 is connected to a control unit (not shown) that changes an image projected or transmitted to the touch input unit 2 based on the touch input signal detected by the detection unit. In the present embodiment, the control unit is shown in a region indicated by a one-dot chain line in FIG. 2 when the user repeats a touch operation on the three-dimensional unit 23 of the three-dimensional substrate 21 on which the touch electrode unit 25 is formed. The video content to be displayed is sequentially switched and displayed. Since the control unit only needs to be configured so that the touch input signal detected by the detection unit can be received, the detection unit and the control unit may be directly connected by wiring, or the detection unit The detection unit and the control unit may be configured to wirelessly transmit the touch input signal detected by the control unit to the control unit.

  Here, in the present invention, the display unit 3 is configured to project or transmit an information image (touch position information image) indicating the touch input position with respect to the touch input unit to the user in an area corresponding to the three-dimensional unit 23. Has been. Various types of images can be adopted as the touch position information image. For example, the touch position information image may be configured such that the color projected on the area corresponding to the three-dimensional unit 23 is different from the color projected on the area other than the area, or the character image or the character information image. . Further, the contour shape of the three-dimensional portion 23 on the three-dimensional substrate 21 in plan view matches the contour shape of the information image (touch position information image) that the display unit 3 projects onto the area corresponding to the three-dimensional portion 23. It may be configured. In this application, “match” means that the contour shape is not required to be completely matched when viewed from all angles, and the contour shape is such that the operator can sufficiently recognize the touch position (possible range). Means match. In the present embodiment, as shown in FIG. 2, since the contour shape of the three-dimensional unit 23 in a plan view is configured to be a circle, the display unit 3 projects the main surface portion 22 of the touch input unit 2 or the like. In the video, for example, a video part (touch position information image) to be projected onto an area corresponding to the three-dimensional part 23 is configured as a symbol information image indicating that the part is touch-input, and the contour of the symbol information image is displayed. The shape is configured to be a circular shape that substantially matches the contour shape of the solid portion 23 in plan view.

  In the touch input device 1 having the above configuration, the detection method of the touch operation is the same as that of the conventional capacitive touch input device, and the detection method is appropriately selected depending on the purpose such as the self-capacitance detection method and the mutual capacitance detection method. it can. When the three-dimensional part 23 in the touch input unit 2 is touched with a finger or the like, the touch electrode part 25 arranged on the three-dimensional part 23 is grounded via the capacitance of the human body at the contact position, and the current value flowing through the touch electrode part 25 The detection unit detects the touch input signal from the change in the number, and based on the touch input signal detected by the detection unit, the control unit performs arithmetic processing to change the image projected or transmitted through the touch input unit 2. By the processing by the control unit, the display unit 3 displays different images before and after the touch operation, and provides the different images to the user via the touch input unit 2. In addition, although comprised so that a different image | video may be displayed before and after touch operation, the display means 3 is projected or permeate | transmitted to the area | region corresponding to the solid part 23 (image which shows that it is a part by which touch input is carried out) ) Is preferably configured so as not to be changed.

  In this embodiment, touch input is performed by forming a three-dimensional portion 23 formed as at least one of a convex shape and a concave shape on the surface of the main surface portion 22 on which an image displayed by the display unit 3 is projected or transmitted. Since the device 1 is configured, the user of the touch input device 1 confirms the content of the video displayed by the display unit, and grasps which location is the position where the touch input is to be performed before the touch input. Only by looking at the main surface portion 22 of the device 1, it is possible to intuitively think that the three-dimensional portion 23 is a position where touch input is to be performed.

  In addition, the user of the touch input device 1 can continuously perform the touch operation without the user continuing to visually observe the place on the touch surface where the touch input is to be performed. More specifically, the user who operates the touch input device 1 according to the present invention determines a portion (three-dimensional portion 23) where touch input is to be performed together with an image displayed by viewing the main surface portion 22 of the touch input device 1. Although it will be recognized, at this time, the approximate position of the place (solid portion 23) to be touch-input is stored in the user. When the touch operation is actually performed, if the finger is moved to the approximate position of the stored touch input portion (three-dimensional portion 23), the finger changes the undulation of the three-dimensional portion 23 on the main surface portion 22. The user can recognize that the position is a place where touch input is to be performed, and a touch operation on the place can be performed. In the conventional touch input device 1, it is necessary to rely only on vision for recognizing a place where touch input is to be performed, whereas in the touch input device 1 according to the present invention, a touch operation is performed by a finger. Because tactile sensation can be used, there is no need to keep looking at the place where touch input is to be performed when touch input, and the user can grasp the place where touch input is to be performed intuitively and reliably. It is possible to operate the touch input device 1 while concentrating the consciousness on the video that is switched and displayed by the operation.

