JP2012208762A - Touch panel input operation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a touch panel input operation device that is easily recognized by difference in touch feeling on an operation surface of a touch panel.SOLUTION: A touch panel input operation device comprises: a first sheet-like member 111 having an operation surface which is contacted by a detection body performing input operation; a second sheet-like member 112 having a touch sensor on its front surface side to detect a position where the detection body has contacted with the operation surface; and a touch panel member 110 which is integrated by laminating the first sheet-like member 111 onto the front surface side of the second sheet-like member 112. The front surface of the operation surface has index parts M which are different in touch feeling. An area of the index part M is easily recognized by the difference in touch feeling on the operation surface of the touch panel member 110, thereby allowing the input operation onto the touch panel 110 to be done satisfactory through the contact operation.

Description

  The present invention relates to a touch panel input operation device.

In recent years, it has been widely practiced to arrange a steering switch in the vicinity of a steering wheel of a vehicle such as a vehicle represented by an automobile, and operate the electronic device in the vehicle by operating the steering switch with a finger. For example, in the input operation device described in Patent Document 1, an input operation device including a touch sensor that receives a touch operation from a user is provided in a vehicle steering, and a car navigation device, an audio device, or the like is mounted on the vehicle according to the touch operation. An apparatus for operating an electronic device is disclosed.
However, as the number of operation items increases due to diversification of electronic devices in the vehicle, many operation pushbutton switches are required, and there is a possibility that it takes a long time to keep an eye on the front during driving. In addition, an in-vehicle input device that has a head-up display for displaying an operation state on a touch panel has been proposed.
However, in the in-vehicle input device according to Patent Document 2, it is not necessary to visually confirm the switch itself when performing the switch operation, but the position and operation of the switch by a plurality of touch panels displayed on the display at the time of the operation. There is a problem that it is necessary to pay attention to both of the display states, and as shown in Patent Document 3, a touch panel is proposed in which uneven regions are formed on the operation surface of the touch panel to prevent mistouch.

JP 2009-298285 A JP 2000-71809 A JP 2010-86236 A

  However, in Patent Document 3, irregularities are formed on a display that displays images, characters, numbers, and the like, and an operation surface of a touch panel arranged on the display surface side of the display in accordance with a display position. At this time, since a plurality of irregularities are provided on the touch panel operation surface in accordance with the display position of the display, the display switching position may not be specified as the number increases. That is, a predetermined location may not be specified when operating a switch location (display location on the display) by eye-free.

  Accordingly, the present invention has been made paying attention to the above-described problems, and it is easy for a user to perform a contact operation based on a difference in touch on the operation surface of the touch panel, and to easily identify an operation desired at the time of operation based on a difference in touch. An object of the present invention is to provide an input operation device.

  In order to solve the above-described problems, in the present invention, in claim 1, a first sheet-like member having an operation surface that comes into contact with a detected body that performs an input operation, and a position where the detected body comes into contact with the operation surface. A second sheet-like member provided with a plurality of touch sensors on the front side, and a touch panel in which the first sheet-like member is laminated and integrated on the front side of the second sheet-like member The touch panel input operation device is characterized in that an indicator portion having a different touch feeling is provided on the surface side of the operation surface.

  By comprising in this way, the area | region of an indicator part can be identified by the touch of the operation surface of a touch panel member, and the input of a touch panel member can be performed favorably by contact operation.

  The indicator portion is composed of a coating layer (ink layer) by printing or painting, and the type of the coating layer (ink layer) or the thickness of the coating layer (ink layer) is different from the region other than the indicator portion. The touch panel input operation device according to claim 1, wherein the touch panel input operation device is provided.

  By configuring in this way, since the degree of surface roughness varies depending on the type of the coating layer (ink layer), it is possible to determine the difference in touch by the contact operation with the detection target (fingertip), Further, the difference in thickness of the coating layer (ink layer) (thickness of the step due to overprinting or the like) can be well distinguished by the contact operation.

  3. The touch panel input operation device according to claim 1, wherein the region of the indicator portion is subjected to uneven processing by a UV ink layer. 4.

  By comprising in this way, the difference in touch can be discriminate | determined favorably by contact operation by a to-be-detected body (fingertip) by the unevenness | corrugation provided in the surface of UV ink layer.

  2. The touch panel input operation device according to claim 1, wherein the surface of the operation surface is processed with fine unevenness in the area of the indicator portion. 3.

  By comprising in this way, by performing processing which consists of fine unevenness at the same time as forming on the operation surface itself which is the surface of the first sheet-like member, surface processing can be easily formed, The surface of the first sheet-like member can be discriminated well by the feel of unevenness, and the touch panel member can be favorably input by a contact operation.

  The operation surface of the touch panel member is provided with a three-dimensional shape portion that includes either a raised portion, a hollow portion, or both capable of recognizing the position of the touch sensor, and at least a part of the three-dimensional shape portion includes the above-described three-dimensional shape portion. The touch panel input operation device according to claim 1, further comprising an index unit.

