JP5018350B2 - Vehicle instrument - Google Patents

Description

  The present invention relates to a vehicle instrument.

  2. Description of the Related Art Conventionally, as an instrument for a vehicle, one provided with a ring member (ring-shaped light guide) that is decorated by illumination on the outer peripheral portion of a display board is known (see Patent Document 1).

Japanese Patent Application Laid-Open No. 2004-228561 discloses a technique for transmitting and illuminating a ring member by arranging a light source behind the display plate and causing light from the light source to enter the ring member from the outer periphery of the display plate. In this technique, in order to prevent the light of the light source irradiated from the outer periphery of the display panel toward the ring member from directly entering the eyes of the driver of the vehicle, the outer periphery of the display panel and the inner periphery of the ring member The part is closely fixed.
Japanese Patent No. 2006-242639

  The inventor is examining a pointer structure in which the fulcrum of the pointer is located outside the display board. In this pointer structure, the fulcrum of the pointer passes through the gap defined by the display board and the ring member, and Move along the direction of extension. It is difficult to apply the conventional technique to such a technique in which a gap is formed between the display plate and the ring member.

  As measures against this, the light from the light source is applied to the inner wall of the ring member to prevent the light from the light source from directly entering the eyes of the driver, and the reflected light reflected from the inner wall of the ring member is used as a gap. It is conceivable that leakage illumination (indirect illumination) is performed through the projector. That is, a part of the ring member (for example, a part of a display design such as a scale part) is transmitted and illuminated with light from the light source, and the light from the light source is applied to the inner wall of the ring member that is other than the above part. A vehicle instrument configured to reflect the light and indirectly illuminate through the gap with the reflected light is conceivable.

  In this case, in order to cause the indirect illumination by the inner wall of the ring member and the transmitted illumination of the scale portion to emit light with different emission colors with the same light source (for example, a white light source), the color to be emitted on the inner wall of the ring member It is necessary to give a color (for example, blue).

  For example, in the method of coloring the inner wall by painting, if the reflected light of the light source reflected by the blue-painted inner wall is used for indirect illumination, the reflected light becomes light blue compared to the painted blue. In order to make the difference from the emission color of the transmitted illumination of the scale portion dark, if the blue color of the coating is darkened, the reflectance of the inner wall is lowered, so that the luminance of the illumination is lowered. In some cases, there is a risk of causing a decrease in luminance of the transmissive illumination at the scale portion or uneven luminance of the transmissive illumination.

  Further, in the method of coloring the inner wall by painting, when the light source is turned off, the same coloring of the inner wall as the light emission color at the time of indirect illumination is made visible to the driver, so that it looks bad and the texture may be lowered. is there.

  The present invention has been made in consideration of such circumstances, and its purpose is to devise the configuration of a vehicle instrument and to perform indirect illumination using reflected light from the inner wall of a ring member disposed on the outer periphery of the display board. It is in providing the instrument for vehicles which can aim at the improvement of appearance.

  In order to achieve the above object, the present invention employs the following technical means.

That is, in the invention according to claims 1 to 10 , a display plate having a display design, and a ring member having a display portion made of a translucent material, arranged on the outer peripheral side of the display plate and on the front side in the display direction of the display plate, , and a light source for illuminating the-ring member from the display direction rear side, the transmitting the display unit the source light incident from the light source in the display direction rear side, the vehicle meter for the source light reflected from the inner wall of the ring member In
Optical coloring means provided between the light source and the inner wall, and coloring the inner wall illumination light toward the inner wall of the light source light into a first hue different from the light source light ,
A light guide that guides the light source light to the display direction rear side of the display unit;
The optical coloring means is provided on the light guide and is disposed on a dispersion surface that emits a part of the light source light toward the inner wall in the traveling direction of the light source light guided through the light guide.
The exit surface that emits part of the light source light so as to illuminate the display portion provided on the ring member is provided at a position different from the dispersion surface in the light guide .

