JP6844162B2 - Display device - Google Patents

Description

The present invention relates to a display device.

As a conventional display device, for example, there is a vehicle instrument disclosed in Patent Document 1 below. The vehicle instrument disclosed in Patent Document 1 includes a display board having a design such as a scale and numerical values, and a light source for illuminating the display board. The vehicle instrument disclosed in Patent Document 1 is provided with a light-shielding portion so that the light from the light source does not directly illuminate the display board, and the first reflected light reflected by the third reflecting surface provided so as to surround the light-shielding portion. Then, illuminate the part that is the shadow of the light-shielding part. The light-shielding portion includes a first reflecting surface and reflects the light from the light source toward the outside. The light reflected by the first reflecting surface is reflected by the second reflecting surface provided apart from the first reflecting surface. Then, the display board is illuminated by the light reflected by the second reflecting surface. As a result, the vehicle instrument disclosed in Patent Document 1 reduces the uneven illumination of the display board.

Japanese Unexamined Patent Publication No. 2011-0997765

The vehicle instrument described in Patent Document 1 needs to form a plurality of reflecting surfaces. In order to reduce the number of reflecting surfaces, it is conceivable to use the circuit board constituting the device as one of the reflecting surfaces.

However, circuit boards are often coated with a green solder resist. Therefore, the color tone of the light reflected on the surface of the circuit board shifts to green. Therefore, when the surface of the circuit board is used as the reflective surface, the color of the display board illuminated by the light shifted to green under the influence of the color of the circuit board becomes a color different from the intended color of the display board. There is a problem that it ends up.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a display device capable of displaying the color of a display board in an intended color.

To achieve the above object, a display device according to the present onset Ming,
With the board
A light source provided on the substrate and emitting light,
A display board including a first design portion located on the outer peripheral side and a second design portion located on the inner peripheral side of the first design portion.
It is provided with a light-shielding portion that is located opposite to the light source and blocks a part of the light to the display board.
First and second holes penetrating the light-shielding portion are formed in the light-shielding portion.
The first hole is formed so as to pass at least a part of the light emitted from the light source toward the reflecting surface formed inside the outer peripheral wall of the own device.
The reflecting surface reflects the light that has passed through the first hole toward the first design portion .
The second hole is formed so as to be emitted from the light source, reflected by the back surface of the light-shielding portion, and then passed through the light reflected by the substrate toward the second design portion.
The second hole is formed in an arc shape having a first curvature centered on the light source when viewed from the thickness direction of the substrate.
The first hole is formed in an arc shape having a second curvature smaller than the first curvature centered on the light source when viewed from the thickness direction of the substrate.
It is characterized by that.

According to the present invention, the color of the display board can be displayed in the intended color.

It is a front view which concerns on one Embodiment of the display device of this invention. It is schematic cross-sectional view which concerns on one Embodiment of the display device of this invention. It is a top view which shows by removing the display board which concerns on one Embodiment of the display device of this invention. It is explanatory drawing of the light-shielding part which concerns on one Embodiment of the display device of this invention. It is explanatory drawing of the light-shielding part which concerns on one Embodiment of the display device of this invention. It is a figure for demonstrating until the light from the light source for graduation / character part illumination reaches a display board.

The display device according to the embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5. As shown in FIG. 1, the display device 1 is an instrument for a vehicle such as an automobile or a two-wheeled vehicle that notifies various information about the vehicle to be mounted. In this example, the display device 1 is composed of a pointer type speedometer. Briefly, the display device 1 transmits the vehicle speed to the viewer by the rotation position of the pointer 20 with respect to the scale portion 11a of the display board 10. Further, the display device 1 can light the design 11 of the display board 10. In the following description, the front side when the viewer looks at the display device 1 from the front is referred to as "front", and the back side is referred to as "back".

