JP5796475B2 - Instrument device - Google Patents

Description

  The present invention relates to an instrument device.

  As an instrument device, for example, an instrument device that illuminates a contour portion that represents the contour of the instrument device and an indicator portion that is an indication target of a pointer of the instrument device with a light source on a substrate is known. For example, Patent Document 1 discloses a technique in which a light source illuminates both an index portion and a contour portion via a light guide housed in a reflector (light guide case).

JP 2006-194636 A

  However, in the technique disclosed in Patent Document 1, the indicator portion and the contour portion can be illuminated by the same light guide, but since the light guide is continuously present from the vicinity of the pointer to the contour portion, This light guide obstructs, for example, an illumination room for illuminating a notifying part of an instrument panel, and a storage room for storing a predetermined display device between a pointer and a contour part, and an indicator part with reference to the pointer. It was difficult to provide in the position on the opposite side.

  The present invention has been made in view of the above circumstances, and even if an illumination chamber or a storage chamber is provided between the pointer and the contour portion on the opposite side of the indicator portion with respect to the pointer, the same light guide is provided. An object of the present invention is to provide an instrument device that can efficiently illuminate a contour portion and an indicator portion with a body.

In order to achieve the above object, an instrument device according to the first aspect of the present invention provides:
An instrument device comprising one or more instruments,
Guidelines,
An indicator part including a scale, which is an indication target of the pointer, a notification part that is located on the opposite side of the indicator part with respect to the pointer, and notifies predetermined information, the notification part, the pointer, and the indicator part And a contour portion representing the contour of the instrument, and an instrument panel located behind the pointer,
A first light source and a second light source for emitting light, a circuit board located behind the instrument board and facing the instrument board;
A light guide that receives the light emitted from the first light source and guides the received light to the indicator portion and the contour portion;
A light guide case that is disposed between the circuit board and the instrument panel and houses the light guide; and
The second light source faces the notification unit,
The light guide is connected to the first light guide part and the first light guide part covering the indicator part and a part in the vicinity of the index part of the outline part from behind the indicator part, and the contour A second light guide part covering the other part of the contour part from behind the part,
Through the first light guide and the second light guide, a through hole in which the second light source and the notification unit are located is formed in the light guide when viewed from the thickness direction of the instrument panel. And
The light guide case, when viewed from the thickness direction of the instrument panel, surrounds the second light source and the notification unit, penetrates the through hole, and illuminates the notification unit with the second light source; When viewed from the thickness direction of the instrument panel, the illumination chamber has a shape substantially the same as that of the first light guide part, and a first recess that houses the first light guide part and the first recess. And a second recess that houses the second light guide, which is substantially the same shape as the second light guide when viewed from the thickness direction of the instrument panel,
At least the side surface of the second concave portion constitutes a reflection surface that reflects the light reaching the light guide to the light guide, thereby assisting light guide by the light guide,
The light guide illuminates the indicator portion and a portion in the vicinity of the indicator portion of the contour portion by emitting the guided light from the first light guide portion, and the second light guide. Illuminate the other part of the contour part by emitting from the part,
It is characterized by that.

In order to achieve the above object, an instrument device according to the second aspect of the present invention provides:
An instrument device comprising one or more instruments,
Guidelines,
A display device;
An indicator portion including a scale, which is an indication target of the pointer, and is positioned on the opposite side of the indicator portion with respect to the pointer, transmits light emitted from the display surface of the display device, and visually recognizes the display surface An instrument panel located behind the pointer, provided with a transparent portion, and a contour portion that surrounds the display device, the pointer and the indicator portion, and represents the contour of the instrument;
A first light source for emitting light, a circuit board located behind the instrument board and facing the instrument board;
A light guide that receives the light emitted from the first light source and guides the received light to the indicator portion and the contour portion;
A light guide case that is disposed between the circuit board and the instrument panel and houses the light guide;
With
The light guide is connected to the first light guide part and the first light guide part covering the indicator part and a part in the vicinity of the index part of the outline part from behind the indicator part, and the contour A second light guide part covering the other part of the contour part from behind the part,
The first light guide part and the second light guide part form a through hole in the light guide body in which the transmission part and the display device are located when viewed from the thickness direction of the instrument panel. ,
The light guide case, when viewed from the thickness direction of the instrument panel, penetrates the through hole at a position corresponding to the transmission part, and stores the display device; and the thickness direction of the instrument panel When viewed from above, the shape is substantially the same as that of the first light guide portion, the first recess portion for storing the first light guide portion and the first recess portion surround the storage chamber, and the thickness of the instrument panel When viewed from the direction, the second light guide part is substantially the same shape, and includes a second recess for housing the second light guide part,
At least the side surface of the second concave portion constitutes a reflection surface that reflects the light reaching the light guide to the light guide, thereby assisting light guide by the light guide,
The light guide illuminates the indicator portion and a portion in the vicinity of the indicator portion of the contour portion by emitting the guided light from the first light guide portion, and the second light guide. Illuminate the other part of the contour part by emitting from the part,
It is characterized by that.

According to the instrument device according to the first aspect of the present invention, even if an illumination room is provided between the pointer and the contour portion on the opposite side of the indicator portion with respect to the pointer, the contour is the same light guide. It is possible to provide an instrument device that can efficiently illuminate the section and the indicator section.
According to the instrument device according to the second aspect of the present invention, even if a storage chamber is provided between the pointer and the contour portion on the opposite side of the indicator portion with respect to the pointer, the contour is the same light guide. It is possible to provide an instrument device that can efficiently illuminate the section and the indicator section.

It is a front view of the instrument apparatus which concerns on one Embodiment of this invention. It is an AA schematic sectional drawing in FIG. It is a front view of the circuit board and light guide case of FIG. It is a disassembled perspective view of the light guide and light guide case of FIG. It is a top view of the light guide body case in the meter apparatus of FIG. It is CC schematic sectional drawing in FIG.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the following description, the direction on the user side when the instrument device 100 is viewed from the front is referred to as “front”, and the opposite direction is referred to as “back”. Further, as viewed from the user viewing the instrument device 100 from the front, the upper direction is “up”, the lower direction is “lower”, the left direction is “left”, and the right direction is “right”.