  In the present embodiment, the display unit 3 is configured to project or transmit an information image indicating the touch input position with respect to the touch input unit to the user in an area corresponding to the three-dimensional unit 23. When such a configuration is adopted, the recognition of the information image indicating the touch input position displayed on the three-dimensional unit 23 by the display unit 3, the visual recognition of the shape of the three-dimensional unit 23, and the three-dimensional unit 23 with a finger are used. Recognition by the tactile sense of the shape (undulations) of the user acts on the user. In other words, because the combination of visual and tactile stimuli is the same for the place where touch input is to be performed, the interaction between visual and tactile sensations strongly acts on the user, and when the user performs touch input, It is possible to effectively prevent a touch operation from being mistaken or a touch operation deviating from the center position of the touch input location, so that the user can perform a more reliable touch operation. become.

  Furthermore, in the present embodiment, the contour shape of the three-dimensional unit 23 in plan view matches the contour shape of the information image (touch position information image) that the display unit 3 projects or transmits in the region corresponding to the three-dimensional unit 23. It is configured as follows. As described above, when the contour shape of the three-dimensional unit 23 in plan view and the contour shape of the touch position information image are configured to match, the consistency of the combination of the visual and tactile stimuli regarding the portion to be touch-inputted is described. It is possible to improve the interaction between visual and tactile sensations, and it is possible to make the user act more strongly. As a result, when performing touch input, it is possible to more effectively prevent a touch location from being mistaken or a touch operation deviating from the center position of the touch input location, which is extremely reliable. The user can perform the touch operation.

  As mentioned above, although one Embodiment of the touch input device 1 which concerns on this invention was described, a specific structure is not limited to the said embodiment. For example, in the above embodiment, as shown in FIGS. 1 and 2, a single three-dimensional portion that forms a discontinuous surface with respect to the surface of the main surface portion 22 on which the image displayed by the display means is projected or transmitted. The three-dimensional substrate 21 is configured so as to have 23, but is not limited to such a form. The three-dimensional substrate 21 is formed so as to have a plurality of three-dimensional portions 23, and one surface side of the three-dimensional substrate 21 is formed. In addition, the touch electrode unit 25 may be arranged in each region corresponding to each three-dimensional unit 23. When a plurality of combinations of the three-dimensional part 23 and the touch electrode part 25 are formed in this way, in each set, the contour shape in plan view of the three-dimensional part 23 and the display unit 3 are projected or projected onto a region corresponding to the three-dimensional part 23. The outline shape of the information image to be transmitted (touch position information image) may be configured to match each other, or the outline shape in the plan view of the three-dimensional unit 23 and the touch position information image with respect to some sets. You may comprise so that the outline shape may agree | coincide.

  Moreover, in the said embodiment, although it has comprised so that the image | video which the display means 3 displays may be switched by repeating the touch operation with respect to the three-dimensional part 23, it is not specifically limited to such a structure, For example, FIG. As shown in the plan view, a touch electrode unit 25 is configured as a set of a plurality of touch electrode bodies 251, and an image corresponding to the touch position is obtained by touching the three-dimensional unit 23 on which each touch electrode body 251 is formed. You may comprise so that it may be displayed. Various shapes can be employed as the shape of each touch electrode body 251. In FIG. 4, each touch electrode body 251 is formed in a fan shape, and the plurality of fan-shaped touch electrode bodies 251 are arranged concentrically to constitute the touch electrode portion 25. An insulating region is formed between the touch electrode bodies 251 so that a touch input signal input to one touch electrode body 251 is not supplied to another adjacent touch electrode body 251. Yes.