Specifically, as shown in FIGS. 1 and 2, the display device 1 includes a pointer 20, a drive unit 50, a circuit board 40, a case 60, a light source for graduation / character portion illumination 30, and a light source for pointer 31. A light source 32 for a warning light symbol portion and a display board 10 are provided. In addition to these configurations, the display device 1 includes an instrument housing for accommodating each of these configurations, although detailed illustrations thereof are omitted here. The instrument housing is divided into, for example, a front side housing arranged on the front side of the display device 1 and a back side housing arranged on the back side of the display device 1, and the front side housing has the front side thereof. A transparent or translucent see-through panel is fitted to close the opening. Then, the viewer can visually recognize (see through) the pointer 20 and the design 11 of the display board 10 through the perspective panel.

(Display board 10)
As shown in FIG. 1, the display board 10 is provided with a design 11 composed of numbers and symbols. Specifically, the display board 10 is a black-based light-shielding layer formed on a base material (not shown) made of a translucent resin and a back surface (or front surface) of the base material except for numbers representing the design 11. (Not shown) and. As a result, when the display board 10 receives the light from the light sources 30 to 32 on the back surface of the display board 10, the light representing the design 11 is emitted to the front side of the display board 10. The design 11 includes a scale portion 11a as a first design portion (design portion), a character portion 11b as a second design portion (design portion), and a warning light symbol portion 11c. The scale portion 11a is composed of scales arranged at equal intervals along the outer circumference of the display plate 10. The character portion 11b is located on the inner peripheral side of the scale portion 11a, and is composed of numbers arranged for each of a plurality of scales, in this example, a vehicle speed. The warning light symbol unit 11c is located on the inner peripheral side of the scale unit 11a and is composed of a plurality of indicator display units. As shown in FIG. 2, the scale portion 11a of the display plate 10 is inclined to the front side toward the outer side in the radial direction. The character portion 11b of the display board 10 is parallel to the circuit board 40.

(Circuit board 40)
In the circuit board 40, for example, various wirings are printed on a plate-shaped base material having an insulating property made of glass epoxy resin (Glass Fiber Reinforced Plastics). A control unit (not shown), which is an example of an electronic component that controls the operation of the display device 1, is mounted on the circuit board 40. This control unit acquires vehicle information such as vehicle speed from an external device of the display device 1 (for example, an ECU (Electronic Control Unit) of the vehicle), and lights each light source 30 to 32 based on the acquired information. The lights are turned off and the drive unit 50 is operated.

(Drive unit 50)
The drive unit 50 is composed of, for example, a stepping motor, and rotates the rotation shaft 50a under the control of the control unit. The drive unit 50 is mounted on the back side of the circuit board 40. The rotating shaft 50a penetrates a hole provided in the base material of the circuit board 40 and is arranged on the front side of the circuit board 40.

(Guideline 20)
As shown in FIG. 2, the pointer 20 includes a rotation center portion 20b that rotates about the rotation shaft 20a, and an instruction portion 20c that is integrally formed with the rotation center portion 20b. The rotation center portion 20b of the pointer 20 is connected to each other so as to rotate coaxially with the rotation shaft 50a of the drive unit 50. The indicator portion 20c is provided so as to extend in the radial direction from the rotation center portion 20b, and is a portion that indicates the character portion 11b and the scale portion 11a of the display board 10. Under the control of the control unit, the pointer 20 is driven by the drive unit 50 to rotate to a position corresponding to the speed of the vehicle. Further, a light receiving surface 20e is formed on the back surface of the rotation center portion 20b. The light receiving surface 20e is the back surface of the rotation center portion 20b, receives the light from the pointer light source 31, and guides the light toward the tip of the indicating unit 20c. As a result, the pointer 20 lights up.

(Light source 30 to 32)
Each of the light sources 30 to 32 is composed of an LED (Light Emitting Diode) and is mounted on the surface 41 of the circuit board 40. Specifically, the plurality of pointer light sources 31 are for causing the pointer 20 to emit light, and are arranged around the rotation shaft 50a of the drive unit 50. The plurality of warning light symbol unit light sources 32 are for causing the warning light symbol unit 11c of the display board 10 to emit light, and are arranged on the outer peripheral side of the pointer light source 31. The plurality of light sources 30 for illuminating the scale / character portion are for causing the character portion 11b and the scale portion 11a of the display board 10 to emit light, and are arranged on the outer peripheral side of the light source 32 for the warning light symbol portion.