  By comprising in this way, by providing a solid-shaped part on the surface of a touch-panel member, an index | index part position can be discriminate | determined favorably and input of a touch-panel member can be favorably performed by contact operation.

  6. The touch panel input operation device according to claim 1, wherein a predetermined area on the operation surface is provided with a surface coat made of a transparent resin film.

  By comprising in this way, while being able to identify the area | region of an index part by the touch of the operation surface of a touch panel member, the surface of a touch panel member can be protected by the surface coat which consists of a resin film.

  In the present invention, a first sheet-like member having an operation surface that comes into contact with a detection object that performs an input operation, and a plurality of touch sensors for detecting positions where the detection object comes into contact with the operation surface are provided on the front side. And a touch panel member in which the first sheet-like member is laminated and integrated on the front side of the second sheet-like member, and the surface side of the operation surface Is a touch panel input operation device characterized in that an indicator portion having a different touch feeling is provided, and the area of the indicator portion can be identified by the touch of the operation surface of the touch panel member. Input of members can be performed satisfactorily, and the intended purpose can be achieved.

1 is a configuration diagram of a system including a touch panel input operation device according to a first embodiment of the present invention. It is an outline figure near the driver's seat side in vehicles of a car in which a touch panel input operation device is carried. FIG. 3 is an exploded perspective view showing the configuration of the touch panel input operation device. FIG. 4 is an assembled cross-sectional view of the main part in the first embodiment in which the touch panel input operation device is provided at the grip part of the steering wheel of the vehicle. Fig.5 (a) is a top view which shows the touchscreen member of a touchscreen input operation apparatus, FIG.5 (b) is sectional drawing which shows the touchscreen member. 6A and 6B are a plan view and a cross-sectional view showing the assembled state of FIG. FIG. 7 is a cross-sectional view illustrating a main part in which a touch panel member of the touch panel input operation device is partially enlarged. FIG. 8 is a diagram illustrating a first sensor row and a second sensor row included in the second sheet-like member. FIG. 9 is a diagram illustrating an example of a gesture operation at a raised portion in the three-dimensional shape portion and an operation of the in-vehicle electronic device executed in response thereto. FIG. 10 is a diagram illustrating an example of the gesture operation at the raised portion (index portion) of the touch panel member and the operation of the in-vehicle electronic device executed in response thereto. FIG. 11 is a diagram illustrating an example of a gesture operation based on a raised portion (index portion) in the touch panel member and an operation of the in-vehicle electronic device executed in response thereto. FIG. 12 is a cross-sectional view of a main part showing a touch panel member according to the second embodiment of the present invention. FIG. 13A is a plan view showing the touch panel member in FIG. 12, and FIG. 13B is a cross-sectional view showing the sheet panel member. 14A and 14B are a plan view and a cross-sectional view showing an assembled state of the touch panel input operation device on which the touch panel member of FIG. 13 is mounted. FIG. 15 shows an example of an embodiment of the touch panel member, and is a cross-sectional view showing a part thereof enlarged. FIG. 16 is an enlarged cross-sectional view showing a modified example of the touch panel member in the second embodiment.

  Hereinafter, an input device according to an embodiment of the present invention will be described with reference to the accompanying drawings.

  As shown in FIG. 1, the input operation device of the touch panel according to the first embodiment is an input operation device 100 mounted on a vehicle such as an automobile. When a user (usually a driver) of the vehicle 1 operates the input operation device 100, the control device 1000 causes the in-vehicle electronic device 20 to perform various operations according to the operation.

(Configuration of vehicle 1)
As shown in FIG. 2, the vehicle 1 includes a steering 10 and an in-vehicle electronic device 20.

  The steering 10 is a part of the steering device of the vehicle 1 and includes a main body 11 and a steering wheel 12.

  The main body 11 is a spoke connected to a steering shaft (not shown) of the vehicle 1 and includes an input operation device 100 on the right side. The main body 11 is formed with a mounting hole (not shown) that matches the shape of the input operation device 100. By attaching the input operation device 100 to the attachment hole, only an operation surface described later of the input operation device 100 is exposed.

  The steering wheel 12 is a grip member of a ring-shaped handle attached to the main body 11 and gripped when the driver steers the vehicle 1.

The in-vehicle electronic device 20 is an audio device, a car navigation device, or the like, and is electrically connected to a control unit 200 described later, and operates according to a control signal received from the control unit 200.
The on-vehicle electronic device 20 displays an image corresponding to the operation of the display unit 21.

(Configuration of control device 1000)
The control device 1000 includes an input operation device 100, a control unit 200, and a storage unit 300.

  As shown in FIG. 3, the input operation device 100 includes a touch panel member 110, an illumination unit 120 that displays the touch panel member 110 in an illuminated manner, and a switch mechanism 130.

  When the user performs an operation of tracing a predetermined locus on the operation surface with a thumb or the like (hereinafter referred to as a gesture operation), the touch panel member 110 is controlled by the control unit 200 described later. A touch pad device that detects a position where a thumb or the like touches the operation surface, and a position at which a first sheet-like member 111 made of a transparent material serving as a surface cover and a detected object such as a thumb come into contact with the operation surface And a second sheet-like member 112 made of a permeable material provided on the front surface side and laminated and integrated.

