WO2024048329A1 - Display device and user interface - Google Patents

Abstract

A display device (3) is provided with an image display unit (13) for displaying an image on a panel (7). The panel (7) has, on a front surface and/or a back surface, a relief portion (36) on which a plurality of recesses and protrusions are formed. The relief portion (36) has a first relief portion (39) on which the image is displayed by light from the image display unit (13), and a second relief portion (40) on which the image is not displayed by the image display unit (13). The first relief portion (39) and the second relief portion (40) are provided in shapes having different light diffusion degrees.

Description

Display device and user interface

The present disclosure relates to a display device including a display and a user interface.

Conventionally, as disclosed in Patent Document 1, a panel device that projects an image on a display section from the back of the panel section and displays it on the panel section is well known. The panel section includes, for example, a light-transmitting resin panel onto which an image is projected, and a light shielding layer having a window frame that guides the image of the display section to the resin panel. For example, liquid crystal is used as the display section.

JP2022-28358A

By the way, when displaying an image on the display section on the panel section, the image (specifically, the outline of the image) may be displayed blurred. This is likely to occur when the display section is placed a predetermined distance away from the panel section. If the display section could be placed as close as possible to the panel section, image blurring would be reduced, but due to design considerations, it is sometimes not possible to place the display section as close to the panel section, so some kind of countermeasure was needed.

A display device according to one embodiment includes an image display section on the back surface of a panel, the panel having a concavo-convex portion on at least one of the front surface and the back surface, in which a plurality of concavo-convex portions are formed, and the concave-convex portion is , a first uneven part on which an image is displayed by light from the image display section, and a second uneven part that is not a target of image display by the image display section, the first uneven part and the second uneven part. The uneven portions are provided in shapes with different degrees of light diffusion.

A user interface according to one aspect has a configuration in which an image on an image display section is displayed on a panel, and when a user operation on the panel is detected, the display of the image on the image display section is switched, and the panel has a plurality of It has a concavo-convex portion on at least one of the front and back surfaces, and the concave-convex portion includes a first concavo-convex portion on which the image is displayed by light from the image display unit, and an image display by the image display unit. and second uneven portions that are not subject to the above, and the first uneven portion and the second uneven portion are provided in shapes with different degrees of light diffusion.

According to one aspect of the present disclosure, it is possible to improve the visibility of an image on a display when it is displayed on a panel.

FIG. 2 is a perspective view of a driver's seat in one embodiment. FIG. 3 is a front view of the user interface. 6 is a cross-sectional view (partially broken) taken along the line III-III shown in FIG. 5. FIG. 6 is a cross-sectional view (partially broken) taken along the line IV-IV shown in FIG. 5. FIG. FIG. 3 is a schematic diagram showing the uneven shape of the panel surface. FIG. 3 is an electrical configuration diagram of a user interface.

An embodiment of the present disclosure will be described below. In addition, in each figure explaining an embodiment, a part of structure is exaggerated or simplified for convenience of explanation. Furthermore, the dimensional ratio of each part may also differ from the actual size.

(Overview of user interface 1)
As shown in FIG. 1, a vehicle 2 is provided with a user interface 1 for operating equipment (vehicle equipment). In the case of this example, the user interface 1 has, for example, an operation detection function that detects a user operation on the user interface 1, and a display function (display device 3) that performs various displays on the user interface 1. The device to be operated by the user interface 1 is, for example, an air conditioner device that air-conditions the interior of a vehicle.

As shown in FIG. 2, the display function includes, for example, an image display function that converts a signal output from a device such as a computer into an image 5 and displays the image 5 on the display 6. The display 6 is arranged, for example, near the center of a panel 7 that is the design surface of the user interface 1. If the device is a car-mounted air conditioner device, the image 5 displays, for example, the temperature, air volume, air blowing mode, etc. under the settings.

The display function includes, for example, a pattern lighting display function that lights and displays display objects 8 in a predetermined pattern determined in advance. The display object 8 represents, for example, something related to the operation function of the user's operation on the panel 7. The display object 8 is, for example, a symbol 8a representing a picture or an indicator 8b representing on/off of a function.

If the device is an in-vehicle air conditioner device, the symbol 8a is, for example, an operation icon provided corresponding to the function of the air conditioner device. For example, the symbol 8a may be visible when the lights of the vehicle 2 are off due to surrounding environmental light, and may be turned on by a pattern lighting display function when the lights of the vehicle 2 are on. The indicator 8b is provided to form a pair with the symbol 8a, for example, and lights up when the symbol 8a forming the pair is selected.