(Coating layer 42)
As shown in FIG. 2, the surface 41 of the circuit board 40 is formed with a coating layer 42 that suppresses a change in the color of light L and an ink layer 43 that represents a component name of an electronic component. The coating layer 42 is made of an ink having no saturation, for example, a color of white, gray, or black. The coating layer 42 is formed, for example, in a circular shape around each scale / character portion illumination light source 30. The coating layer 42 is formed in a range that receives the light L emitted from the light source 30 for illuminating the scale / character portion and reflected by the light-shielding member 65 described later. The reason for making the coating layer 42 a desaturated color is to reduce that the color of the display board 10 is affected by the color of the circuit board 40 and becomes an unintended color. The coating layer 42 is formed, for example, by silk printing on a green solder resist covering the surface 41 of the circuit board 40.
The ink layer 43 indicates a name including an abbreviation of an electronic component mounted on the surface 41 of the circuit board 40. The ink layer 43 is formed of, for example, the same material, color, and thickness as the coating layer 42. Therefore, the ink layer 43 and the coating layer 42 can be formed at the same time in the same process at the time of manufacturing the circuit board 40.

(Case 60)
As shown in FIG. 2, the case 60 constitutes a middle case accommodating each of the light sources 30 to 32. The case 60 is made of, for example, a light-shielding white polypropylene resin. The case 60 is installed on the surface 41 of the circuit board 40. Specifically, the case 60 includes a tubular portion 60a, an inner light-shielding wall 60b, an outer light-shielding wall 60c, and a light-shielding member 65.

The tubular portion 60a is formed in a cylindrical shape centered on the axis of the rotation shaft 20a of the pointer 20. A pointer light source 31 is located in the internal space of the tubular portion 60a. The tubular portion 60a guides the light from the pointer light source 31 to the light receiving surface 20e of the pointer 20. The tubular portion 60a functions as a partition wall for preventing the light from the pointer light source 31 from being mixed with the light from the scale / character portion illumination light source 30 and the warning light symbol portion light source 32.

As shown in FIGS. 2 and 3, the inner light-shielding wall 60b is located outside the tubular portion 60a and has a cylindrical shape centered on the axis of the rotation axis 20a of the pointer 20. A plurality of light guide spaces 62 in which the light source 32 for the warning light symbol portion is embedded are formed between the tubular portion 60a and the inner light-shielding wall 60b. The light from the light source 32 for the warning light symbol section is guided to the warning light symbol section 11c of the display board 10 via the light guide space 62. Further, the outer light-shielding wall 60c is located outside the inner light-shielding wall 60b, and has a cylindrical shape in which the upper end portion centered on the axis of the rotation shaft 20a of the pointer 20 is widened. Specifically, the outer light-shielding wall 60c is formed substantially perpendicular to the circuit board 40 at a height where the light-shielding member 65 is located from the circuit board 40, and is formed on the display board 10 from the height at which the light-shielding member 65 is located. The entire portion is formed so as to be inclined toward the outer periphery of the display board 10 so as to be separated from the pointer light source 31. Further, as shown in FIG. 5, a reflective surface 60d is formed inside the outer light-shielding wall 60c (the outer peripheral wall of the own device) to reflect the light from the light source 30 for illuminating the scale / character portion toward the scale portion 11a. ing. The reflective surface 60d is inclined outward in the radial direction of the circuit board 40 toward the front side.

As shown in FIG. 2, an annular lighting space 61 for illuminating the scale portion 11a and the character portion 11b of the display board 10 is formed between the inner light-shielding wall 60b and the outer light-shielding wall 60c. The illumination space 61 is provided with a light-shielding member 65 and a light source 30 for illuminating the scale / character portion. The light-shielding member 65 is located between the circuit board 40 and the display board 10 in the illumination space 61, and extends in the direction along the circuit board 40. The light-shielding member 65 is formed so that the light from the light source 30 for illuminating the scale / character portion does not directly irradiate the display board 10. As shown in FIG. 3, the light-shielding member 65 includes a plurality of light-shielding portions 65g arranged so as to surround the rotation center portion 20b of the pointer 20. The number of light-shielding portions 65g is the same as the number corresponding to the scale / character portion illumination light source 30, and in this example, six are provided. As shown in FIG. 2, the light-shielding portion 65 g is located above the corresponding scale / character portion illumination light source 30.