  In the touch panel member 110 in the present embodiment, a spacer 113 made of a transparent resin material for protection is disposed behind the sheet-like members 111 and 112.

  The spacer 113 is located on the back side of the second sheet-like member 112, and as shown in FIG. 5 (b), the touch panel comprising the first sheet-like member 111 and the second sheet-like member 112 that are integrally formed. It is a member that is formed in accordance with the shape of the member 110 and holds these shapes when a pressure is applied from the front side of the touch panel member 110 by a user operation. If the strength of the touch panel member 110 is sufficient, the spacer 113 may not be disposed.

  The illuminating unit 120 includes a light guide member (light guide) 121 made of a transparent synthetic resin material serving as a surface light source, a light source 122 made of LEDs arranged at an end of the light guide member 121, and the light source 122. A flexible printed wiring board 123 made of a flexible material to be mounted, and is provided so that light from the light source 122 is incident from an end of the light guide member 121, and the light surface-emitted by the light guide member 121 is sheeted Transmission illumination is performed from behind the panel member 113.

  In addition, in order to maintain good illumination effects such as illumination efficiency and uniform illumination by the light guide member 121, a reflective sheet 124 is disposed on the back side of the light guide member 121 as in this embodiment, and the light guide member 121 The diffusion sheet 125 may be disposed on the surface side.

  The touch panel member 110 and the illumination unit 120 are fixed and held by the lower holder 140 and the upper holder 150.

  In this case, as shown in FIG. 3, FIG. 4, FIG. 6, FIG. 7, etc., the lower holder 140 is a box-shaped member formed of synthetic resin or the like, and each part of the touch panel member 110 on the front side thereof. 111-113 and the illumination part 120 are provided so that it may be arrange | positioned.

  The upper holder 150 is a lid that covers the respective portions 111 to 113 of the touch panel member 110 and the illumination unit 120 from the front side, and has an opening that exposes the operation surface of the first sheet-like member 111. It is formed from a synthetic resin or the like.

  The switch mechanism 130 is formed of a circuit board 131 made of an insulating hard material and a push button switch 132 mounted on the circuit board 131. Power is supplied to the vehicle body via the circuit board 131, a signal from the touch panel member 110 is transmitted to the control device 200, or the flexible printed wiring board 123 on which the light source 121 is mounted is connected to the circuit board 131. It is provided so that it can be electrically routed through.

  Further, a lower case 160, which is a box-shaped member made of synthetic resin or the like, is provided behind the switch mechanism 130, and a circuit board 131 on which the push button switch 132 constituting the switch mechanism 130 is mounted is attached to the lower case 160. Stored and fixedly held.

  Here, when the user performs an operation of pressing the operation surface of the touch panel member 110 of the input operation device 100 (hereinafter referred to as a pressing operation), the push button switch 132 of the switch mechanism 130 is pressed, and a predetermined input signal is transmitted to the control unit 200. Send to. The pressing operation is performed when control different from control by gesture operation on the operation surface of the input operation device 100 is executed.

  The first sheet-like member 111 that is a surface cover that constitutes a part of the touch panel member 110 provided in the input operation device 100 is formed of a sheet-like member from a transparent insulating material such as acrylic resin, and performs a gesture operation. When an operation is performed, an operation surface touched by a user's finger or the like is provided.

  Further, the operation surface of the first sheet-like member 111 in the first embodiment has irregularities, as shown in FIGS. 4 to 7, and a step is formed on this operation surface. Such an operation surface includes a three-dimensional shape portion 111D including a flat portion 111a, a raised portion 111b, and a hollow portion 111c.

  The flat surface portion 111a is a flat portion of the first sheet-like member 111 that is a surface cover.

  As shown in FIGS. 4 to 7 and the like, the raised portion 111b is a portion that rises so as to rise from the planar portion 111a in the front side direction. At this time, the operation surface is formed as a raised portion 111b made of unevenness that forms a contour portion serving as an operation index of the operation surface. From the front side, as shown in FIG. 5A, it can be seen that a plurality of raised portions 111b formed in an arc shape are arranged at predetermined intervals so as to substantially surround the circle. As shown in FIG. 3, “front side” refers to the upper side in the figure with respect to the input operation unit 100, and “back side” refers to the opposite side.

  For example, as shown in FIG. 5 (b), the recess 111c is located at the approximate center of the operation surface and is a recessed portion so as to sink from the flat surface portion 111a to the back side. As shown in FIG. 5 (a), It is formed inside the raised portion 111b arranged in a circular shape.

  As shown in FIGS. 5 (b), 6 (b), 7 (b), etc., the flat surface portion 111a, the raised portion 111b, and the recessed portion 111c are arranged so as not to hinder the user's gesture operation. The cross-sectional shapes are formed so as to be smoothly connected to each other.