The operation detection function includes, for example, a function executed by the operation unit 10 provided on the panel 7 as an input interface of the device. The operation unit 10 is, for example, a mechanical switch. The operation unit 10 is used to operate the display 6. For example, one operation unit 10 is provided for each image 5 of the image display function. The operation unit 10 is, for example, a toggle switch, a push button switch, a seesaw switch, a slide switch, a rotary switch, or the like.

The operation detection function includes, for example, a function executed by the touch switch 11 that detects a touch operation on the panel 7 used as an input interface of the device. The touch switch 11 is provided, for example, to detect a touch operation on a symbol 8a provided on the user interface 1. The touch switch 11 uses, for example, a capacitance sensor that detects a touch operation based on a change in capacitance using an electrode.

(Outline of image display function of display device 3)
As shown in FIG. 3, the panel 7 is configured to transmit light in order to display the image 5 on the display 6. For example, polycarbonate or acrylic is used as the material for the panel 7. The panel 7 is preferably a member containing smoke (a light attenuating member), for example. The panel 7 may be, for example, flat or curved.

The display 6 includes an image display section 13 that displays the image 5 on the panel 7. The display section 13 includes, for example, a back film 15, a light shielding layer 16, and an opening frame 17.
The back film 15 is attached to the back surface of the panel 7, for example. As the back film 15, for example, a transparent film is used.

The light shielding layer 16 is provided on the back surface of the back film 15, for example. The light shielding layer 16 is formed by, for example, black printing. The light shielding layer 16 is made of a material that does not allow light from the display section 13 to pass through the panel 7. The light shielding layer 16 is formed, for example, by a manufacturing method such as coating laser, screen printing, inkjet printing, or pad printing.

The image display section 13 includes, for example, a light source 19, a liquid crystal section 20, and a diffusion sheet 21. The light source 19 is, for example, an LED (Light Emitting Diode). For example, it is preferable that a plurality of light sources 19 be mounted on the substrate 22 and provided in plurality. The liquid crystal unit 20 is, for example, a liquid crystal display (LCD) that forms the image 5. The diffusion sheet 21 is attached to the back surface of the liquid crystal section 20, for example. The diffusion sheet 21 is made of, for example, a white sheet that can transmit light. The light from the light source 19 is diffused by the diffusion sheet 21 and irradiated onto the liquid crystal section 20 .

The opening frame 17 is formed, for example, by omitting a portion of the light shielding layer 16 that faces the light source 19. The opening frame 17 is provided, for example, to draw out the light from the image display section 13 (the image 5 on the liquid crystal section 20) to the panel 7. The opening frame 17 can be seen through the surface of the panel 7 depending on how it is exposed to external light such as sunlight. The opening frame 17 is, for example, formed in a rectangular shape.

The image display section 13 displays the image 5 on the panel 7 by projecting the image 5 of the liquid crystal section 20 onto the panel 7 from the back side of the panel 7 through the opening frame 17. Specifically, when the light source 19 is turned on, the light beam L1 that has passed through the diffusion sheet 21 and the liquid crystal section 20 is drawn out from the opening frame 17 through the back film 15 and the panel 7, so that the image 5 is displayed on the panel 7. is displayed. In this way, the image display unit 13 displays the image 5 on the panel 7 by projecting the image 5 from the back side of the panel 7.

(Outline of pattern lighting display function of display device 3)
As shown in FIG. 4, the display device 3 includes a pattern lighting display section 25 that lights up the display object 8 (in this example, the symbol 8a and the indicator 8b). The pattern lighting display unit 25 illuminates and displays the display object 8 by, for example, irradiating light from the back side of the panel 7 into a light-transmissible hole 26 shaped like the display object 8 . The display object 8 is provided on the panel 7, for example, for each operation function of a touch operation on the panel 7. In this example, the pattern lighting display section 25 includes one for displaying the symbol 8a and one for displaying the indicator 8b.

The pattern lighting display section 25 includes, for example, a light source 28 and a lens 29 in addition to the hole 26 described above. The light source 28 is, for example, an LED. The light source 28 is mounted on the substrate 22, for example. It is preferable that one light source 28 be provided for each display object 8, for example. Lens 29 is provided to increase the brightness of light source 28. The hole 26 is formed, for example, by omitting a portion of the light shielding layer 16 that faces the light source 28 .