As shown in FIG. 4, the light-shielding portion 65g includes a disk portion 65c and a convex portion 65b located at the center of the back surface of the disk portion 65c. Further, the back surface of the disk portion 65c constitutes a first reflecting surface 65a that reflects the light from the light source 30 for illuminating the scale / character portion toward the circuit board 40. The convex portion 65b is formed in a conical shape having an apex on the scale / character portion illumination light source 30 side (back side). The conical surface of the convex portion 65b constitutes a reflective surface 65d that reflects the light L from the scale / character portion illumination light source 30 toward the circuit board 40.

As shown in FIG. 3, the light-shielding portion 65g is formed with an arc-shaped first hole 67 and an arc-shaped second hole 66 penetrating the light-shielding portion 65g. The first hole 67 and the second hole 66 are arranged along the circumferential direction of the light-shielding portion 65 g. In this example, the two second holes 66 are located on the rotation center 20b side of the pointer 20, and the one first hole 67 is located on the outer light-shielding wall 60c side. The end of the first hole 67 and the end of the second hole 66 are connected via a connecting portion 68. The second hole 66 has a first curvature centered on the light source 30 for graduation / character portion illumination. The first hole 67 has a second curvature smaller than the first curvature around the light source 30 for graduation / character portion illumination. That is, this means that the virtual center point C1 of the first hole 67 is inside the outer circumference of the display board 10 with respect to the virtual center point C2 of the second hole 66.

Further, as shown in FIG. 5, the light-shielding portion 65g is located at the edge of the first hole 67, and the inclined surfaces 65e, 65f along the light from the light source 30 for illuminating the scale / character portion are avoided. To be equipped. The two inclined surfaces 65e and 65f are formed at positions facing each other along the lateral direction of the first hole 67. The inclined surface 65e is formed on the circuit board 40 side of the peripheral edge portion of the first hole 67, which is closer to the light source 30 for illuminating the scale / character portion. The inclined surface 65f is formed on the side of the peripheral edge of the first hole 67 far from the light source 30 for illuminating the scale / character portion.

(Action)
Next, with reference to FIG. 6, the action when the light L from the scale / character portion illumination light source 30 passes through the second hole 66 and reaches the character portion 11b will be described.
The light L from the light source 30 for illuminating the scale / character portion is reflected toward the circuit board 40 by the first reflecting surface 65a and the reflecting surface 65d of the light-shielding portion 65g. Then, the light L is reflected by the coating layer 42 of the circuit board 40 toward the second hole 66. The light that has passed through the second hole 66 reaches the character portion 11b. As a result, the character portion 11b lights up. The second hole 66 is formed so as not to allow the second light L2 to pass through.

Next, with reference to FIG. 5, the action when the light L from the scale / character portion illumination light source 30 passes through the first hole 67 and reaches the scale portion 11a will be described. Here, the light L reaching the scale portion 11a from the scale / character portion illumination light source 30 is the second light L2 directly directed to the first hole 67 indicated by the solid line arrow in FIG. 5, and the broken line arrow in FIG. Includes a first light L1 directed toward the light-shielding portion 65 g shown by the above. The first light L1 is light having a light irradiation angle smaller than that of the second light L2 among the lights L from the scale / character portion illumination light source 30. In other words, of the light L emitted from the scale / character part illumination light source 30, the light applied to the first reflecting surface 65a and the reflecting surface 65d is reflected by the circuit board 40 and becomes the first light L1. Become. On the other hand, the light emitted outside the first reflecting surface 65a passes through the first hole 67 and becomes the second light L2.