  In such an invention, the inner wall illumination light reflected by reflecting the light source light on the inner wall of the ring member produces indirect illumination (leakage illumination) of colored light having a hue different from that of the light source light on the inner wall. According to this, the light source light traveling toward the inner wall is colored in a first hue different from the light source light by the optical coloring means. That is, the inner wall illumination light colored in the first hue can be applied to the inner wall before being reflected by the inner wall. Thereby, there is no possibility that the reflected light becomes pale colored light unlike the method of applying the colored coating corresponding to the first hue to the inner wall. That is, the inner wall illumination light reflected by the inner wall does not change to a light color tone in the first hue.

Moreover, since the inner wall illumination light is colored in the first hue before being reflected by the inner wall, the inner wall may have a function of reflecting light, and the inner wall needs to be colored in the first hue. There is no. Thereby, when the light source is turned off, the driver can avoid visually recognizing the inner wall colored in the same hue as the inner wall illumination light.
From the above, it is possible to improve the appearance of the indirect illumination by the reflected light of the inner wall of the ring member disposed on the outer periphery of the display board.

  In the first aspect of the present invention, the light guide repeats reflection in the light guide and guides the light source light to the exit surface. Any inner region can be formed. Optical coloring means arranged on such a dispersion surface can be easily arranged on the rear side in the display direction of the display panel.

  In particular, as in the invention described in claim 2, it is preferable that the optical coloring means is a colored transmissive member that is disposed on the rear side of the display plate in the display direction and has a light transmitting layer.

  In this invention, as the optical coloring means, a simple and inexpensive configuration of a colored transmissive member having a light transmissive layer such as a color sheet subjected to a light transmissive color treatment is adopted, so indirect illumination while suppressing an increase in cost. Can be improved. In addition, since the optical coloring means is arranged on the rear side in the display direction of the display board, the optical coloring means can be easily arranged outside the visual recognition range where the driver visually recognizes the display board and the display unit.

  According to a third aspect of the present invention, the inner wall is formed with a non-transparent colored layer colored with a second hue different from the first hue of the inner wall illumination light. Thereby, the change (hue difference) of the appearance of the inner wall seen by the driver becomes more pronounced between when the inner wall illumination light is illuminated and when it is not illuminated.

  Further, the color tone of the light-impermeable colored layer is preferably a light color system as in the invention described in claim 4. Thereby, since the 2nd hue colored by the light-impermeable colored layer of an inner wall is set to a light color tone, the reflectance of an inner wall is improved compared with a dark color tone. Therefore, it is possible to produce an effect that makes indirect illumination stand out with the inner wall illumination light reflected on the inner wall.

  Further, the opaque color layer of the inner wall preferably has the same hue as the outer wall of the ring member as in the invention described in claim 5. Thereby, since the inner wall and outer wall of a ring member are unified with the same hue, the texture improvement of the said vehicle instrument at the time of non-illumination can be aimed at.

Further, as in the invention described in claim 6 , the light guide is formed in an annular shape or an arc shape along the extending direction of the display portion, and on the rear surface on the opposite side of the dispersion surface in the light guide. It is preferable that a reflection part for reflecting the light source light guided through the light guide body toward the optical coloring means is disposed.

  According to this, since the light guide is formed in an annular shape or an arc shape along the extending direction of the display unit, the dispersion surface on which the optical coloring means is disposed is arranged on the annular or arc shape light guide. It is possible to form widely. In addition, since the reflecting portion that reflects the light source light toward the optical coloring means is arranged on the rear surface opposite to the dispersion surface, the light amount of the inner wall illumination light directed from the dispersion surface to the inner wall is increased. .

  As described above, the inner wall is illuminated by the inner wall illumination light without uneven brightness, and uniform indirect illumination can be produced along the display portion of the ring member and the inner wall.

According to the invention described in claim 7 , since the reflecting portion constitutes the casing of the vehicle meter, the reflecting portion function that emits the inner wall illumination light with uniform luminance from the dispersion surface of the light guide, A support function for supporting an annular or arcuate light guide can be obtained by the casing, and an increase in the number of components can be prevented.