The pattern lighting display section 25 includes, for example, a light attenuation layer 32 and a diffusion sheet 33. The light attenuation layer 32 is provided on the back surface of the light shielding layer 16. The light attenuation layer 32 is, for example, a layer that ensures the black appearance of the panel 7, and is a so-called smoke layer. The light attenuating layer 32 is disposed over the entire back surface of the light shielding layer 16 and is formed in a shape that fills the hole 26 .

The detection layer 11a of the touch switch 11 is arranged, for example, between the light attenuation layer 32 and the diffusion sheet 33. The detection layer 11a is, for example, an electrode sheet (sensor sheet) of a capacitance sensor. Note that the touch switch 11 may be any sensor of a resistive film type, a surface capacitance type, a projected capacitance type, an ultrasonic surface acoustic wave type, an optical type, or an electromagnetic induction type, for example. The detection layer 11a detects a touch operation on the panel 7 aiming at the symbol 8a. The detection layer 11a is transparent (transparent electrode) so that light from the light source 28 can be extracted to the panel 7.

The diffusion sheet 33 is attached to the back surface of the touch switch 11 (detection layer 11a). The diffusion sheet 33 is made of, for example, a white sheet that can transmit light.
The hole 26 is formed in the shape of the display object 8 in the light shielding layer 16, for example. The light source 28 illuminates and displays the display object 8 on the panel 7 according to the shape of the hole 26 by irradiating the hole 26 with light from the back side of the panel 7 . That is, when the light source 28 is turned on, the light ray L2 that has passed through the lens 29, the diffusion sheet 33, the detection layer 11a, and the light attenuation layer 32 is drawn out from the hole 26 through the back film 15 and the panel 7. The display object 8 (symbol 8a, indicator 8b) is displayed by lighting. Note that when the display object 8 is the indicator 8b, the pattern lighting display section 25 may omit the detection layer 11a and the diffusion sheet 33.

(Uneven shape of panel 7)
As shown in FIGS. 3 and 4, the panel 7 has a concavo-convex portion 36 in which a plurality of concavities and convexities are formed on at least one of the front surface and the back surface. In this example, the uneven portion 36 is provided on the surface of the panel 7 for decoration. The uneven portion 36 includes a plurality of convex portions 37 arranged in a plane direction of the panel 7 and a plurality of concave portions 38 arranged between adjacent convex portions 37 . When the uneven portions 36 are formed on the surface of the panel 7, they are also provided to improve the texture and appearance of the panel 7.

The convex portions 37 (concave portions 38) extend linearly in the plane direction of the panel 7. In this example, the convex portion 37 (concave portion 38) is formed in a shape extending in the width direction of the panel 7 (Y-axis direction in FIG. 3, etc.). By forming the uneven portions 36 in a line-like manner in this way, the surface of the panel 7 is given a metallic appearance.

Examples of methods for manufacturing the uneven portion 36 include die molding, printing molding, film insert molding, and the like. In the case of die molding, the panel 7 is processed into an uneven shape by the unevenness of the die. In the case of printing molding, ink from a film on a roll is transferred onto the panel 7 using a mold, thereby forming irregularities on the panel 7. In the case of film insert molding, a flat film is provided with irregularities and then transferred onto the panel 7.

The uneven portion 36 includes a first uneven portion 39 on which the image 5 is displayed by light from the image display portion 13, and a second uneven portion 40 that is not the object of image display by the image display portion 13. The first uneven portion 39 is formed in the display area of the display 6 on the panel 7 (see FIG. 3). The second uneven portion 40 is formed in an area other than the display area of the display 6 on the panel 7 (see FIGS. 3 and 4).

The first uneven portion 39 and the second uneven portion 40 are formed in shapes with different degrees of light diffusion. In the case of this example, the first uneven portion 39 is provided so that light diffusion is smaller than that of the second uneven portion 40 in order to make it easier to see the image 5 projected by the image display unit 13. Diffusion of light refers to the change in the irradiation path of light when it collides with an object. The light diffusion angle is determined based on, for example, the angle of the convex slope of the convex portion 37.