  Moreover, as shown in FIGS. 5 to 7 and the like, the coating film layer P as a design portion provided on the touch panel member 110 has a transparent property such as white on the surface side of the operation surface of the first sheet-like member 111. A display color layer P1 made of an ink having a black color and a ground color made of a light-shielding ink containing, for example, black metal powder on the surface side of the display color layer P1 except for the position of the raised portion 111b. Layer P2 is applied.

  In this case, in this embodiment, the coating layer P composed of the display color layer P1 and the ground color layer P2 is applied to the surface side of the operation surface of the first sheet-like member 111 by painting, and the raised portion 111b. The display color layer P1 is exposed by partially removing the ground color layer P2 located at a location by means such as laser processing. A level difference is applied to the coating film layer P by the removed portion, and an index portion M is provided as an area for discriminating a difference in touch due to the fingertip by the level difference of the coating film layer P.

  The second sheet-like member 112 is a permeable sheet member having a plurality of sensors 1120 (detection electrodes made of transparent conductive ink) for detecting the position of a detection target such as a finger, and the surface cover. It is located on the back side of the first sheet-like member 111.

  As shown in FIG. 8, the second sheet-like member 112 detects a layer having a first sensor array 1120a for detecting the position of the detection target in the X direction and the position of the detection target in the Y direction. A layer having a second sensor array 1120b for overlapping is roughly configured. By combining the first sensor row 1120a and the second sensor row 1120b, the touch sensors 1120 are arranged in a matrix on the second sheet-like member 112 as a result. The first sensor row 1120a and the second sensor row 1120b are formed of a translucent stretchable and moldable material such as transparent conductive ink, and each of the sensor rows 1120a and 1120b is electrically connected to the control unit 200. Connected.

  When a detection object such as a finger touches the first sheet-like member 111 that is the front cover, the capacitance between the touch sensor 1120 located on the back surface side and the detection object changes. Since the control unit 200 and each sensor 1120 are electrically connected, the control unit 200 can detect a change in capacitance in each sensor 1120. The control unit 200 calculates an input coordinate value (X, Y) indicating the contact position of the detection target based on the change in capacitance. The input coordinate value is a coordinate value in the XY coordinate system of each sensor 1120 set in advance on the operation surface. The input coordinate values are the X coordinate assigned to the center of gravity position of the distribution of changes in capacitance in the X direction (for example, the position of the sensor 1120 where the capacitance is higher than a certain threshold value and the largest), and the Y direction. And the Y coordinate assigned to the position of the center of gravity of the distribution of the change in the electrostatic capacity (for example, the position of the sensor 1120 where the electrostatic capacity is higher than a certain threshold value and the largest). The control unit 200 calculates the input coordinate value (X, Y) by calculating the X coordinate and the Y coordinate.

  In addition, the second sheet-like member 112 in the present embodiment is integrally formed with the first sheet-like member 111 by drawing processing such as pressure forming (see FIG. 5B). .

  By being integrally formed in this way, the first sheet-like member 111 and the second sheet-like member 112 become a single sheet as the touch panel member 110, and the raised portion 111b and the depressed portion 111c that the operation surface has. A stepped shape such as is formed by a bent portion of the single sheet.

  Further, as a result of being integrally formed as the touch panel member 110 in this manner, the back surface of the first sheet-like member 111 that is a surface cover and the surface of the second sheet-like member 112 abut. Thereby, the touch sensor 1120 is arranged corresponding to the step shape of the first sheet-like member 111. Since the touch sensor 1120 is arranged in this way, even when the gesture operation is performed on the operation surface having a stepped shape such as the raised portion 111b, the control unit 200 changes the capacitance of each sensor. Can be detected.

  As shown in FIG. 1, the control unit 200 includes a CPU (Central Processing Unit) and the like, and executes an operation program stored in the storage unit 300 to perform various processes and controls. At least a part of the control unit 200 may be configured by various dedicated circuits such as an ASIC (Application Specific Integrated Circuit).

  The storage unit 300 includes a ROM (Read Only Memory), a RAM (Random Access Memory), a flash memory, and the like, and includes a work area of a CPU that configures the control unit 200, a program area that stores an operation program executed by the CPU, and data It functions as an area.

  The program area stores an operation program such as a program for executing the in-vehicle electronic device control process.

  In the data area, as shown in FIG. 1, a gesture dictionary G, corresponding motion data C, a set value Q that is a predetermined value of the gesture feature amount, and the like are stored in advance.

  The gesture dictionary G is data necessary for recognizing a gesture operation being performed, and includes a plurality of patterns indicating trajectory features drawn by the gesture operation. The pattern indicating the feature of the gesture operation is composed of a combination of each component of the gesture feature amount. In the present embodiment, this pattern is a pattern indicating the feature of “a gesture operation based on a raised portion”.

  The corresponding operation data C is data of a control signal that causes the in-vehicle electronic device 20 to execute a predetermined operation. There are a plurality of corresponding action data C, each of which is associated with a plurality of patterns included in the gesture dictionary G. For example, in the pattern indicating the feature of the arc-shaped gesture operation along the raised portion 111b, the command data for transmitting the volume control signal for causing the in-vehicle electronic device 20 to change the audio volume is associated as the corresponding operation data C. And stored in advance in the data area.