  Further, for example, when there is a so-called slide input as a touch operation, the video displayed by the display unit 3 may be switched. In order to be able to detect a slide input, the touch electrode unit 25 is configured as a so-called slider bar type or scroll wheel type. When the slider bar type touch electrode unit 25 is configured, for example, as shown in FIG. 5, a plurality of touch electrode bodies 251 may be arranged along one direction. When the scroll wheel type touch electrode unit 25 is configured, the configuration of the touch electrode unit 25 shown in FIG. 4 described above can be employed. The detection unit is configured to recognize that a proper slide input is made when touch input signals from the touch electrode bodies 251 are sequentially input along one direction within a predetermined time. .

  Moreover, in the said embodiment, although the three-dimensional part 23 in the three-dimensional board | substrate 21 is comprised so that it may become convex on the touch surface side, it is not specifically limited to such a structure. For example, as shown in the schematic cross-sectional view of FIG. 6, the three-dimensional portion 23 may be formed so as to be convex toward the display unit side and the touch surface side to be a concave portion. When such a configuration is adopted, the touch electrode portion 25 is preferably formed on the surface of the three-dimensional substrate 21 facing the display unit 3 and on the convex surface protruding to the display unit 3 side. When such a configuration is adopted, in order to operate the touch input device 1, the user needs to insert a finger to the vicinity of the bottom of the recess, and the three-dimensional unit is not intended to perform the touch operation. It is possible to effectively prevent the malfunction that the touch input device 1 is driven by touching the touch panel 23. It should be noted that both the three-dimensional portion 23 that is convex when viewed from the touch surface side as shown in FIG. 1 and the three-dimensional portion 23 that is concave when viewed from the touch surface side as shown in FIG. 6 are provided. Thus, the three-dimensional substrate 21 may be configured.

  Moreover, in the said embodiment, although the surface shape of the main surface part 22 which the three-dimensional board | substrate 21 has is comprised as planar as shown in FIG. For example, the surface shape of the main surface portion 22 may be configured as a curved surface as shown in FIG. 7 so that the boundary portion can be grasped.

  In the above-described embodiment, the case where a projection display device (projector device) that projects an image on the touch input unit 2 and provides the image to the user is adopted as the display unit 3. As such, various types of display devices can be employed. For example, as shown in FIG. 8, a liquid crystal display in which the touch input unit 2 is installed is adopted as the display unit 3, and the displayed video is transmitted through the touch input unit 2 so that the user can visually recognize the video. You may comprise so that it can do. In the configuration shown in FIG. 8, the adhesive layer 4 is arranged in a frame shape around the display surface 31 side of the display unit 3 (liquid crystal display device), and the display unit 3 and the touch input device 1 are interposed via the adhesive layer 4. And are integrated. As the pressure-sensitive adhesive layer 4, a general transparent adhesive or pressure-sensitive adhesive such as epoxy or acrylic can be used, and it may include a core made of a norbornene-based resin transparent film. Note that the region where the adhesive layer 4 is pasted in the touch input unit 2 is not a region through which the image displayed by the display unit 3 is transmitted, and thus does not constitute the main surface portion 22. Alternatively, a transparent photo-curing resin material may be applied to the surface of the display means 3 and the touch input unit 2 may be placed, and then the photo-curing resin material may be cured and fixed by irradiating ultraviolet rays or the like.

  Further, the touch input device 1 according to the above embodiment has a configuration in which the touch electrode unit 25 is disposed at a position corresponding to the three-dimensional unit 23 and is driven only by a touch operation on the three-dimensional unit 23. For example, a matrix-shaped touch electrode portion is formed in the region indicated by the alternate long and short dash line in FIG. 2 on one surface side of the three-dimensional substrate 21, and a touch position recognition function is given to the region. It may be configured so that a part other than the three-dimensional part 23 can be touch-operated.

  Moreover, in the said embodiment, it comprises so that the touch electrode part 23 may be formed directly on the surface of the three-dimensional board | substrate 21 in the one surface side (surface side which opposes the display means 3) of the three-dimensional board | substrate 21. However, for example, a resin film or a resin layer may be interposed between the surface of the three-dimensional substrate 21 and the touch electrode unit 23, and the touch electrode unit 23 may be formed on the resin film or the like. .