If the distance between the vertices of adjacent convex portions 37 in the first uneven portion 39 is “W1”, and the distance between the vertices of adjacent convex portions 37 in the second uneven portion 40 is “W2”, “W1>W2” ” relationship. In this case, the slope 37a of the convex portion 37 of the first uneven portion 39 has a shape with a gentle inclination angle. Therefore, the light diffusion of the first uneven portion 39 is set to be small. On the other hand, the slope 40a of the convex portion 37 of the second uneven portion 40 has a steep slope angle. Therefore, the light diffusion of the second uneven portion 40 is set to be large. In this way, the first uneven portion 39 is provided so that light is diffused less than the second uneven portion 40 in order to make it easier to see the image 5 projected by the image display unit 13. In addition, in the case of this example, the apex heights of the convex portions 37 are the same.

The method of changing the degree of light diffusion of the first uneven portion 39 and the second uneven portion 40 is not limited to changing the interval between the vertices of the protruding portions 37, but may be any of the following methods (i) to (iv). Either one or a combination of two or more of them may be used. Note that in (i) to (iv), the vertex intervals may be the same or non-identical.
(i) A method of changing the depth of the concave portion 38 (ii) A method of changing the height of the convex portion 37 (iii) A method of changing the cross-sectional shape of the concave portion 38 (iv) A method of changing the shape of the convex portion 37 FIGS. 3 and 4 As shown in , the second uneven portion 40 is a boundary between the display area uneven portion 41 where the display object 8 is lit and displayed by the light of the pattern lighting display portion 25, and the first uneven portion 39 and the display area uneven portion 41. It has a boundary uneven portion 42 arranged at. The display area uneven portion 41 is formed in the display area of the pattern lighting display section 25 on the panel 7 . The boundary uneven portion 42 is arranged, for example, in a ring shape so as to surround the first uneven portion 39 from the periphery.

If the distance between the vertices of adjacent convex portions 37 in the display area uneven portion 41 is “W2a”, and the distance between the vertices of adjacent convex portions 37 in the boundary uneven portion 42 is “W2b”, then “W1>W2b> W2a'' relationship. In this way, the degree of light diffusion of the boundary uneven portion 42 is made larger than the degree of light diffusion of the first uneven portion 39 and smaller than the degree of light diffusion of the display area uneven portion 41. It is set in.

The boundary uneven portion 42 is formed in such a shape that the interval between the vertices of adjacent protrusions 37 gradually becomes smaller as it goes from the first uneven portion 39 toward the display area uneven portion 41. That is, the boundary uneven portion 42 is formed into an uneven shape in which the degree of light diffusion increases stepwise.

As shown in FIG. 5, the uneven portion 36 is formed in a shape in which a protrusion 37 (recess 38) extends in the width direction of the panel 7 (Y-axis direction in FIG. 5). In this example, the combination of lines of the convex portions 37 (concave portions 38) is the concavo-convex portion 36. As can be seen from FIG. 5, the first uneven portion 39 is arranged in the display area of the display 6, and the display area uneven portion 41 of the second uneven portion 40 is arranged in the display area of the pattern lighting display section 25.

(Electrical configuration of user interface 1)
As shown in FIG. 6, the user interface 1 includes a control device 45 that controls the operation of the user interface 1. In this example, the control device 45 also controls the display device 3, for example. The control device 45 includes, for example, an MPU (Micro Processor Unit) and an ECU (Electronic Control Unit). The control device 45 has an input connected to the operation section 10 and a touch switch 11, and an output connected to a liquid crystal section 20 and light sources 19 and 28.

For example, the control device 45 displays the image 5 on the display 6 when the vehicle power is turned on. The control device 45 controls the display on the display 6 based on the detection signal input from the operation unit 10. Specifically, when the operation unit 10 is operated, the control device 45 switches the image 5 on the liquid crystal unit 20 to a display corresponding to the operation. For example, when an operation to increase the air blowing temperature by one level is performed, the temperature display in image 5 on the liquid crystal section 20 is switched to a value that is increased by one level. In this way, the display of the image 5 on the display 6 is switched according to the operation of the operation unit 10. Further, when the operation unit 10 is operated, the control device 45 outputs a control command corresponding to the operation to other ECUs.

For example, when the vehicle lights are turned on, the control device 45 turns on the light source 28 for the symbol 8a. As a result, the symbol 8a is lit and displayed on the panel 7.
When the touch switch 11 detects that the symbol 8a has been touched, the control device 45 lights up the indicator 8b that is paired with the touched symbol 8a. Specifically, for example, when the symbol 8a for "inside air circulation" is touched, the indicator 8b paired with the symbol 8a is turned on. This notifies the user that the "inside air circulation" function is on. Further, when the symbol 8a is touched, the control device 45 outputs a control command to the ECU of the device corresponding to the touched symbol 8a.