(First embodiment)
As shown in FIG. 1, the instrument device 100 according to the first embodiment includes a water temperature gauge 10, a speedometer 20, and a fuel gauge 30 in order from the left. The meter device 100 according to the first embodiment is mounted on a vehicle such as an automobile or a motorcycle, for example, the speedometer 20 is the speed of the vehicle, the water temperature gauge 10 is the temperature of the engine oil of the vehicle, and the fuel gauge 30 is the remaining fuel amount. Is notified to the user (the driver of the vehicle). In the following, in describing the detailed structure of the meter device 100, the fuel gauge 30 will be described as an example as appropriate. Since the speedometer 20 and the water temperature gauge 10 have the same configuration as the fuel gauge 30, the detailed description is based on the fuel gauge 30.

  As shown in FIG. 2, the instrument device 100 includes an instrument board 40, a circuit board 50, a pointer 60, a light guide case 70, a light guide 80, a front case 90, and a back case 95. Prepare. Here, each member of the instrument board 40, the circuit board 50, the light guide case 70, the front side case 90, and the back side case 95 is connected to the water temperature gauge 10, the speedometer 20, and the fuel gauge 30. It is provided in common.

  The instrument panel 40 shown in FIG. 2 is formed of synthetic resin or the like, and is printed and coated with, for example, ink on a substrate 42 that is a sheet-like member having translucency, and on the front surface and / or back surface of the substrate 42. And a decoration layer for decorating the substrate 42. As shown in FIG. 1, an indicator portion 46, a warning notification portion 48, and a contour portion 49 are expressed by this decoration layer. That is, the board 42 is decorated by providing the decoration layer on the board 42 as described above, the indicator section 46, the warning notification section 48, and the contour section 49 are formed on the board. These parts are provided. In addition, the indicator part about the water temperature meter 10 and the speedometer 20, an outline, etc. are expressed by the decoration layer. The instrument panel 40 is located behind (back) the pointer 60.

The index unit 46 is an index unit of the fuel gauge 30. The indicator unit 46 is an indication target indicated by the pointer 60 of the fuel gauge 30. Specifically, as shown in FIG. 1, the indicator unit 46 of the fuel gauge 30 includes a plurality of scales 46a arranged along a substantially semicircular arc shape, and symbols 46b arranged corresponding to the scales 46a. , Is formed from a region including. As shown in FIG. 1, the symbol 46 b includes characters “E” (Empty) indicating that the fuel is empty and “F” (Full) indicating that the fuel is full, “F” and “ E ”is a figure indicating that the fuel gauge 30 is a gauge for the remaining amount of fuel. For example, the index part 46 is expressed by color-coding the scale 46a and the symbol 46b and the predetermined area around them with different colors. Further, both the scale 46a and the symbol 46b are formed so as to have a light shielding property, and a predetermined region around the scale 46a and the symbol 46b has a light transmitting property. The predetermined region of the indicator portion 46 transmits light from the back of the instrument panel 40 (index portion 46), but the scale 46a and the symbol 46b do not transmit light. Due to the difference between transmission and non-transmission, the user can visually recognize the indicator portion 46 even in a dark place (that is, the scale 46a of the indicator portion 46 and the like can be visually recognized). In a bright place, the user can visually recognize the index portion 46 by the difference in reflection of external light (difference caused by color coding) between the scale 46a and the symbol 46b and a predetermined area around it (that is, the scale 46a of the index portion 46). Etc.).
The indicator portion 46 may be formed so that the scale 46a and the symbol 46b have translucency and the periphery thereof has a light-shielding property (so-called character printing or the like). Also by this, similarly to the above, the user can visually recognize the indicator portion 46 (that is, the scale 46a and the like of the indicator portion 46 can be visually recognized).

As shown in FIG. 1, the warning notification unit 48 is located in the vicinity of the pointer 60 and includes a plurality of warning marks 48a (specific figures are not shown) representing predetermined warning information. Each warning mark 48 a is arranged at a predetermined position in the area occupied by the warning notification unit 48. As shown in FIG. 1, at least a part of the warning mark 48a (notification unit) is opposite to the indicator unit 46 with respect to the pointer 60 when the instrument device 100 is viewed from the front side (thickness direction of the instrument panel 40). It is located in the right region. As shown in FIGS. 2 and 5, each warning mark 48a (notification unit) is illuminated by the second light source 58 by facing a second light source 58 to be described later (in FIG. 5, the warning mark 48a is imaginary). ) Each warning mark 48a indicates, for example, that the user is not wearing a seat belt during engine startup (hereinafter referred to as a seat belt non-wearing warning light), and that the fuel remaining in the fuel tank has become a predetermined amount or less. This is a mark (figure) for notifying predetermined information such as (hereinafter referred to as a fuel remaining amount warning light), that a door, a trunk or the like is not completely closed (hereinafter referred to as a door / tailgate opening / closing warning light). That is, the warning notification unit 48 (each warning mark 48a) notifies the user of a predetermined warning. For example, a figure indicating that the amount of fuel remaining in the fuel tank has become a predetermined amount or less has a light-transmitting property, and a predetermined area around it has a light-blocking property (for example, a light-blocking property) White). As a result, the remaining fuel warning light indicates that the remaining amount of fuel in the fuel tank has become a predetermined amount or less. Similarly, the other warning mark 48a is formed of a light-transmitting portion and a light-blocking portion. The predetermined area (light-shielding area) of the warning mark 48a does not transmit light from the back of the instrument panel 40 (warning mark 48a), but the figure (translucent area) representing the predetermined alarm information does not transmit light. To Penetrate. The user can visually recognize the warning mark 48a by the illumination from the back side of the warning mark 48a. That is, a warning is notified to the user. Note that the warning mark 48a is only displayed when illuminated by light from the back (light from the second light source 58 described later) (that is, only when the warning mark 48a is used to notify the user of a warning). It is formed so as to be visible. For example, a light-transmitting portion and a light-blocking portion are formed by forming a light-transmitting white layer on a light-blocking portion and a light-transmitting portion (graphic portion). By not performing color coding, the warning mark 48a is formed so that the user cannot visually recognize it by reflection of external light.
Note that the warning mark 48a may be formed so that the figure has translucency and the predetermined area has light-shielding properties (so-called character printing or the like). Also by this, the user can visually recognize the warning mark 48a by the transmission / non-transmission of light in the light-transmitting part and the light-shielding part (that is, a seat belt non-wearing warning light, a remaining fuel warning light, etc. Can be seen).
In this embodiment, the warning mark 48a is adopted as an example of the notification unit. However, the notification unit may be any unit that notifies the user of predetermined information, and includes other marks. There may be.