The invention according to any one of claims 8 to 10 includes an internal unit for rotating the pointer, the pointer is fixed to the internal unit, and rotates on the front side in the display direction of the display board.

According to this, since the pointer is fixed to the inner unit and is configured to rotate on the front side in the display direction of the display plate, the pointer structure is fixed to the inner unit and the fulcrum that rotates is the outer peripheral side of the display plate, Any structure in the hole in the display board can be applied to the vehicle instrument according to any one of claims 1 to 7 .

In particular, the pointer includes a boss portion fixed to the rotating shaft of the internal unit, a support arm portion extending from the boss portion toward the outer peripheral side of the display plate, and a support arm, as in the invention according to claim 9. And a pointer portion extending along the display design of the display plate from the tip of the display portion, and the support arm portion is disposed on the outer peripheral side of the display plate and is inserted into a gap defined between the display plate and the inner wall of the ring member It is preferable that

  In such an invention, as the pointer structure, the support arm portion that is the fulcrum of the pointer is inserted through the gap defined by the display plate and the ring member, and moved along the extending direction of the gap. In the display space of the display board, a display device capable of displaying information related to, for example, vehicle information other than the display design indicated by the pointer can be arranged on the center side.

  In the above pointer, the extending direction of the pointer portion that extends along the display design of the display board may be either the inner peripheral side or the outer peripheral side of the display board.

Further, as in the invention described in claim 10, it is preferable that the display plate includes a display window that exposes a display design different from the display design on the inner peripheral side, and a liquid crystal display is disposed in the display window. .

  In such an invention, as the display device, the liquid crystal display device has a wide degree of freedom in selecting information display displayed on the screen, or can display a plurality of information simultaneously or sequentially as the information display. Thereby, while aiming at the effective use of a display space, the vehicle instrument which gives a driver a novel display image and appearance can be provided.

  Hereinafter, a case where the vehicle instrument according to the present invention is applied to a tachometer T incorporated in a combination meter 100 mounted on an automobile will be described with reference to the drawings.

  FIG. 1 is a partial front view of a combination meter 100 including a tachometer T according to an embodiment of the present invention. In FIG. 1, a tachometer T section is shown. 2 is a cross-sectional view taken along the line II-II in FIG. In FIG. 2, the upper side is the driver's seat side, and the combination meter 100 is visually recognized from above in the figure. 3 is a cross-sectional view taken along line III-III in FIG. FIG. 4 is an exploded perspective view of the tachometer T according to the present embodiment. FIG. 4 is an exploded perspective view of the tachometer T according to the present embodiment. FIG. 5 is a block diagram showing an example of an electric circuit configuration of the tachometer T according to the present embodiment.

The combination meter 100 is installed at a position visible from the driver in front of the driver's seat of the automobile, and has a tachometer T for instructing the rotational speed of the engine of the automobile as shown in FIG. And various indicators. The driver's seat is on the upper side of the combination meter 100 in FIG. 2, and the combination meter 100 is visually recognized by the driver from the upper side in the drawing.

As shown in FIG. 2, the tachometer T is provided with a ring member 13, a pointer 9, a dial 2, and a liquid crystal display 1 from the front side, that is, the viewer side. The configuration of the tachometer T will be described below.

  The tachometer T includes a dial 2 provided with characters 2a, a ring member 13 provided with scales 13a, a pointer 9 that is rotated by an internal unit 8 to indicate the characters 2a and scales 3a, and the like. A liquid crystal display 1 as a display device is disposed in the center of the dial 2, that is, in the opening window 2 b of the dial 2. The liquid crystal display 1 displays, for example, information related to vehicle travel. As shown in FIG. 1, the information display related to vehicle travel displays an odometer A that indicates the cumulative travel distance of the vehicle and a trip meter B that indicates a section travel distance. Is formed.

  As the liquid crystal display 1, for example, a dot matrix type is used. The liquid crystal display 1 has an outer diameter that is substantially circular. A flexible circuit board (not shown) as a lead wire for connecting the liquid crystal display 1 to a control circuit (hereinafter referred to as a controller) 60 is connected and extended to one end side of the liquid crystal display 1.