(Action of embodiment)
Next, the operation of the display device 3 of this embodiment will be explained.
As shown in FIG. 3, when the display 6 is driven, the image 5 of the liquid crystal section 20 with the light source 19 as a backlight is projected onto the panel 7 from the back, so that the image 5 of the liquid crystal section 20 is displayed on the panel 7. be done. That is, the light beam L1 from the light source 19 passes through the liquid crystal section 20 and reaches the panel 7, so that the image 5 on the liquid crystal section 20 is projected onto the panel 7. In this example, the image 5 on the liquid crystal section 20 is displayed on the first uneven portion 39 of the panel 7.

By the way, the liquid crystal section 20 needs to be placed a predetermined distance from the panel 7 (including the back film 15 and the light shielding layer 16 in this example) for example as a countermeasure against static electricity. For this reason, when the image 5 of the liquid crystal section 20 is projected onto the panel 7, the outline of the image 5 may be displayed blurred depending on the distance from the panel 7. Therefore, there was a possibility that the image 5 on the liquid crystal section 20 would become difficult to see.

On the other hand, in the case of this example, the first uneven portion 39 is formed in a shape that reduces light diffusion. Therefore, when the image 5 of the liquid crystal section 20 is projected onto the panel 7, the light of the image 5 is difficult to diffuse, so that the outline of the image 5 can be clearly projected. As a result, an image 5 with a clearly visible outline is displayed on the first uneven portion 39. Therefore, it is possible to improve the visibility of the image 5 on the liquid crystal section 20.

By the way, since the first uneven portion 39 is formed in a shape with few unevenness, it has a metallic texture that reflects a lot of environmental light such as sunlight. On the other hand, since the display area uneven portion 41 is formed in a shape with many unevenness, the display area has a good appearance with less reflection of environmental light such as sunlight. Therefore, in order to improve the texture of the panel 7, it is necessary to make the boundary between the first uneven portion 39 and the display area uneven portion 41 inconspicuous.

Therefore, in the case of this example, a boundary uneven part 42 is provided around the first uneven part 39, which has a larger light diffusion than the first uneven part 39 but a smaller light diffusion than the display area uneven part 41. It is formed. That is, at the boundary between the display area of the display 6 and the display area of the symbol 8a, a boundary uneven portion 42 having an intermediate light diffusing property with respect to these display areas is formed. The boundary uneven portion 42 of this example is formed, for example, in a shape in which the degree of light diffusion gradually increases from the first uneven portion 39 toward the display area uneven portion 41.

Therefore, for example, when the panel 7 is viewed from the outside with the light source 19 turned off, it is possible to change the degree of reflection of environmental light such as sunlight in stages. That is, since the surface of the panel 7 can be gradated, the surface of the panel 7 can appear seamlessly. In this way, uniformity in visibility of the area boundaries is ensured when the light source 19 is turned off.

(Effects of embodiment)
According to the display device 3 (user interface 1) of the above embodiment, the following effects can be obtained.

(1) The display device 3 includes a display 6 that displays an image 5 on a panel 7. The panel 7 has a concavo-convex portion 36 in which a plurality of concavities and convexities are formed on at least one of the front surface and the back surface. The uneven portion 36 includes a first uneven portion 39 on which the image 5 is displayed by light from the image display portion 13, and a second uneven portion 40 that is not an object of image display by the image display portion 13. The first uneven portion 39 and the second uneven portion 40 are provided in shapes with different degrees of light diffusion.

According to this configuration, the first uneven portion 39 serving as the display area of the display 6 and the second uneven portion 40 that is not the display area of the display 6 are formed into uneven shapes with different degrees of light diffusion. In this way, the light diffusion of the first uneven portion 39 can be optimized, so when the image 5 on the image display section 13 is displayed on the first uneven portion 39 of the panel 7, the image 5 with a clear outline can be displayed on the panel 7. can be displayed on. Therefore, the visibility of the image 5 on the image display section 13 when it is displayed on the panel 7 can be improved.

(2) The uneven portion 36 is provided on the surface of the panel 7 for decoration. According to this configuration, even if the surface of the panel 7 has an uneven shape to improve the texture of the panel 7, the image 5 on the image display section 13 can be clearly displayed on the panel 7.