The contour part 49 represents the contour of the fuel gauge 30 as shown in FIG. Note that the outline represents the area of each instrument, the boundary with other instruments, and the like. As shown in FIG. 1, the contour portion 49 is formed in an annular shape and surrounds the outer periphery of the indicator portion 46, the pointer 60, and the warning notification portion 48 when the instrument device 100 is viewed from the front side. The contour portion 49 is expressed by color-coding the portion of the contour portion 49 and a predetermined area around the contour portion 49 with different colors. Moreover, the outline part 49 has translucency or light-shielding property. For example, when the scale 46a and the symbol 46b have translucency, and the circumference of the scale 46a and the symbol 46b has light shielding properties, the contour portion 49 is provided with translucency, and the surrounding area. By making the non-transmissive region, the contour of the fuel gauge 30 can be expressed by transmitting light from the back side of the contour portion 49 even in a dark place. In addition, the contour 49 has a light-shielding property, and the surrounding area is a light-transmitting region, so that the contour of the fuel gauge 30 is expressed by transmitting light from the back side of the contour 49 even in a dark place. Can do. In addition, when the scale 46a and the symbol 46b have light shielding properties and the contour portion 49 has translucency, the contour portion 49 and the indicator portion 46 (particularly the scale 46a) may overlap. Good. That is, the scale 46 a and the symbol 46 b (or only the scale 46 a) may be arranged on the contour portion 49.
As shown in FIG. 1 or FIG. 5, the contour portion 49 includes a left contour portion 49a having a semicircular arc shape and a right contour portion 49b having a semicircular arc shape (in FIG. The outline 49 is represented by an imaginary line.) The left outline portion 49 a is a portion facing the warning notification portion 48 via the pointer 60, that is, a portion on the indicator portion 46 side (a portion near the indicator portion 46) with reference to the pointer 60. The right contour portion 49b is a portion facing the indicator portion 46 through the pointer 60 (the portion opposite to the indicator portion 46 through the pointer 60), that is, a portion on the warning notification portion 48 side. In the present embodiment, as shown in FIG. 1, the left contour portion 49a and the right contour portion 49b have a line BB extending in the vertical direction through the center of the pointer 60 (center of the rotation shaft 56a) as a boundary. Shall.

  The instrument panel 40 is further provided with, for example, a hole 44 penetrating along the thickness direction of the substrate 42 at the center position of the fuel gauge 30. A needle 60 (which may be a rotating shaft 56a described later) is rotatably inserted into the hole 44. Similarly, the instrument panel 40 has a hole through which the pointer of the speedometer 20 and the pointer of the water temperature meter 10 are rotatably inserted.

  As shown in FIG. 2, the circuit board 50 includes a base material 52, a hole 54, a drive body 56, a plurality of first light sources 57, a plurality of second light sources 58, and a plurality of third light sources 59, A control unit (not shown) and various wirings (not shown) are provided. The circuit board 50 is located behind (back) the instrument board 40 and faces the instrument board 40. The control unit is an electronic circuit including electronic components such as a CPU (Central Processing Unit). The control unit is connected to an external device of the instrument device 100, the drive main body 56, each light source, and the like via predetermined wiring. The control unit drives and controls the drive main body 56 and the like according to a signal (a signal indicating the remaining fuel amount data or the like) sent from an external device that monitors the remaining fuel amount. Moreover, each light source etc. is driven and controlled according to the signal sent from external devices, such as ECU (Electronic Control Unit). The circuit board 50 is shared by the mercury meter 10, the speedometer 20, and the fuel meter 30.

  The base material 52 is a plate-like member formed from glass epoxy or the like. As shown in FIG. 2, the base material 52 has a hole 54 so as to overlap with the hole 44 when viewed from the front side.

  The drive main body 56 is composed of, for example, a stepping motor. The drive body 56 is mounted on the back surface of the substrate 52 as shown in FIG. The drive main body 56 has a rotation shaft 56 a extending from the back side of the circuit board 50 toward the front side. The rotation shaft 56 a protrudes through the hole 54, a light guide path 72, which will be described later, and the hole 44, to the front side of the instrument panel 40. The drive main body 56 rotates the rotation shaft 56a under the control of the control unit.

  Each first light source 57 includes a top view type LED (Light Emitting Diode) or the like. As shown in FIG. 2 or 3, each first light source 57 is attached to the surface of the circuit board 50 (hatching indicating a cross section of the first light source 57 is omitted). Each first light source 57 emits light from the surface of the circuit board 50 in a substantially normal direction (the thickness direction of the instrument panel), and illuminates the indicator portion 46 and the contour portion 49 via the light guide 80. In FIG. 3, four first light sources 57 are attached on the base material 52, but the number is not limited thereto. The control unit described above causes the first light source 57 to emit light or extinguish according to a signal supplied from the outside.