First, the first light L1 will be described.
The first light L1 from the scale / character portion illumination light source 30 is reflected toward the circuit board 40 by the first reflecting surface 65a and the reflecting surface 65d of the light shielding portion 65g. Then, the first light L1 is reflected by the coating layer 42 of the circuit board 40 toward the first hole 67. The first light L1 that has passed through the first hole 67 reaches the scale portion 11a. At this time, the first light L1 is incident on the scale portion 11a at the incident angle α.

Next, the second light L2 will be described.
The second light L2 from the scale / character portion illumination light source 30 goes through the first hole 67 toward the reflecting surface 60d. The reflecting surface 60d reflects the second light L2 toward the scale portion 11a. As a result, the second light L2 reaches the scale portion 11a. At this time, the second light L2 is incident on the scale portion 11a at an incident angle β smaller than the incident angle α. The smaller the angle of light incident on the scale portion 11a, the more efficiently the scale portion 11a can be turned on.

As described above, the display device 1 includes a circuit board 40, a scale / character portion illumination light source 30 provided on the circuit board 40 and emitting light, and a scale portion 11a located on the outer peripheral side. The plate 10 is provided with a light-shielding portion 65g, which is located opposite to the light source 30 for illuminating the scale / character portion and shields a part of the light to the display plate 10. A first hole 67 penetrating the light-shielding portion 65g is formed in the light-shielding portion 65g. The first hole 67 passes the second light L2, which is a part of the light L emitted from the light source 30 for illuminating the scale / character part, toward the reflecting surface 60d formed inside the outer light-shielding wall 60c. Is formed as follows. The reflecting surface 60d reflects the second light L2 that has passed through the first hole 67 toward the scale portion 11a.
According to this configuration, the second light L2, which is a part of the light L from the light source 30 for illuminating the scale / character portion, can irradiate the scale portion 11a without reflecting the circuit board 40. Therefore, it is possible to prevent the color of the display board 10 from changing due to the influence of the color of the circuit board 40.
In particular, the display device may include a fuel meter and a tachometer in addition to the speedometer. In general, fuel meters and tachometers are smaller in size than the speedometers, so they do not have a light-shielding part, and the light from the light source is directly guided to the display board without reflecting on the circuit board. To. Therefore, the fuel meter and the tachometer are not easily affected by the color of the circuit board. Even in a display device provided with a plurality of meters having different configurations, the change in the emission color of the speedometer is suppressed as described above, so that the emission color is suppressed for each of the plurality of meters. Will be done.

The display board 10 includes a character portion 11b located on the inner peripheral side of the scale portion 11a. A second hole 66 penetrating the light-shielding portion 65g is formed in the light-shielding portion 65g. The second hole 66 is emitted from the light source 30 for illuminating the scale / character portion, is reflected by the back surface (first reflecting surface 65a and the reflecting surface 65d) of the light shielding portion 65g, and then reflects the light reflected by the circuit board 40 as characters. It is formed so as to pass toward the portion 11b.
According to this configuration, the character portion 11b can be turned on in addition to the scale portion 11a by the light L from the light source 30 for illuminating the scale / character portion.

The character portion 11b of the display board 10 is formed in a direction along the circuit board 40, and the scale portion 11a of the display board 10 is inclined toward the outer periphery of the display board 10 on the side opposite to the light source 30 for illuminating the scale / character portion. It is formed on a sloped surface.
According to this configuration, the three-dimensional scale portion 11a can be efficiently irradiated with the light L from the scale / character portion illumination light source 30 via the reflecting surface 60d.

The light L that reaches the scale portion 11a from the light source 30 for illuminating the scale / character portion is the second light L2 that passes through the first hole 67, reflects the reflection surface 60d, and then reaches the scale portion 11a, and the light-shielding portion. It includes a first light L1 that passes through the first hole 67 and reaches the scale portion 11a after being reflected between 65 g and the circuit board 40. The reflection surface 60d is formed so that the incident angle β of the second light L2 on the scale portion 11a is smaller than the incident angle α of the first light L1 on the scale portion 11a.
According to this configuration, the scale portion 11a can be illuminated more efficiently by setting the incident angle β of the second light L2 reflected by the reflecting surface 60d to be small.