(3) The first uneven portion 39 is provided so that light is diffused less than the second uneven portion 40 in order to make it easier to see the image 5 displayed on the first uneven portion 39. According to this configuration, it becomes difficult for light to diffuse in the first uneven portion 39, so that an image 5 with a clear outline can be displayed on the panel 7.

(4) The display device 3 includes an operation unit 10 provided on the panel 7 as an input interface for the device. The display of the image 5 on the display 6 is switched according to the operation of the operation unit 10. According to this configuration, the image 5 on the image display section 13 can be clearly displayed on the display 6 whose display is switched by the operation section 10.

(5) The display device 3 includes a display object 8 related to the operation function of the user's operation on the panel 7. According to this configuration, the operation function of the user operation can be immediately recognized by the display object 8.
(6) The display device 3 includes a pattern lighting display unit 25 that displays the display object 8 on the panel 7 by lighting it. The pattern lighting display unit 25 illuminates and displays the display object 8 using the light transmitted through the hole 26 by irradiating light from the back side of the panel 7 to a light-transmissible hole 26 shaped like the display object 8 . The pattern lighting display section 25 displays the display object 8 on the second uneven section 40 . According to this configuration, the display object 8 can be brightly illuminated by the pattern lighting display section 25, so that the visibility of the display object 8 can be improved, for example, at night.

(7) The second uneven portion 40 is located at the boundary between the display area uneven portion 41 where the display object 8 is lit and displayed by the light of the pattern lighting display portion 25, the first uneven portion 39, and the display area uneven portion 41. The boundary uneven portion 42 is arranged. The degree of light diffusion of the boundary uneven portion 42 is set to be greater than the degree of light diffusion of the first uneven portion 39 and smaller than the degree of light diffusion of the display area uneven portion 41. . According to this configuration, the boundary between the first uneven portion 39 and the display area uneven portion 41 can be made inconspicuous by the boundary uneven portion 42. Therefore, even if the degree of light diffusion is changed by changing the uneven shape of the panel 7, a seamless feeling can be created at the boundary between the uneven shapes.

(8) The boundary unevenness portion 42 is formed into an uneven shape in which the degree of light diffusion increases stepwise. According to this configuration, it becomes possible to gradually approach the appearance of the boundary between the first uneven portion 39 and the display area uneven portion 41 by the boundary uneven portion 42. Therefore, the boundary between the first uneven portion 39 and the display area uneven portion 41 further contributes to creating a seamless appearance.

(9) The display device 3 includes a touch switch 11 that detects a touch operation on the panel 7 used as an input interface of the device, and a display object 8 provided on the panel 7 for each operation function of the touch operation on the panel 7. and. According to this configuration, the operating function of the touch switch 11 can be easily recognized by the display object 8.

(Other embodiments)
Note that this embodiment can be implemented with the following modifications. This embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.

- The detection layer 11a of the capacitive sensor (touch sensor 11) is not limited to being provided individually for each display object 8, but may be one layer arranged over a plurality of display objects 8.
- The uneven shapes of the first uneven portions 39 are not limited to the same shape, but may be a combination of different uneven shapes. Note that the same can be said of the second uneven portion 40 as well.

- The convex portion 37 is not limited to a triangular cross-section, but may have an arcuate tip or a trapezoidal cross-section, for example.
- "W1", which is the distance between the vertices of the convex portions 37 in the first concavo-convex portion 39, is not limited to all being the same, and at least one may be formed to be different from the others. The same applies to "W2a", which is the distance between the vertices of the convex portions 37 in the display area concavo-convex portion 41.

- In the boundary uneven portion 42, “W2b”, which is the distance between the vertices of the convex portions 37, may be all the same.
- The boundary uneven portion 42 is not limited to being formed all around the display 6, and may be provided only along a predetermined side among the four sides of the display 6, for example.

- The direction of the line of the uneven portion 36 is not limited to the width direction of the panel 7, and may be, for example, the vertical direction or the diagonal direction of the panel 7.
- The uneven portion 36 is not limited to a line shape, and other shapes such as a grain may be used.

- The display object 8 may be either the symbol 8a or the indicator 8b. Further, the display object 8 may be, for example, a mark, a symbol, a number, a picture, or the like.
- The lighting display function of the display object 8 may be omitted from the display device 3. That is, the display object 8 may be made visible only by surrounding environmental light. In this way, the pattern lighting display section 25 may be omitted from the display device 3.