  Each second light source 58 includes a top view type LED or the like. As shown in FIG. 2, each second light source 58 is positioned on the back side of the warning mark 48 a (opposite the warning mark 48 a), and is attached to the front surface of the circuit board 50 (cross section of the second light source 58. Are not shown). When the instrument device 100 is viewed from the front side, each second light source 58 is located between the pointer 60 and the contour portion 49 as shown in FIG. 2 or FIG. 5 (in FIG. The light source 58 is represented by an imaginary line). The second light sources 58 illuminate the corresponding warning marks 48a. That is, the second light source 58 is attached to the circuit board 50 by the same number as the warning mark 48a, emits light from the surface of the circuit board 50 in a substantially normal direction (the thickness direction of the instrument panel), and a corresponding warning. Each mark 48a is illuminated. For example, one dedicated second light source 58 (for illuminating the remaining fuel amount warning light) is attached to the circuit board 50 in the remaining fuel amount warning light. In FIG. 3, five second light sources 58 are attached on the base material 52, but the number is not limited to this number, and varies depending on the number of warning marks 48 a to be provided. For example, when there are ten warning marks 48 a, only ten second light sources 58 are attached on the substrate 52. The control unit described above causes the second light source 58 to emit light or extinguish according to a signal supplied from the outside.

  Each third light source 59 includes a top view type LED or the like. As shown in FIG. 2 or FIG. 3, each third light source 59 is attached to the front side surface of the circuit board 50 and in the vicinity of the hole 54 (hatching indicating a cross section of the third light source 59 is omitted). ). The third light source 59 illuminates the pointer 60 by emitting light from the surface of the circuit board 50 in a substantially normal direction (the thickness direction of the instrument panel). In FIG. 3, two third light sources 59 are attached on the base material 52 in the vicinity of the hole 54, but the number is not limited thereto. The control unit described above causes the third light source 59 to emit light or extinguish according to a signal supplied from the outside.

  As shown in FIG. 2, the pointer 60 is attached to the tip end of the rotating shaft 56a. The pointer 60 is made of, for example, a synthetic resin. The pointer 60 rotates on the instrument panel 40 (that is, the instrument panel 40 is located behind the indicator 60) by the rotation of the rotating shaft 56a, and the scale 46a, the scale 46a, or the symbol 46b in the indicator portion 46 is rotated. Instruct the interval. The control unit described above rotates the rotation shaft 56a at a rotation angle corresponding to the remaining fuel amount data (measurement amount) supplied from the outside. With this rotation, the pointer 60 rotates around the axis, so that the pointer 60 rotates at an angle corresponding to the remaining amount of fuel and instructs the indicator unit 46 to notify the user of the remaining amount of fuel.

  As shown in FIG. 4, the light guide 80 includes a plurality of light receiving portions 82, a through hole 83, a first light guide portion 84, and a second light guide portion 86 (in FIG. 2, a light guide). The hatching representing the cross section of the body 80 is omitted). The light guide body 80 is integrally formed of synthetic resin or the like and is a transparent member. The light guide 80 has a shape that overlaps the indicator portion 46 and the contour portion 49.

  As shown in FIG. 2, the light receiving unit 82 faces the first light source 57. The light receiving unit 82 receives the light emitted from the first light source 57 and guides the received light to the first light guide unit 84. Note that the same number of light receiving units 82 as the first light sources 57 are provided.

  As shown in FIGS. 2 and 4, the first light guide portion 84 is formed in a substantially rectangular shape, and when viewed from the front side, the back side of the indicator portion 46 and the indicator portion of the contour portion 49 in the present embodiment. It is located on the back side (back) of the left contour portion 49a corresponding to the portion in the vicinity of 46, and covers the indicator portion 46 and the left contour portion 49a (particularly a region having translucency) from the back side.

  As shown in FIG. 4, the second light guide portion 86 has a shape corresponding to the right contour portion 49 b when the instrument device 100 is viewed from the front side, and specifically has a semicircular arc shape. As shown in FIG. 2 or 4, the second light guide part 86 is located on the back side (back) of the right contour part 49 b when the instrument device 100 is viewed from the front side. In this embodiment, the second light guide part 86 is an index of the contour part 49. A right contour portion 49b (particularly a region having translucency) corresponding to a portion other than the vicinity of the portion 46 is covered from the back side. Both ends of the second light guide part 86 are connected to the first light guide part 84, and the first light guide part 84 and the second light guide part 86 are provided so as to surround an illumination chamber 74 described later.

  The through hole 83 is a space formed in a substantially semicircular shape. The through-hole 83 is formed by connecting both ends of the second light guide part 86 to the first light guide part 84. When the instrument device 100 is viewed from the front side, a plurality of second light sources 58 and a later-described second light source 58 are provided. An illumination room 74 is located.

  In addition, the light guide 80 may be provided with a plurality of minute concave and convex portions 80a (functioning as reflecting portions) on the back surface (see FIG. 2). Due to the uneven shape, the light reaching the back surface of the light guide 80 is diffusely reflected in the direction of the instrument panel 40. Such a concavo-convex portion 80a improves the light guide efficiency of the light guide 80 (details will be described later). The uneven portion 80 a is formed such that the unevenness density increases as the distance from the first light source 57 increases.

  As shown in FIG. 4, the light guide case 70 includes a light guide path 72, a plurality of illumination chambers 74, a recess 76 composed of a first recess 76 a and a second recess 76 b, and a hole 79. . The light guide case 70 is a white member formed by, for example, injection molding of polypropylene (PP) resin. The light guide case 70 is disposed between the instrument panel 40 and the circuit board 50 as shown in FIG. The light guide case 70 houses the light guide 80. The hole 79 penetrates in the direction of the circuit board 50, and a part of the first light guide portion 84 and a light receiving portion 82, which will be described later, are inserted therein.