The light-shielding portion 65g is located at the edge of the first hole 67, and includes inclined surfaces 65e and 65f along the optical path so as to avoid the optical path of the second light L2.
According to this configuration, it is possible to prevent the edge of the first hole 67 from blocking the passage of the second light L2. Therefore, the scale portion 11a can be illuminated more efficiently.

The second hole 66 is formed in an arc shape having a first curvature centered on the light source 30 for graduation / character portion illumination when viewed from the thickness direction of the circuit board 40, and the first hole 67 is a circuit. When viewed from the thickness direction of the substrate 40, it is formed in an arc shape having a second curvature smaller than the first curvature centered on the light source 30 for graduation / character portion illumination. That is, this means that the virtual center point C1 of the first hole 67 is inside the outer circumference of the display board 10 with respect to the virtual center point C2 of the second hole 66.
According to this configuration, the scale portion 11a can be illuminated more efficiently by forming the first hole 67 in an arc shape close to the curvature in which the design of the scale is arranged.

On the circuit board 40, a coating layer 42 having any color of white, gray, or black is formed at a portion that receives the light reflected by the light-shielding portion 65g.
According to this configuration, the coating layer 42 suppresses the change in the color of the light L from the light source 30 for illuminating the scale / character portion.

An electronic component is mounted on the circuit board 40 in addition to the light source 30 for graduation / character portion illumination, and an ink layer 43 representing the component name of the electronic component is formed. The coating layer 42 is the same as the ink layer 43. Consists of color and material. Thereby, the coating layer 42 can be easily formed in the same process as the ink layer 43.

(Modification example 1)
In the above description, a case where a coating layer having any color of white, gray, or black is formed on the portion of the surface 41 of the circuit board 40 where the first light L1 is reflected has been described. However, the present invention can be applied even when a coating layer having any color of white, gray, or black is not formed on the surface 41 of the circuit board 40. For example, a green solder resist is formed on the surface 41 of the circuit board 40. Even in this case, since the second light L2 of the light L from the light source 30 for graduation / character portion illumination does not pass through the circuit board 40, the display board 10 is affected by the color of the circuit board 40 as compared with the conventional case. The color change is suppressed.

(Modification 2)
In the above description, of the light L from the light source 30 for illuminating the scale / character portion, the second light L2 reaches the scale portion 11a via the reflection surface 60d. However, as shown in FIG. 4, the second light L2 may be omitted, and the scale portion 11a may be irradiated only by the first light L1. That is, there is no reflecting surface 60d. Even in this case, since the coating layer 42 is formed on the circuit board 40 with a desaturated color, it is possible to prevent the color of the display board 10 from changing due to the influence of the color of the circuit board 40.

In the above description, the case where the display device 1 is applied to the pointer type speedometer has been described, but the display device 1 according to the present embodiment can also be used for other meters such as a tachometer, a fuel meter, a temperature meter, and a battery meter. Applicable. Further, the applicable range of the display device 1 according to the present embodiment does not need to be limited to the meter used in the automobile. For example, it can be applied to meters used for bicycles, trains, ships, airplanes, and the like.

Further, in the above description, the case where the scale / character portion illumination light source 30 is composed of six has been described, but the scale / character portion illumination light source 30 is provided according to the arrangement of the design 11 of the display board 10. You may.

Further, in the above description, the case where the scale portion 11a of the display plate 10 is formed on an inclined surface is described, but the inclination angle of the scale portion 11a is not limited to the above embodiment, and for example, the character portion 11b. On the other hand, they may be substantially orthogonal to each other. Further, the scale portion 11a and the character portion 11b may be formed on the same surface. Further, the character portion 11b may be formed on an inclined surface. Further, the scale portion 11a, the character portion 11b, and the warning light symbol portion 11c may be formed on an inclined surface that is inclined stepwise.

Further, in the above description, the character portion 11b is arranged in the second design portion, and the scale portion 11a is arranged in the first design portion located outside the second design portion. However, the arrangement of the design does not have to be limited to this. For example, the warning light symbol portion 11c may be arranged in the second design portion, and the scale portion 11a and the character portion 11b may be arranged in the first design portion.