  The setting value Q is data of a predetermined value of the gesture feature amount, and is data serving as a trigger for transmitting a control signal to the in-vehicle electronic device 20. The setting value Q is associated with each of a plurality of patterns included in the gesture dictionary G. That is, there are a plurality of setting values Q. Here, the gesture feature quantity selected as a comparison target with the set value Q is, for example, the length of a trajectory in a trajectory in which a plurality of input coordinate values are connected by a straight line in time series.

About operation | movement of the control apparatus 1000, the gesture dictionary G, corresponding | compatible action data C, the setting value Q, and each role are described briefly.
1) The gesture dictionary G is used for recognizing to which pattern a predetermined gesture operation belongs (that is, what kind of gesture operation).
2) The corresponding operation data C is used to determine what control signal is transmitted to the in-vehicle electronic device 20 according to the gesture operation recognized based on the gesture dictionary G.
3) The set value Q is used to determine what value the gesture feature value related to the recognized gesture operation reaches when the control signal based on the corresponding action data C is transmitted.

  Each data stored in the storage unit 300 is appropriately stored as a default value or by a user's own operation using a known data registration method.

  Hereinafter, with reference to FIG. 9 to FIG. 11, an example of the “gesture operation based on the raised portion” unique to the present embodiment and the operation executed by the in-vehicle electronic device 20 in accordance therewith will be given.

(Example of gesture operation based on the ridge)
<Gesture operation OP10 along the raised part>
When operating power is supplied with the ignition turned on, the in-vehicle electronic device 20 displays an initial screen 21 a shown in FIG. 9 on the display unit 21. In the state of the initial screen 21a, when the user (driver) performs the gesture operation OP10 that traces the depression 111c of the operation surface in the clockwise direction along the raised portion 111b, the control unit 200 recognizes the gesture operation OP10. Then, a volume control signal associated with the recognized gesture operation OP10 is transmitted. The in-vehicle electronic device 20 that has received the volume control signal switches the initial screen 21a to the volume operation screen 21b and changes the audio volume according to the gesture operation OP10. Thus, the user (driver) can change the audio volume of the in-vehicle electronic device 20 by performing the gesture operation OP10.

  At this time, when the operation surface of the touch panel member 110 is operated with the fingertip in a state where the grip portion which is the handle operation unit of the steering 10 is gripped, the area of the index portion M is determined by the touch of the operation surface of the touch panel member 110 with the fingertip. The touch panel member 110 can be favorably input by the touch operation.

  That is, the indicator portion M in the present embodiment is provided with a display color layer P1 made of white ink on the surface side of the first sheet-like member 111, except for the raised portion 111b on the display color layer P1. Since the ground color layer P2 made of ink containing metal powder is applied in an overlapping manner, a step is provided at the indicator portion M, and the difference in feel is discriminated at the fingertip by the step due to the coating layer P. Can do.

  Further, in addition to the level difference due to the coating layer P, the operation surface of the touch panel member 110 has a three-dimensional shape portion 111D composed of one or both of a raised portion 111b and a recessed portion 111c that can recognize the position of the touch sensor 1120. By providing the indicator M portion on at least a part of the three-dimensional shape portion 111D, the position of the indicator portion M can be further favorably determined, and the touch panel member 110 is favorably input by a contact operation. be able to.

<Gesture operation OP20 over the ridge from outside to inside>
As shown in FIG. 10, in the state of the initial screen 21a, the gesture operation OP20 (in this example, tracing the operation surface of the input operation device 100 from the outside in the order of the plane portion 111a, the raised portion 111b, and the depression portion 111c). When the operation from the right direction corresponding to “AUDIO” on the initial screen 21a is performed, the initial screen 21a is switched to the audio operation screen 21c.

  Also in such gesture operation OP20, the touch by gesture operation OP20 which traces the unevenness | corrugation height difference, inclination, etc. of three-dimensional shape part 111D in order of the flat part 111a, the protruding part 111b, and the hollow part 111c in order from the outer side. It is possible to confirm the difference in the touch with the fingertip by the step by the coating layer P provided at the raised portion 111b, and the touch panel member 110 can be input well by the touch operation. It can be carried out.

<Gesture operation OP30 to get over the ridge from the inside to the outside>
As shown in FIG. 11, in the state of the audio operation screen 21c, the gesture operation OP30 (in this example) is performed by tracing the operation surface of the input operation device 100 in order from the inside to the depression portion 111c, the raised portion 111b, and the plane portion 111a. When the operation to get over the right raised portion 111b corresponding to “Search” on the audio operation screen 21c is performed, the audio operation screen 21c is switched to the music search screen 21e.

  In such gesture operation OP30, by the touch by gesture operation OP30 which traces the unevenness | corrugation height difference and inclination of a three-dimensionally shaped part with a fingertip in order of the hollow part 111c, the protruding part 111b, and the plane part 111a. It is possible to check the difference in the touch with the fingertip by the step by the coating layer P provided at the raised portion 111b, and the touch panel member 110 can be input well by the touch operation. be able to.