- In the display device 3, the display object 8 may be omitted.
- The boundary uneven portion 42 may be omitted in the panel 7. That is, the second uneven portion 40 may have a configuration including only the display area uneven portion 41.

- The uneven portion 36 may be provided on both the front surface and the back surface of the panel 7, or may be provided only on the back surface of the panel 7.
- The operation unit 10 is not limited to a mechanical switch, and may be a sensor (for example, a touch sensor).

- The display device 3 is not limited to in-vehicle use, and may be used in other devices or systems.
- The expression "at least one" as used in this disclosure means "one or more" of the desired options. As an example, the expression "at least one" as used in this disclosure means "only one option" or "both of the two options" if the number of options is two. As another example, the expression "at least one" as used in this disclosure means "only one option" or "any combination of two or more options" if the number of options is three or more. do.

- The control device 45 may be configured by [1] one or more processors that operate according to a computer program (software), or [2] execute at least some of various processes with such a processor. It may also be configured in combination with one or more dedicated hardware circuits, such as an application specific integrated circuit (ASIC). A processor includes a CPU and memory such as RAM and ROM, and the memory stores program codes or instructions configured to cause the CPU to perform processing. Memory (computer-readable media) includes any available media that can be accessed by a general purpose or special purpose computer. Alternatively, instead of the computer including the processor described above, a processing circuit composed of one or more dedicated hardware circuits that executes all of the various processes may be used.

- Although the present disclosure has been described based on examples, it is understood that the present disclosure is not limited to the examples or structures. The present disclosure also includes various modifications and equivalent modifications. In addition, various combinations and configurations, as well as other combinations and configurations that include only one, more, or fewer elements, are within the scope and scope of the present disclosure.

Next, technical ideas that can be understood from the above embodiment and modified examples will be described.
(A) In the display device, the display displays the image on the panel by projecting the image onto the panel that can transmit light.

(B) The display device includes a touch switch that detects a touch operation on a panel used as an input interface of a device, and a display object provided on the panel for each operation function of the touch operation on the panel. .

Claims (9)

1. A display device comprising an image display section on the back side of a panel,
   The panel has a concavo-convex portion on at least one of a front surface and a back surface, in which a plurality of concavo-convex portions are formed,
   The uneven portion includes a first uneven portion on which an image is displayed by light from the image display portion, and a second uneven portion that is not a target of image display by the image display portion,
   In the display device, the first uneven portion and the second uneven portion are provided in shapes with different degrees of light diffusion.
2. The display device according to claim 1, wherein the uneven portion is provided on a surface of the panel for decoration of the panel.
3. 2. The first uneven portion is provided so that light is diffused less than the second uneven portion in order to make the image displayed on the first uneven portion easier to see. Display device.
4. An operation unit provided on the panel as an input interface of the device,
   The display device according to claim 1, wherein the image display section switches the display of the image according to an operation of the operation section.
5. The display device according to claim 1, further comprising a display object related to an operation function of a user's operation on the panel.
6. a pattern lighting display section that illuminates and displays the display object with the light that passes through the hole by irradiating light from the back side of the panel to a light-transmissible hole shaped like the display object;
   The display device according to claim 5, wherein the pattern lighting display section displays the display object on the second uneven section.
7. The second uneven portion is
   a display area uneven portion in which the display object is lit and displayed by the light of the pattern lighting display portion;
   a boundary uneven portion disposed at a boundary between the first uneven portion and the display area uneven portion;
   The degree of light diffusion of the boundary uneven portion is set to be greater than the degree of light diffusion of the first uneven portion and smaller than the degree of light diffusion of the display area uneven portion. The display device according to claim 6.
8. 8. The display device according to claim 7, wherein the boundary uneven portion is formed in an uneven shape in which the degree of light diffusion increases stepwise.
9. A user interface that displays an image on an image display section on a panel and switches the display of the image on the image display section when a user operation on the panel is detected,
   The panel has a concavo-convex portion on at least one of a front surface and a back surface, in which a plurality of concavo-convex portions are formed,
   The uneven portion includes a first uneven portion on which the image is displayed by light from the image display portion, and a second uneven portion that is not a target of image display by the image display portion,
   In the user interface, the first uneven portion and the second uneven portion are provided in shapes with different degrees of light diffusion.

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