  Moreover, in the said embodiment, the control content of the video display which the display means 3 displays is not specifically limited, A various display control content is employable. For example, when the user is not within a predetermined distance from the touch input device 1, the video display is turned off, and the video is displayed when the user approaches the predetermined distance. Alternatively, when there is no user within a predetermined distance from the touch input device 1, a landscape image, an advertisement image, or the like is displayed on the entire main surface portion 22 (including the three-dimensional portion 23) of the touch input portion. When the user approaches within a predetermined distance, an information image (touch position information image) indicating the touch input position for the touch input unit to the user is displayed on the three-dimensional unit 23 and other than the three-dimensional unit 23. You may comprise so that the image | video different from an information image with a touch may be displayed on an area | region. Alternatively, the video display may be turned off if there is no touch input for a certain period of time, and the video may be displayed by touching the touch input unit.

  Moreover, in the said embodiment, although the outline shape in planar view of the touch input part 2 is comprised so that it may become a rectangular shape as shown in FIG. 2, it is not specifically limited to such a structure. For example, the contour shape in plan view of the touch input unit 2 is configured to be a non-rectangular shape imitating the contour shape of various products distributed in the market such as clothes such as T-shirts, and the display unit 3 An image that matches the contour shape of the touch input unit 2 may be projected or transmitted through the touch input unit 2. For example, when the touch input device 1 having such a configuration is installed in a store such as a clothing such as a T-shirt, the user of the touch input device 1 can touch the touch input device 1 by touching the three-dimensional unit 23. It is possible to utilize various patterns such as clothing patterns by changing the pattern and color of the projected image. Such utilization makes it possible to obtain a larger display effect than when simply displaying clothes having various patterns and colors. In addition, since the contour shape of the touch input unit 2 simulates the contour shape of clothes that are commodities, the user himself / herself through the operation of the touch input device 1 without having to pick up and confirm the actual commodities. It becomes possible to make the user himself / herself effectively sense the taste and impression of the product. In addition, the touch input device 1 according to the present invention can be suitably used, for example, as a console panel for operation of a car navigation system of an automobile or an audio system. When used as a console panel, the driver can perform an intuitive operation by relying on the change in the undulation of the three-dimensional part 23 without observing the information displayed on the console panel. As a result, it becomes possible to drive a car more intensively. Moreover, since the said console panel can be formed as a form along the surface shape of the housing | casing in which a console panel is fitted, integrity with the said housing design can be ensured.

DESCRIPTION OF SYMBOLS 1 Touch input device 2 Touch input part 21 Three-dimensional board | substrate 22 Main surface part 23 Three-dimensional part 25 Touch electrode part 251 Touch electrode body 3 Display means

Claims (6)

A touch input device capable of detecting a touch input signal,
A touch input unit, and display means for projecting or transmitting an image on the touch input unit,
The touch input unit includes a main surface portion on which an image displayed by the display unit is projected or transmitted, and a three-dimensional portion formed as at least one of a convex shape and a concave shape with respect to the surface of the main surface portion. A touch input device comprising: a shaped substrate; and a touch electrode portion formed in a region corresponding to the three-dimensional portion.   The touch input device according to claim 1, wherein the display unit projects or transmits an information image indicating a touch input position with respect to the touch input unit to a user in an area corresponding to the three-dimensional unit.   3. The touch according to claim 2, wherein a contour shape of the solid portion in plan view matches a contour shape of an information image projected or transmitted by the display unit on a region corresponding to the solid portion. Input device.   The touch input device according to claim 1, wherein the main surface portion of the three-dimensional substrate is formed in a planar shape or a curved shape.   A detection unit that detects a touch input signal from an electrical change of the touch input unit; and a control unit that changes an image projected or transmitted to the touch input unit based on the touch input signal detected by the detection unit. The touch input device according to claim 1, wherein the touch input device is a touch input device. The said three-dimensional board | substrate is provided with the light-diffusion layer, The said display means is a projection type display apparatus which projects an image | video on the said touch input part, The Claim 1 characterized by the above-mentioned. Touch input device.