  Therefore, in the input operation device 100 according to the present embodiment, the user (operator) is provided with a step due to the coating film layer P at the index portion M provided on the operation surface. Differences in feel can be accurately determined.

  In addition, the control unit 200 recognizes a gesture operation performed on the basis of the step (index portion M) by the coating film layer P by the in-vehicle electronic device control process, and in accordance with the recognized gesture operation, The operation can be controlled. That is, according to the input operation device 100 according to the present embodiment, it is easy for the user (operator) to make a gesture contact, and the contact is made at the uneven portion of the indicator portion M formed by a step due to the coating film layer P on the operation surface. By performing processing (surface treatment) with a different feel, even when an operation (eyes-free operation) is performed without looking at the operation surface of the input operation device 100 while the vehicle 1 is traveling, an accurate gesture operation can be performed. Can be done.

  That is, in the indicator portion M in the first embodiment, the display color layer P1 made of white ink is applied on the surface side of the first sheet-like member 111, and the raised portions 111b are located on the display color layer P1. Since the ground color layer P2 made of ink containing metal powder is applied in an overlapping manner, the coating layer P (the display color layer P1 and the ground color layer P1 and the ground) is applied at the index portion M where the ground color layer P2 is partially removed. A step of the film thickness is provided by the color layer p2), and the difference in feel can be discriminated with the fingertip by the step of the film thickness, and an intended operation can be performed accurately.

  At this time, as the coating layer P, in this embodiment, the display color layer P1 is made of an ink not containing a metal powder, and the ground color layer P2 is made of an ink containing a metal powder, For this reason, since the types of inks themselves are different, the ground color layer P2 containing the metal powder at the boundary between the layers P1 and P2 has a rough surface and a rough feeling is transmitted to the fingertips. In addition, it becomes easy to discriminate as a difference in feel due to the rough feeling.

  In addition, in addition to the indicator portion M including differences in level difference due to the coating layer P and the surface roughness of the coating layer P, a three-dimensional shape portion 111D including a raised portion 111b is formed on the operation surface. Even when the gesture operation OP20 and the gesture operation OP30 that get over the raised portion 111b are performed while the vehicle 1 is traveling, the user can further feel the sense that the step shape has been exceeded with the fingertip, and the eye-free operation. The operation input can be easily performed.

  Moreover, since the depression part 111c is formed in the operation surface in this embodiment, when a user performs gesture operation on the operation surface, a finger | toe fits well. At the same time, since the recess 111c and the raised portion 111b are formed so as to be smoothly connected to each other, the user (operator) performs the gesture operation OP10 along the raised portion 111b, the gesture operation OP20 and the gesture over the raised portion 111b. Fingering can be performed smoothly when the operation OP30 is performed.

  Further, when the input operation device 100 according to the present embodiment is visually recognized, the indicator portion M (display color layer P1 location) provided at the raised portion 111b is transmitted and illuminated, so that the reference of the display color layer P1 is instantaneously generated. The location can be recognized and discriminated.

  At this time, the light guide member 121 that emits light from the light source 122 is disposed behind the touch panel member 110, so that the display color layer P1 position by the gesture operation can be immediately discriminated by brightly transmitting illumination. The position of the input operation device 100 can be confirmed well even at night, and in particular, the difference in spacing is discriminated with a fingertip at least according to the step portion (display color layer P1) of the coating layer P. In addition, the position of the raised portion 111b, which is the reference position by the gesture operation, can be immediately determined by brightly transmitting and illuminating.

  Further, by forming each sensor row 1120a, 1120b, which is an electrode portion of the touch sensor 1120, with a material having transparency, the sensor rows 1120a, 1120b, which are electrode portions, do not become shadows, and the light source 122 Can be satisfactorily guided to the touch panel member 110 side through the light guide member 121.

  In addition, the uneven shape of the touch panel member 110 is formed by drawing processing such as pressure forming, so that the touch sensor 1120 that is easy to manufacture and has an electrode portion provided on the inner side of the touch panel member 110 is disposed. The touch sensor 1120 can be sealed and protected.

  FIGS. 12 to 14 show a second embodiment of the present invention. The input operation device 100 illuminates and displays the touch panel member 110 and the touch panel member 110 in substantially the same manner as the first embodiment described above. An illumination unit 120 and a switch mechanism 130 are provided.

  In addition, the touch panel member 110 is positioned in the same manner as in the first embodiment described above, in which the first sheet-like member 111 made of a transparent material serving as a surface cover and a detection target such as a thumb are in contact with the operation surface. The touch sensor 1120 for detecting the above is integrally provided by molding the second sheet-like member 112 made of a permeable material provided on the front surface side by drawing processing such as compressed air molding. In addition, a spacer 113 made of a transparent resin material for protection is provided behind the touch panel member 110.