  On the back side of the liquid crystal display 1, a first light guide plate 3 as a first illumination member is disposed in close contact with the liquid crystal display 1. The first light guide plate 3 is made of a translucent material such as a colorless and transparent polycarbonate resin or acrylic resin by molding. The first light guide plate 3 guides the light emitted from the light emitting diode 6 as the first light source to the back surface of the liquid crystal display 1 to transmit and illuminate the liquid crystal display 1.

  The first light guide plate 3 has a planar shape substantially the same as that of the liquid crystal display 1, and one end side is formed in an L shape as shown in FIG. 3 and extends to the light emitting surface side of the light emitting diode 6. Has been. In the present embodiment, the first light guide plate 3 is composed of a first light guide plate portion 31 that illuminates one area of the liquid crystal display 1 and a first light guide plate 32 that illuminates the other area. is doing.

  As shown in FIG. 3, a part of the first light guide plate portion 31 and the first light guide plate portion 32 are arranged so as to overlap each other in the viewing direction, that is, in the axial direction of the rotation shaft 8 a of the internal unit 8. As shown in FIG. 3, a light shielding plate 33 is interposed between the first light guide plate portion 31 and the first light guide plate portion 32. The light shielding plate 33 is formed of a resin thin plate or a metal thin plate having a light shielding property. The light shielding plate 33 prevents the light emitted from the first light guide plate portion 32 from illuminating the liquid crystal display 1 via the first light guide plate portion 31.

  Around the liquid crystal display 1, a dial 2 is arranged. The dial 2 is formed in a substantially annular shape from a light-transmitting material, for example, a thin plate such as a colorless and transparent polycarbonate resin or acrylic resin. The dial plate 2 is disposed so as to overlap the front side of the liquid crystal display 1, and the liquid crystal display 1 is visually recognized through an opening window 2 b that is a through hole at the center of the dial plate 2.

  The dial 2 is provided with a character 2a as an index portion. The character 2a is formed by printing or hot stamping on the front surface (upper surface in FIG. 2) or back surface (lower surface in FIG. 2) of the dial plate 2. That is, the dial 2 is provided with a non-transparent colored layer or a semi-transparent colored layer in a portion other than the character 2a, and the character 2a is kept transparent or a semi-transparent colored layer is provided. Is processed. As a result, when the dial 2 is transmitted and illuminated, the character 2a is lit and displayed.

  On the back side of the dial 2, a second light guide plate 4 that is a second illumination member is disposed in close contact with the liquid crystal display 1. The second light guide plate 4 is formed from a translucent material such as a colorless and transparent polycarbonate resin or acrylic resin by molding. The second light guide plate 4 guides the light emitted from a light emitting diode (not shown), which is a second light source, to the back surface of the dial plate 2 so that the dial plate 2 is transmitted and illuminated. The second light guide plate 4 is formed in a substantially C shape so that its planar shape covers a region where the character 2 a of the dial plate 2 is provided, and both C-shaped end portions of the first light guide plate 3 As in the case, it is extended in an L shape.

  The liquid crystal display 1, the dial plate 2, the first light guide plate 3 (first light guide plate portions 31 and 32), and the second light guide plate 4 described above are housed and held in the bracket 5 and integrated into the display unit D. Is configured. The bracket 5 is formed by molding a resin material.

  In the bracket 5, the 2nd light guide plate 4 is arrange | positioned substantially concentrically as shown in FIG.3 and FIG.4 in the outer peripheral side of the 1st light guide plate 3. As shown in FIG. As shown in FIG. 3, the bracket 5 is provided with a light shielding wall 5 a between the first light guide plate 3 and the second light guide plate 4. In the light shielding wall 5a, light traveling in one of the first light guide plate 3 and the second light guide plate 4 enters the other, and the light beams for transmitted illumination of the liquid crystal display 1 and the dial plate 2 are mixed. This prevents the appearance of the image from deteriorating. The light shielding wall 5a is formed so as to isolate not only the planar portions of the first light guide plate 3 and the second light guide plate 4 but also the portion extending in the L shape. The display unit D is fixed to the printed circuit board 11 by tightening the bracket 5 with a screw (not shown).