  Each illumination chamber 74 includes a side wall portion 74a, a bottom surface portion 74b, and a space portion 74c. As shown in FIG. 2 or 3, each illumination chamber 74 is formed in a shape extending in the direction from the circuit board 50 to the instrument panel 40 and penetrates the through hole 83 (details about the three-dimensional shape of the light guide case 70). Will be described later). Each illumination chamber 74 surrounds the second light source 58 and the warning notification unit 48 when the instrument device 100 is viewed from the front side. Each illumination chamber 74 forms a space from each second light source 58 to a warning mark 48a on the instrument panel 40 (a space constituting an optical path for allowing light from the second light source 58 to reach the warning mark 48a). The warning mark 48a is illuminated by the light source 58. Each illumination chamber 74 has a different shape when viewed from the front side depending on the position provided. For example, as shown in FIG. 3, each illumination chamber 74 is provided in a substantially quadrangular shape or a substantially quadrant shape when the instrument device 100 is viewed from the front side. The illumination chamber 74 is provided for each second light source 58. That is, one illumination room 74 is assigned to one second light source 58. As shown in FIG. 4, the side wall 74 a extends from the circuit board 50 in the direction of the instrument panel 40 and is formed in a shape surrounding the second light source 58. As shown in FIG. 3 or FIG. 4, the side wall 74 a partitions the adjacent illumination chamber 74 (including the light guide path 72) so that the light emitted from each second light source 58 does not interfere with each other. As shown in FIG. 2, the bottom surface 74 b has a through hole formed substantially at the center when viewed from the front side (the bottom surface portion 74 b is omitted in FIG. 3). The space 74c is a space formed by the side wall 74a. The light from the second light source 58 enters the space 74c through the through hole. This reduces the leakage of light from the circuit board 50 side.

  As shown in FIG. 4, the first recess 76 a is recessed from the front side to the back side, and has substantially the same shape as the first light guide unit 84 when viewed from the front side. Further, as shown in FIG. 5, the first recess 76 a overlaps the indicator portion 46 when viewed from the front side (in FIG. 5, the indicator portion 46 is represented by an imaginary line). As shown in FIG. 2 or FIG. 4, the first recess 76 a houses the first light guide portion 84, and the inner surface thereof is close to or in contact with the first light guide portion 84. The inner surface (side surface and bottom surface) of the first recess 76a functions as a reflecting surface since the light guide case 70 is formed in white.

  As shown in FIG. 4, the second recess 76 b is recessed from the front side to the back side, and has substantially the same shape as the second light guide part 86 when viewed from the front side. As shown in FIG. 2 or FIG. 4, the second concave portion 76 b accommodates the second light guide portion 86, and the inner surface thereof is close to or in contact with the second light guide portion 86. The side surface and the bottom surface of the second recess 76b function as a reflecting surface because the light guide case 70 is formed in white. The illumination chamber 74 is surrounded by the first recess 76a and the second recess 76b.

  In addition, although the metal-like plating may be performed on the side surface and the bottom surface of each recess, the light guide case 70 is formed in white, so that light can be reflected without performing such plating. For this reason, an operation such as plating is not necessarily required, so that the manufacturing cost can be suppressed.

  As shown in FIG. 2, the light guide path 72 is a space formed so as to surround the plurality of third light sources 59 at positions corresponding to the holes 44 of the instrument panel 40 and the holes 54 of the circuit board 50.

  Here, the three-dimensional shape of the light guide case 70 will be described in more detail with reference to FIG. In FIG. 3, a portion with a grid line represents the circuit board 50, a portion with a diagonal line, a dot portion, and a white portion represent the light guide case 70. (In addition, the 1st light source 57, the 2nd light source 58, the 3rd light source 59, the rotating shaft 56a, and the hole 54 are also represented by white). The light guide case 70 is connected in the order of a hatched portion, a dot portion, and a white portion. The light guide case 70 with a diagonal line is formed in an inclined shape from the circuit board 50 toward the front. The portion with dots is substantially parallel to the circuit board 50 and formed in a substantially flat shape. The portion shown in white represents the surface on the front side of the side wall portion 74a and has the same height with respect to the front side direction. That is, the white portions are erected at the same height in the front direction from the portions with dots.

  Returning to FIG. 2, the front case 90 includes a glass case 90a and a visor 90b. The glass case 90a is a transparent member formed from, for example, glass or synthetic resin that transmits visible light. The visor 90b is made of, for example, a hard synthetic resin, is black, and blocks light. The glass case 90 a and the visor 90 b are integrated to form the front case 90.

  The back case 95 is made of, for example, hard synthetic resin. The back side case 95 is formed with an opening on the front side and the back side, and is integrated with the front side case 90 by sandwiching the circuit board 50, the pointer 60, the instrument panel 40, the light guide case 70, and the light guide 80. To do.

  Next, the path of light emitted from the first light source 57 will be described.

  The path of light that illuminates the left outline 49a and the indicator 46 will be described. The light emitted from the first light source 57 travels toward the light receiving unit 82 of the light guide 80. The light that reaches the light receiving unit 82 is guided into the first light guide unit 84 and is guided in the first light guide unit 84. At this time, the light emitted from the side surface and the bottom surface of the first light guide portion 84 is appropriately reflected by the side surface and the bottom surface of the first recess 76a and is incident again into the first light guide portion 84. The light guided by the light guide unit 84 has a reduced light guide loss (degree of reduction in the amount of light guided). A part of the light guided inside the first light guide 84 is emitted in a planar shape from the surface of the first light guide 84 toward the instrument panel 40. The light emitted from the front side of the first light guide portion 84 reaches the instrument panel 40 (the left outline portion 49a and the indicator portion 46). As a result, the left contour portion 49a and the indicator portion 46 are illuminated, and the illumination light is transmitted through the transparent portion, so that the user can visually recognize the left contour portion 49a and the indicator portion 46.

  A path of light that illuminates the right outline 49b will be described. Another part of the light guided inside the first light guide 84 is guided to the second light guide 86 and guided in the second light guide 86. At this time, the light emitted from the side surface and the bottom surface of the second light guide part 86 is appropriately reflected by the side surface and the bottom surface of the second recess 76b and is incident again into the second light guide part 86. The light guided by the light guide unit 86 has a reduced light guide loss. Then, the light guided inside the second light guide part 86 is emitted in a planar shape from the surface of the second light guide part 86 toward the instrument panel 40. The light emitted from the surface of the second light guide part 86 reaches the instrument panel 40 (right outline part 49b). As a result, the right contour portion 49b is illuminated, the illumination light passes through the transparent portion, and the user can visually recognize the right contour portion 49b.