  In the second embodiment, the first sheet-like member 111 that is a surface cover that constitutes a part of the touch panel member 110 provided in the input operation device 100 is formed from a transparent insulating material such as acrylic resin in a sheet form. The operation surface with the first sheet-like member 111 is formed in the same manner as in the first embodiment described above, and is a three-dimensional part 111D composed of a flat part 111a, a raised part 111b, and a recessed part 111c. It is composed of

  The flat portion 111a is a flat portion of the first sheet-like member 111 that is a surface cover, and the raised portion 111b is a portion that protrudes from the flat portion 111a in the front side direction. At this time, the operation surface is formed as a raised portion 111b made of unevenness that forms a contour portion serving as an operation index of the operation surface. As seen from the front side, as shown in FIG. 14A, it can be seen that a plurality of raised portions 111b formed in an arc shape are arranged at predetermined intervals so as to substantially surround the circle. As shown in FIG. 14B, the “front side” refers to the upper side in the figure with respect to the input operation unit 100, and the “back side” refers to the opposite side.

  For example, as shown in FIG. 13 (b), the recess 111c is located at the approximate center of the operation surface and is a recessed portion so as to sink from the flat surface portion 111a to the back side. As shown in FIG. 13 (a), It is formed inside the raised portion 111b arranged in a circular shape.

  Moreover, as shown in FIGS. 12 to 14 and the like, the coating film layer P as a design portion provided on the touch panel member 110 has, for example, a white transmissive property on the surface side of the operation surface of the first sheet-like member 111. A display color layer P1 made of an ink having a black color is applied. On the front side of the display color layer P1, a light-shielding ink containing, for example, a black metal powder is removed so as to exclude a portion corresponding to the raised portion 111b position. The ground color layer P2 is applied.

  In this case, also in the present embodiment, the coating layer P composed of the display color layer P1 and the ground color layer P2 is applied to the first sheet-like member 111 by painting in substantially the same manner as in the first embodiment described above. The ground color layer P2 applied to the surface side of the surface and located at the raised portion 111b is partially removed by means of laser processing or the like, and the display color layer P1 made of white ink appears on the surface.

  Further, on the surface side of the display color layer P1 made of white ink corresponding to the position of the raised portion 111b where the ground color layer P2 is not applied, the surface processing is raised so that the surface portion is uneven by the transparent UV ink layer P3. The indicator part M1 which becomes an area | region which discriminate | determines the difference in the touch by a fingertip by this UV ink layer P3 is provided.

  In addition, the center position of the raised portion 111b is marked at a location different from the UV ink layer P3 applied to the indicator portion M1, and at the center of the operation surface of the raised portion 111b arranged in an arc shape in this embodiment. For this purpose, a mark UV ink layer P4 is provided as a second index portion M2.

  In the second embodiment configured as described above, the UV ink layer P3 is applied to the indicator portion M1, and the mark UV ink layer P4 is applied to the second indicator portion M2. Since the surface of the operation surface is subjected to unevenness processing or unevenness processing by raising, the difference in touch is clarified by the contact operation with the fingertip, so that the intended operation can be performed accurately.

  At this time, in the second embodiment, in addition to the indicator portion M1 arranged in an arc shape provided on the peripheral side of the operation surface, the second indicator portion M2 is provided at the base point location that is the center thereof. As a result, the location as the operation reference is further clarified, and the operation of tracing with the fingertip can be performed satisfactorily.

  The UV ink layer P3 and the mark UV ink layer P4 can be made relatively thick by considering the viscosity of the ink, and can be easily solidified by ultraviolet irradiation. Manufacture is also easy.

  FIG. 15 shows an example of an embodiment of the touch panel member 110. Here, the first sheet-like member 111 which is the surface cover of the touch panel member 110 is made of a transparent insulating material such as acrylic resin. The surface of the operation surface of the first sheet-like member 111 is subjected to a process m consisting of fine irregularities in the area of the index portion M3. In this case, the processing m composed of fine irregularities is configured to be performed only at the index portion M3, and the ground color layer P2 is applied to the surface other than the index portion M3.

  By comprising in this way, surface processing can be easily formed by performing the process m which consists of fine unevenness simultaneously with shaping | molding on the operation surface itself which is the surface of the 1st sheet-like member 111. At the same time, the location of the index portion M3 can be well determined by the feel of unevenness on the surface side of the first sheet-like member 111, and input of the touch panel member 110 can be favorably performed by a contact operation.

  FIG. 16 shows a modified example of the touch panel member 110 in the second embodiment. Here, the coating layer P composed of the display color layer P1 and the ground color layer P2 is operated on the first sheet-like member 111. The ground color layer P2 provided on the surface side of the surface and located at the raised portion 111b is partially removed by means such as laser processing, and the display color layer P1 of white ink appears on the surface.

  Further, on the surface side of the display color layer P1 made of white ink corresponding to the position of the raised portion 111b where the ground color layer P2 is not applied, the surface processing is raised so that the surface portion is uneven by the transparent UV ink layer P3. The indicator part M1 which becomes an area | region which discriminate | determines the difference in the touch by a fingertip by this UV ink layer P3 is provided.