  The printed circuit board 11 is made of, for example, a glass epoxy board or the like, and forms an electric circuit related to the combination meter 100 including the tachometer T. A light emitting diode 6 as a first light source is mounted on the printed circuit board 11 so as to face the tip of the L-shaped extending portion of the first light guide plate 3. Further, the light emitting diode 7 as the second light source is mounted facing the tip of the L-shaped extending portion of the second light guide plate 4.

  For example, as shown in the perspective development view of FIG. 4, the number of the light emitting diodes 6 and 7 is five for each of the light emitting diodes 25 and 26 that irradiate the first light guide plate portions 31 and 32 of the light emitting diode 6. The light emitting diodes 7 are arranged in three pieces, and two light emitting diodes 7 are arranged at both ends of the C-shape, that is, both ends of the light emitting diode 26. As a result, the entire area of the liquid crystal display 1 and the dial 2 is illuminated with uniform brightness.

  When the bracket 5 is fixed to the printed circuit board 11, the outer peripheral sides of the light emitting diodes 6 and 7 are covered with the bracket 5, and the light shielding wall 5 a extends to the surface of the printed circuit board 11 at the boundary between the light emitting diode 6 and the light emitting diode 7. ing. Therefore, the light emitted from the light emitting diode 6 is incident on the second light guide plate 4, the light emitted from the light emitting diode 7 is incident on the first light guide plate 3, and the light emitted from both the light emitting diodes 6 and 7 is outside the bracket 5. It is surely prevented from leaking into the water.

  A connector (not shown) is mounted on the printed board 11, and the flexible circuit board of the liquid crystal display 1 is connected via the connector.

  As shown in FIG. 2, an internal unit 8 for rotating the pointer 9 is mounted on the printed board 11. The internal unit 8 is composed of an electric actuator such as a stepping motor or a cross coil type rotary machine, and a drive signal is applied based on an external electric signal (in the tachometer T, an engine rotation speed signal). The eight rotation shafts 8a are rotated. In addition, the rotary shaft 8a of the internal unit 8 is arranged substantially coaxially with the center of the dial 2, and a pointer 9 is fixed to the tip of the rotary shaft 8a by fitting or the like as shown in FIG.

  The pointer 9 is formed by molding with a translucent material such as a colorless and transparent polycarbonate resin or acrylic resin. As shown in FIG. 2, the pointer 9 includes a boss portion 9b fixed to the rotating shaft 8a of the inner unit 8, a support arm portion 9a extending from the boss portion 9b toward the outer peripheral side of the dial 2, and a support It has a pointer portion 9c extending from the tip of the arm portion 9a toward the inner peripheral side of the dial plate 2 along the surface of the dial plate 2 on the character 2a side (hereinafter referred to as the front surface).

  That is, as shown in FIG. 2, the pointer 9 has a substantially U-shaped cross section formed by the support arm portion 9a and the pointer portion 9c, and the support arm portion 9a and the pointer portion 9c are front and back of the display unit D. It is arrange | positioned so that it may pinch. The support arm portion 9 a is inserted through the gap 12 between the outer peripheral portion of the dial 2 and the inner wall 13 b of the ring member 13, and can rotate along the gap 12, that is, the character 2 a of the dial 2.

  A counterweight 9d is provided on the opposite side of the support arm portion 9a across the boss portion 9b of the pointer 9 as shown in FIGS. The counterweight 9d is for making the rotation of the pointer 9 smooth by making the magnitude of the unbalanced moment around the rotary shaft 8a in the pointer 9 as small as possible. If a weight made of a material having a large specific weight, such as a metal material, is fixed to the counterweight 9d, the magnitude of the unbalanced moment around the shaft 8a in the pointer 9 is increased without increasing the size of the counterweight 9d. Can be reduced.