  Next, the path of the light emitted from the second light source 58 (the process until the warning notification unit 48 (each warning mark 48a) emits light) will be described using a case where the remaining amount of fuel becomes a predetermined amount or less. . When the external device of the mercury meter 10 (device that monitors the remaining amount of fuel) determines that the remaining amount of fuel has become a predetermined amount or less, it transmits this determination (information) to the control unit as an electrical signal. After receiving the electrical signal, the control unit controls and turns on the second light source 58 facing the remaining fuel amount warning lamp, and emits light from the second light source 58. Then, the light emitted from the second light source 58 reaches the instrument panel 40 (fuel remaining amount warning light) through the illumination chamber 74 on the back side of the remaining fuel amount warning light. At this time, the light from the second light source 58 is appropriately reflected on the inner wall of the illumination chamber 74, and therefore reaches the instrument panel 40 with little loss. In this way, the warning mark 48a is illuminated, the light is transmitted through the transparent part, and the user can visually recognize the warning mark 48a. In addition, you may alert | report by blinking the fuel remaining amount warning lamp (warning mark 48a) under control of the said control part.

  Next, the path of light emitted from the third light source 59 will be described. The third light source 59 emits light toward the pointer 60 (near the portion of the pointer 60 attached to the rotation shaft 56a). The pointer 60 receives light from a light receiving surface (not shown) and emits light.

  Next, the light guide case 70 will be described. If the side surfaces of the recess 76 (the first recess 76a and the second recess 76b) are not reflective surfaces (white), even if the light emitted from the side surface of the light guide 80 reaches the side surface of the recess 76, Since the side surface is not a reflecting surface, it is not reflected by the side surface of the recess 76. For this reason, the possibility that the light reaching the side surface of each concave portion from the light guide 80 is reflected by the light guide 80 and returned to the light guide 80 is reduced. 80 reduces the light guided to the indicator portion 46 and the contour portion 49. That is, the amount of light guided by the light guide 80 is reduced. Therefore, in the present embodiment, a reflective surface is formed on the side surface of the concave portion 76 composed of the first concave portion 76a and the second concave portion 76b, and the light reaching the side surface of the concave portion 76 from the light guide 80 is guided by this reflective surface. Reflecting the light body 80 makes it difficult for the light guided by the light guide body 80 to decrease. Therefore, in the present embodiment, the light guide 80 efficiently guides light to the contour portion 49 or the index portion 46 by the amount of decrease in the light guided, and thus the contour portion 49 or the index portion. 46 can be efficiently illuminated.

  Next, the light guide 80 and the light guide case 70 will be described. The light guide 80 according to the present embodiment is seen from the front side of the instrument device 100 while covering the indicator portion 46 and the contour portion 49 from the back by the first light guide portion 84 and the second light guide portion 86. In this case, the light guide path 72 and the illumination chamber 74 are formed so as to be located inside the through hole 83. As a result, the light guide 80 does not interfere with the light guide path 72 and the illumination chamber 74. When the light is guided using the light guide 80, the normal light has a property of traveling straight. Therefore, if the second light guide unit 86 has a semicircular arc shape, the light is guided. Difficult to do. However, in the present embodiment, a reflection surface is formed on the side surface of the second recess 76b, and the light reaching the side surface of the second recess 76b from the second light guide portion 86 is reflected to the second light guide portion 86 by this reflection surface. By doing so, the light guided by the light guide 80 travels along an arc shape as a whole. That is, the second concave portion 76b according to the present embodiment allows the second light guide portion 86 to guide light that should travel straight along a semicircular arc shape (helping the light guide). Yes). As described above, the light guide 80 covers the indicator portion 46 and the contour portion 49 from the back while avoiding the light guide path 72 and the illumination chamber 74, and the light guide is assisted by the second recess 76b. The indicator portion 46 and the contour portion 49 can be efficiently illuminated.

  As described above, the instrument device 100 according to the present embodiment includes the indicator portion 46, the warning mark 48a positioned on the opposite side of the indicator portion 46 with respect to the pointer 60, and the contour portion 49 that surrounds the warning mark 48a and the pointer 60. And the instrument board 40 located behind the pointer 60, the circuit board 50 provided with the first light source 57 and the second light source 58 and facing the instrument board 40, and the light emitted from the first light source 57. And a light guide 80 that guides the received light to the indicator portion 46 and the contour portion 49, and a light guide that is disposed between the circuit board 50 and the instrument panel 40 and that houses the light guide 80. A case 70. The second light source 58 faces the warning mark 48a, and the light guide 80 is connected to the first light guide 84 and the first light guide 84 that covers the indicator portion 46 and the left contour portion 49a from behind. And a second light guide part 86 that covers the right outline part 49b from behind. The first light guide portion 84 and the second light guide portion 86 serve as a light guide through-hole 83 in which the second light source 58 and the warning mark 48a are located when viewed from the thickness direction of the instrument panel 40. 80. Further, the light guide case 70 surrounds the second light source 58 and the warning mark 48a when viewed from the thickness direction of the instrument panel 40, penetrates the through hole 83, and illuminates the warning mark 48a by the second light source 58. The illumination chamber 74 is surrounded by the first recess 76a and the first recess 76a, which have substantially the same shape as the chamber 74 and the first light guide 84, and the second light guide. 86, and has a second recess 76b that houses the second light guide 86. At least the side surface of the second recess 76b constitutes a reflection surface that reflects the light emitted and reached from the light guide 80 (second light guide 86) to the light guide 80 (second light guide 86). Thus, the light guide 80 (second light guide portion 86) assists in guiding light, and the light guide 80 emits the guided light from the first light guide portion 84, thereby indicating the indicator portion 46. In addition, the left contour portion 49a is illuminated and the right contour portion 49b is illuminated by being emitted from the second light guide portion 86. With such a configuration, in the instrument device 100 according to the present embodiment, even if the illumination chamber 74 is provided at a position on the opposite side of the indicator portion 46 with respect to the pointer 60 between the pointer 60 and the contour portion 49, the same. The light guide 80 can efficiently illuminate the contour portion 49 and the indicator portion 46.