Further, in the above description, the ink layer 43 and the coating layer 42 are formed of the same material and color, but the ink layer 43 and the coating layer 42 are formed of different materials, colors or thicknesses. May be done. For example, the coating layer 42 may be silk-printed in white and the ink layer 43 may be silk-printed in black. Further, the ink layer 43 may be omitted, and the coating layer 42 may be formed over the entire surface 41 of the circuit board 40.

Further, in the above description, the first reflecting surface 65a, the surface 41 of the circuit board 40, and the reflecting surface 60d provided on the outer light-shielding wall 60c are formed in a desaturated color. Either of them may be formed on a mirror surface. For example, it may be formed of a material such as aluminum.

Further, in the above description, the case where the light-shielding member 65 is provided has been described, but even when the light-shielding member 65 is not provided, the surface 41 of the circuit board 40 is coated with a desaturated color (white, gray, black). Therefore, it is possible to reduce that the color of the display board design is different from the intended color.

1 Display device 10 Display board 11 Design 11a Scale part 11b Character part 11c Warning light symbol part 20 Guideline 20a Rotation axis 20b Rotation center part 20c Indicator 20e Light receiving surface 30 Scale / character part Lighting light source 31 Pointer light source 32 Warning light symbol Light source for part 40 Circuit board 41 Surface 42 Coating layer 43 Ink layer 50 Drive unit 50a Rotating shaft 60 Case (middle case)
60a Cylindrical part 60b Inner light-shielding wall 60c Outer light-shielding wall 60d Reflective surface 61 Lighting space 62 Light guide space 65 Light-shielding member 65a First reflective surface 65b Convex part 65c Disc 65d Reflective surface 65e Inclined surface 65f Inclined surface 65g Light-shielding Part 66 Second hole 67 First hole 68 Connecting part

Claims (6)

With the board
A light source provided on the substrate and emitting light,
A display board including a first design portion located on the outer peripheral side and a second design portion located on the inner peripheral side of the first design portion.
It is provided with a light-shielding portion that is located opposite to the light source and blocks a part of the light to the display board.
First and second holes penetrating the light-shielding portion are formed in the light-shielding portion.
The first hole is formed so as to pass at least a part of the light emitted from the light source toward the reflecting surface formed inside the outer peripheral wall of the own device.
The reflecting surface reflects the light that has passed through the first hole toward the first design portion .
The second hole is formed so as to be emitted from the light source, reflected by the back surface of the light-shielding portion, and then passed through the light reflected by the substrate toward the second design portion.
The second hole is formed in an arc shape having a first curvature centered on the light source when viewed from the thickness direction of the substrate.
The first hole is formed in an arc shape having a second curvature smaller than the first curvature centered on the light source when viewed from the thickness direction of the substrate.
A display device characterized by that. The second design portion of the display board is formed in a direction along the substrate.
The first design portion of the display plate is formed on an inclined surface that is inclined toward the outer periphery of the display plate on the side opposite to the light source.
The display device according to claim 1. The light that reaches the first design portion from the light source is reflected between the light-shielding portion and the substrate, and then passes through the first hole to reach the first design portion. And a second light that passes through the first hole, is reflected by the reflecting surface, and then reaches the first design portion.
The angle of incidence of the second light on the first design portion is set to be smaller than the angle of incidence of the first light on the first design portion.
2. The display device according to claim 2. The light-shielding portion is located at the edge of the first hole and includes an inclined surface along the light so as to avoid the light from the light source.
The display device according to any one of claims 1 to 3, wherein the display device is characterized by the above. On the substrate, a coating layer having any color of white, gray, or black is formed at a portion receiving the light reflected by the light-shielding portion.
The display device according to any one of claims 1 to 4, wherein the display device is characterized by the above. In addition to the light source, electronic components are mounted on the substrate, and an ink layer representing the component name of the electronic component is formed.
The coating layer is made of the same color and material as the ink layer.
The display device according to claim 5.

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