  The pointer 9 is formed by molding a boss portion 9b, an arm portion 9a, a pointer 9c, and a counterweight 9d. As a result, since the pointer 9 is entirely formed by integral molding, the shape accuracy of the pointer 9 can be improved as compared with the pointer integrated with a member. A good appearance of the U-shaped pointer 9 can be obtained.

  The pointer 9 is lit and displayed by light emitted from the light emitting diode 10 mounted in the vicinity of the boss portion 9b of the pointer 9 on the printed board 11. That is, the light emitted from the light emitting diode 10 enters the pointer 9 from the vicinity of the boss portion 9b, travels while reflecting in the pointer 9, and is emitted from the pointer 9c for light emission display.

  Here, the substantially U-shaped pointer 9 is arranged so as to sandwich the display unit D from the outer peripheral side and rotates. Therefore, the shape of the display unit D, specifically the bracket 5, is set so as not to interfere with the rotation of the pointer 9 during normal rotation of the pointer 9, in other words, not to interfere with the pointer 9.

  As shown in FIGS. 2 and 4, an annular ring member 13 is disposed on the outer peripheral side of the dial 2 and on the front side in the display direction of the dial 2. The ring member 13 is arranged on the outer peripheral side of the rotation range of the point portion 9c with respect to the U-shaped pointer 9 of the present embodiment.

  The ring member 13 is formed by molding with a translucent material such as a colorless and transparent polycarbonate resin or acrylic resin. The ring member 13 is formed in an annular or arcuate shape with a part cut, and is disposed coaxially with the dial 2, that is, coaxially with the rotation shaft 8 a of the inner unit 8.

  As shown in FIG. 2, the ring member 13 includes a scale 13a as a display portion formed as a convex portion protruding from the surface to the front side (upper side in FIG. 3). In the region excluding the scale 13a on the surface of the ring member 13, an opaque color layer is applied by printing or hot stamping. Thereby, when the ring member 13 is irradiated through the light guide 15 with the light emitted from the light emitting diode 10 mounted on the printed circuit board 11, the scale 13a is lit and displayed.

  Further, an impermeable colored layer 14 is formed on the inner wall 13b of the ring member 13 and is coated with a silver or white (silver in this embodiment) paint. The reason why the opaque color layer 14 is formed on the inner wall 13b is to increase the reflection efficiency (hereinafter referred to as reflectance) of reflecting the light emitted from the light emitting diode 10 by the inner wall 13b.

  The light guide 15 is formed by molding from a translucent material such as colorless and transparent polycarbonate resin or acrylic resin. The light guide 15 includes an emission surface 15b and a dispersion surface 15c on the front surface side, and an incident surface 15a on the rear surface side. The light from the light emitting diode 10 is incident on the incident surface 15a of the light guide 15 and is repeatedly reflected inside and emitted from the output surface 15b to illuminate the scale 13a of the ring member 13. Further, the dispersion surface 15c is disposed inside the emission surface 15b, and a part of the light that repeats reflection inside the light guide 15 is emitted from the dispersion surface 15c to illuminate the inner wall 13b of the ring member 13. To do.

  A light-transmitting color sheet 16 as an optical coloring means is disposed on the dispersion surface 15c of the light guide 15 and is fixed to the dispersion surface 15c. The color sheet 16 is formed, for example, by applying a translucent coloring process to a resinous thin film. In this example. The color of the color sheet 16 is blue.

  Here, the hue of the translucent coloring process of the color sheet 16 is set to a color that illuminates the inner wall 13b of the ring member 13 and produces indirect illumination with illumination light reflected on the inner wall. The color tone (also referred to as lightness) of the impermeable colored layer 14 on the inner wall 13b is set to a light color tone. The hue of the impermeable colored layer 14 is preferably set to the same hue as that of the outer wall 13 c of the ring member 13.