  In general, the amount of light supplied and guided from the light source is large in the portion near the light source of the light guide, but the amount of light supplied and guided from the light source is small in the portion far from the first light source 57. There is a case. That is, illumination unevenness may occur. In the present embodiment, the light guide 80 reaches a location far from the first light source 57, that is, reaches the light guide 80 by providing a concave and convex portion 80 a having a higher density of concave and convex portions as it is farther from the first light source 57 on the back surface of the light guide 80. More light is diffusely reflected from the back surface at a place where the amount of light is small. Thus, the uneven part 80a provided in the light guide 80 functions as a reflecting part. For this reason, the part far from the 1st light source 57 in the outline part 49 and the index part 46 receives more light compared with the case where the uneven | corrugated | grooved part 80a is not provided. Therefore, the difference in illumination brightness between the portion near and far from the first light source 57 is reduced, and the uneven illumination of the contour portion 49 and the indicator portion 46 is reduced. The concavo-convex portion 80a is formed, for example, by providing a plurality of conical depressions on the back surface of the light guide 80 (for example, a cone having a 45 ° angle between the bottom surface and the side surface). In this embodiment, the concavo-convex portion 80a is made to function as a reflecting portion that reflects light guided by the light guide, but this plating is reflected by applying metal-like plating to the back surface of the light guide 80. You may make it function as a part.

  The first light guide portion 84 further has a convex portion 85 that protrudes in the front direction on the surface and contacts the back surface of the instrument panel 40. When the surface of the first light guide portion 84 is used as a reference, the height of the convex portion 85 is substantially the same as the height of the side surface (side wall constituting the first concave portion) of the first concave portion 76a. By bringing the convex portion 85 into contact with the instrument panel 40, it is possible to adjust the gap between the light guide 80 and the instrument panel 40, which occurs in the manufacturing process. Contact with the instrument panel 40 or the light guide case 70 due to impact, vibration, or the like can be suppressed. If the convex portion 85 is not brought into contact with the instrument plate 40, the light guide 80 vibrates between the instrument plate 40 and the light guide case 70 due to the gap between the light guide 80 and the instrument plate 40. As described above, in the second modification, the convex portion 85 is brought into contact with the instrument plate 40 to suppress the vibration of the light guide 80 between the instrument plate 40 and the light guide case 70. Damage to the instrument panel 40, the light guide case 70, the light guide 80, and the like due to vibration is suppressed. In particular, the coating of each indicator portion formed on the back surface of the instrument panel 40 is difficult to peel off.

(Second Embodiment)
In the second embodiment, a display device such as a liquid crystal display is used instead of the warning notification unit 48. Such a configuration will be described with the speedometer 20 of the first embodiment. The configuration of the speedometer 20 other than the display device is substantially the same as that of the first embodiment. Therefore, in the description of the speedometer 20, the same configuration will be omitted as appropriate, and the display device of the speedometer 20 will be mainly described.

  As shown in FIG. 1, the speedometer 20 includes a display device 28 that displays predetermined information. The display device 28 is, for example, a display device such as a liquid crystal display illuminated by a display device illumination light source 29. As shown in FIG. 6, the instrument panel 40 includes a transmission part 27 for the display device 28. The transmission unit 27 exposes the display surface of the display device 28 and transmits light (light emitted from the display surface of the display device 28) for allowing the user to visually recognize the display surface (information displayed by the display device 28). It is a part to do. The transmission part 27 may be, for example, a through-hole formed in the instrument panel 40, or may be configured by a transparent part (for example, a part where the decorative layer of the substrate 42 is not formed). The light guide case 70 includes one illumination chamber 25 having a shape that can accommodate the display device 28 as shown in FIG. 6 instead of the plurality of illumination chambers 74. Corresponding to the illumination chamber 25, the circuit board 50 includes one display device illumination light source 29 surrounded by the illumination chamber 25. The display device illumination light source 29 faces the display device 28. The transmission unit 27 is located below the instrument panel 40 (a location corresponding to the warning notification unit 48 in the first embodiment) and faces the light source 29 for display device illumination. The transmission part 27 is located inside the through hole 83 of the light guide 80 when the instrument device 100 is viewed from the front side. The display device 28 is accommodated in the illumination chamber 25 without protruding from the surface of the instrument panel 40. In the present embodiment, the illumination room 25 also functions as a storage room for the display device 28. Since the display device 28 faces the display device illumination light source 29 surrounded by the illumination chamber 25, the display device 28 is illuminated through the illumination chamber 25. The display device 28 notifies predetermined information (for example, travel distance, etc.) under the control of the control unit.

  Thus, even if the plurality of lighting chambers 74 are changed to one lighting chamber 25 that houses the display device 28 and the warning mark 48a is changed to the transmission portion 27, the configuration of the speedometer 20 is the same as that of the first embodiment. This is substantially the same as the configuration of 30. For this reason, in the pointer, the contour portion, and the index portion in the speedometer 20, the illumination room 25 composed of a relatively large room is located between the pointer and the contour portion on the opposite side of the index portion with respect to the pointer. Even if provided, the contour portion and the indicator portion can be efficiently illuminated with the same light guide 80.

(Modification)
In addition, this invention is not limited to the said embodiment, The content of the said embodiment can be changed suitably. Although the modification of the said embodiment is shown below, the following modification can be combined suitably. In addition, the configurations of the above embodiments can be combined as appropriate.

(Modification 1)
Note that the outline portion 49 only needs to have a substantially annular shape or a substantially polygonal shape (a shape along the outline of the polygon). The substantially annular shape includes a substantially perfect circle (including a perfect circle) annular shape (see the above embodiment) and a substantially elliptical (including an ellipse) annular shape. The contour portion 49 is continuously connected in the above-described embodiment, but may be a discontinuous discontinuous shape (for example, a broken line shape or a dotted line shape). The right contour portion 49b may be any one that faces the indicator portion 46 via the pointer 60, and the shape thereof is not particularly limited. The same applies to the left outline 49a. The left contour portion 49a and the right contour portion 49b are formed in a semicircular arc shape in the above embodiment, but may be formed in a substantially arc shape and may not be a semicircular arc shape. The substantially circular arc includes a substantially perfect circular arc and a substantially elliptical arc.