  Further, on the surface side of the operation surface of the first sheet-like member 111, a surface coat C made of a transparent resin film is applied to a region excluding the transparent UV ink layer P3.

  By comprising in this way, while the area | region of the parameter | index part M1 can be identified by the touch of the operation surface of the touch panel member 110, on the surface of the 1st sheet-like member 111 by the surface coat C which consists of resin films The applied coating layer P can be protected.

  The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the gist of the present invention. For example, in the embodiment described above, in the index portion M in the first embodiment, the coating film formed of the display color layer P1 and the ground color layer P2 on the surface side of the operation surface of the first sheet-like member 111. The layers P are formed by means such as painting, but may be formed on the surface of the first sheet-like member 111 by means such as printing, and the front and back surfaces of the first sheet-like member 111. However, the display form of the index portion M is also formed in an arc shape, but is not limited to the arc shape and may have an arbitrary form and width. May be formed.

  Further, in the above-described embodiment, the white ink is used to transmit and illuminate the indicator portion M (display color layer P2) portion of the touch panel member 110. Therefore, it is sufficient to use the ink of the display color layer P1 that does not transmit light.

  Further, in the embodiment described above as the shape of the raised portion 111b, the four raised portions 111b each having an arc shape are combined to form a circle. However, the shape of a fan shape or the like, or a fine round raised portion 111b is formed. It may be formed so as to be continuously provided, and the shape can be arbitrarily set.

  In the present embodiment, the second sheet-like member 112 has a projected capacitance having a plurality of sensors 1120 (detection electrodes made of transparent conductive ink) for detecting the position of a detection target such as a finger. Although the method is adopted, a surface capacitance method or a resistance film method may be used. Even in this case, the second sheet panel member 112 may be formed integrally with the first sheet-like member 111 having an operation surface.

  In the present embodiment, the single input device 100 is provided at the right end of the steering 10. However, the present invention is not limited to this. For example, the input device 100 is provided at the left end of the steering 10, and the left hand The input device 100 may be arranged so that it can be operated with other fingers without being limited to the thumb shift.

  In the above-described embodiment, a vehicle such as an automobile has been described as an example of a vehicle on which the input device 100 is mounted. However, the present invention is not limited to this and can be mounted on a ship or an agricultural machine. It is.

DESCRIPTION OF SYMBOLS 1 ... Vehicle 10 ... Steering 11 ... Main-body part 12 ... Steering wheel 1000 ... Control apparatus 100 ... Input operation apparatus 110 ... Touch panel member
111 ... 1st sheet-like member (surface cover)
111a ... plane part
111b ... bump
111c ... depression
111D ... Solid shape part
112 ... Second sheet-like member
1120 ... Touch sensor
1120a ... 1st sensor row
1120b ... second sensor array
113 ... Spacer 120 ... Lighting part
121 ... Light guide member
122 ... Light source (LED)
123 ... Flexible printed circuit board
124 ... Reflection sheet
125 ... diffusion sheet 130 ... switch mechanism
131 ... Circuit board
132 ... push button switch 140 ... lower holder

150 ... Upper holder

160 ... Lower case

200 ... control unit

300 ... storage unit

20: In-vehicle electronic equipment

21 ... Display section

21a ... Initial screen

21b ... Volume operation screen

21c ... Audio operation screen

21d ... Sound source selection screen

M, M1, M2, M3, M4 ... indicator section

m, m2 ... Machining

P ... Coating layer

P1 ... Display color layer

P2 ... Ground color layer

P3 ... UV ink layer

P4 ... UV ink layer for mark

OP10: Gesture operation along the ridge

OP20: Gesture operation over the ridge from outside to inside

OP30: Gesture operation over the ridge from inside to outside

Claims (6)

A first sheet-like member having an operation surface that comes into contact with a detection object that performs an input operation, and a plurality of touch sensors for detecting a position where the detection object comes into contact with the operation surface are provided on the front surface side. A second sheet-like member, and a touch panel member integrated and laminated with the first sheet-like member on the front side of the second sheet-like member, and the surface side of the operation surface is in contact with A touch panel input operation device, characterized in that an indicator portion having a different feel is provided.   The said indicator part consists of a coating-film layer by printing or painting, The kind of the coating-film layer or the thickness of a coating-film layer is provided so that it may differ from area | regions other than the said indicator part. The touch panel input operation device described.   The touch panel input operation device according to claim 1, wherein the index portion is subjected to uneven processing by a UV ink layer.   The touch panel input operation device according to claim 1, wherein the surface of the operation surface is formed with fine irregularities in the area of the index portion.   The operation surface of the touch panel member is provided with a three-dimensional shape portion that includes either a raised portion, a hollow portion, or both capable of recognizing the position of the touch sensor, and at least a part of the three-dimensional shape portion includes the The touch panel input operation device according to claim 1, further comprising an index unit. 6. The touch panel input operation device according to claim 1, wherein a predetermined area on the operation surface is provided with a surface coat made of a transparent resin film.

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