(Modification 2)
The display device 28 may be a self-luminous display (for example, an organic EL (Electro-Luminescence) display). In this case, the illumination chamber 25 may be a storage chamber that accommodates the display device 28, and the display device illumination light source 29 and the portion that guides light from the display device illumination light source 29 may be omitted as appropriate.

  In the above, although the instrument apparatus 100 was demonstrated as a vehicle instrument, it is not restricted to this. The instrument device 100 may be an aircraft instrument, a marine instrument, or the like.

  In the above description, in order to facilitate understanding of the present invention, descriptions of known technical matters are omitted as appropriate.

DESCRIPTION OF SYMBOLS 100 Instrument apparatus 10 Water temperature meter 20 Speedometer 25 Illumination room 27 Transmission part 28 Display apparatus 29 Light source for display apparatus illumination 30 Fuel gauge 40 Instrument panel 42 Substrate 44 Hole 46 Indicator part 46a Scale 46b Symbol 48 Warning notification part 48a Warning mark 49 Outline Portion 49a Left contour portion 49b Right contour portion 50 Circuit board 52 Base material 54 Hole 56 Drive body 56a Rotating shaft 57 First light source 58 Second light source 59 Third light source 60 Pointer 70 Light guide body 72 Light guide path 74 Illumination chamber 74a Side wall portion 74b Bottom surface portion 74c Space portion 76 Recessed portion 76a First recessed portion 76b Second recessed portion 79 Hole 80 Light guide 80a Uneven portion (an example of a reflecting portion)
82 Light-receiving part 83 Through-hole 84 1st light guide part 85 Convex part 86 2nd light guide part 90 Front side case 90a Glass case 90b Visor 95 Back side case

Claims (5)

An instrument device comprising one or more instruments,
Guidelines,
An indicator part including a scale, which is an indication target of the pointer, a notification part that is located on the opposite side of the indicator part with respect to the pointer, and notifies predetermined information, the notification part, the pointer, and the indicator part And a contour portion representing the contour of the instrument, and an instrument panel located behind the pointer,
A first light source and a second light source for emitting light, a circuit board located behind the instrument board and facing the instrument board;
A light guide that receives the light emitted from the first light source and guides the received light to the indicator portion and the contour portion;
A light guide case that is disposed between the circuit board and the instrument panel and houses the light guide; and
The second light source faces the notification unit,
The light guide is connected to the first light guide part and the first light guide part covering the indicator part and a part in the vicinity of the index part of the outline part from behind the indicator part, and the contour A second light guide part covering the other part of the contour part from behind the part,
Through the first light guide and the second light guide, a through hole in which the second light source and the notification unit are located is formed in the light guide when viewed from the thickness direction of the instrument panel. And
The light guide case, when viewed from the thickness direction of the instrument panel, surrounds the second light source and the notification unit, penetrates the through hole, and illuminates the notification unit with the second light source; When viewed from the thickness direction of the instrument panel, the illumination chamber has a shape substantially the same as that of the first light guide part, and a first recess that houses the first light guide part and the first recess. And a second recess that houses the second light guide, which is substantially the same shape as the second light guide when viewed from the thickness direction of the instrument panel,
At least the side surface of the second concave portion constitutes a reflection surface that reflects the light reaching the light guide to the light guide, thereby assisting light guide by the light guide,
The light guide illuminates the indicator portion and a portion in the vicinity of the indicator portion of the contour portion by emitting the guided light from the first light guide portion, and the second light guide. Illuminate the other part of the contour part by emitting from the part,
An instrument device characterized by that. An instrument device comprising one or more instruments,
Guidelines,
A display device;
An indicator portion including a scale, which is an indication target of the pointer, and is positioned on the opposite side of the indicator portion with respect to the pointer, transmits light emitted from the display surface of the display device, and visually recognizes the display surface An instrument panel located behind the pointer, provided with a transparent portion, and a contour portion that surrounds the display device, the pointer and the indicator portion, and represents the contour of the instrument;
A first light source for emitting light, a circuit board located behind the instrument board and facing the instrument board;
A light guide that receives the light emitted from the first light source and guides the received light to the indicator portion and the contour portion;
A light guide case that is disposed between the circuit board and the instrument panel and houses the light guide;
With
The light guide is connected to the first light guide part and the first light guide part covering the indicator part and a part in the vicinity of the index part of the outline part from behind the indicator part, and the contour A second light guide part covering the other part of the contour part from behind the part,
The first light guide part and the second light guide part form a through hole in the light guide body in which the transmission part and the display device are located when viewed from the thickness direction of the instrument panel. ,
The light guide case, when viewed from the thickness direction of the instrument panel, penetrates the through hole at a position corresponding to the transmission part, and stores the display device; and the thickness direction of the instrument panel When viewed from above, the shape is substantially the same as that of the first light guide portion, the first recess portion for storing the first light guide portion and the first recess portion surround the storage chamber, and the thickness of the instrument panel When viewed from the direction, the second light guide part is substantially the same shape, and includes a second recess for housing the second light guide part,
At least the side surface of the second concave portion constitutes a reflection surface that reflects the light reaching the light guide to the light guide, thereby assisting light guide by the light guide,
The light guide illuminates the indicator portion and a portion in the vicinity of the indicator portion of the contour portion by emitting the guided light from the first light guide portion, and the second light guide. Illuminate the other part of the contour part by emitting from the part,
An instrument device characterized by that. The circuit board includes a light source for illuminating a display device at a position facing the display device,
The storage chamber stores the display device, surrounds the display device illumination light source when viewed from the thickness direction of the instrument panel, and illuminates the display device with the display device illumination light source A room,
The instrument device according to claim 2. The light guide further includes a reflection part that reflects light guided to the back surface,
The instrument device according to any one of claims 1 to 3, wherein The first light guide part further includes a convex part protruding from the surface of the first light guide part toward the instrument panel,
The height of the convex portion with respect to the surface of the first light guide portion is substantially the same as the height from the surface of the first light guide portion of the side wall constituting the first concave portion, The tip contacts the instrument panel,
The instrument device according to any one of claims 1 to 4, wherein

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