  The light guide 15 is formed in an annular shape or an arc shape along the extending direction of the scale 13a (the circumferential direction of the arc-shaped scale in FIGS. 1 and 2). And the casing 17 is arrange | positioned at the surface (henceforth rear surface) 15d on the opposite side to the dispersion surface 15c of the light guide 15. FIG.

  Here, the casing 17 forms a reflection portion that prevents light emitted from the rear surface 15 d out of light that repeats reflection inside the light guide 15 and reflects the light toward the color sheet 16. Thereby, the light quantity of the inner wall illumination light which goes to the inner wall 13b through the color sheet 16 from the dispersion surface 15c is increased.

  The printed circuit board 11 is mounted with a controller 60 that performs display drive control of the liquid crystal display 1, lighting / extinguishing control of the light emitting diodes 6, 7, and 10, and driving control of the internal unit 8. The controller 60 is composed of, for example, a microcomputer.

  The ring member 13, the display unit D, the printed circuit board 11, and the like described above are accommodated and held in a casing 17 molded from a resin material, as shown in FIGS.

  As shown in FIG. 2, a substantially frame-shaped facing plate 18 is mounted on the front surface side of the ring member 13, and a transparent cover (not shown) is mounted on the tip of the facing plate 18. . The facing plate 18 is made of, for example, a resin material. The transparent cover is made of a transparent resin thin plate or glass. The facing plate 18 and the transparent cover not only improve the appearance of the combination meter 100, but also prevent dust, moisture, and the like from entering the combination meter 100.

  On the other hand, a lower cover (not shown) is mounted behind the casing 17. The lower cover is made of, for example, a resin material.

  Here, the color sheet 14 corresponds to the colored transmission member described in the claims.

  Next, the inner wall illumination light described above and the electric circuit configuration and operation of the tachometer T according to one embodiment of the present invention will be described with reference to FIG. As shown in the electric circuit configuration diagram of FIG. 4, electric power is constantly supplied from the battery 22 to the controller 60. Further, the ignition switch 21 is connected to the controller 60 so as to detect its operation state (ON or OFF).

  The controller 60 is connected to the liquid crystal display 1, the internal unit 8, and the light emitting diodes 6, 7, and 10 which are the control targets. Furthermore, a rotation sensor 23 for detecting the engine rotational speed of the vehicle and a distance sensor 24 for detecting a travel distance of the vehicle are connected to the controller 60 so that detection signals can be input.

  (1) When the ignition switch 21 is turned on.

  When the ignition switch 21 is turned on by the driver, the controller 60 detects this and starts the display control operation of the tachometer T.

  The controller 60 turns on the light emitting diodes 6, 7, and 10. Thereby, the character 2a of the dial plate 2 is transmitted and illuminated by the light from the light emitting diode 7 and the scale 13a of the ring member 13 is transmitted and illuminated by the light from the light emitting diode 14, respectively.

  Further, the pointer 9 is transmitted and illuminated by the light from the light emitting diode 10 and is displayed in a light emitting manner. Further, of the light from the light emitting diode 10, the light emitted from the dispersion surface of the light guide 15 is colored blue by the color sheet 16, and the inner wall illumination light colored blue is applied to the inner wall 13b to reflect the light. Indirect lighting using.

  At the same time, the liquid crystal display 1 is transmitted and illuminated by the light from the light-emitting diode 6, that is, the light-emitting diodes 25 and 26, and becomes visible.

  Subsequently, the controller 60 drives the internal unit 8 based on the detection signal from the rotation sensor 23 to rotate the rotation shaft 8a to a predetermined angle, that is, the angle corresponding to the engine rotation speed of the automobile. .

  Subsequently, the controller 60 calculates the travel distance of the vehicle based on the signal from the distance sensor 24, drives the liquid crystal display 1, and displays the travel distance of the vehicle on the screen, that is, as shown in FIG. The cumulative travel distance (ODO) and the section travel distance (TRIP) are displayed.

  (2) When the ignition switch 21 is turned off.

  When the ignition switch 21 is turned off by the driver, the controller 60 detects this, turns off the light-emitting diodes 6, 7, and 10, and rotates the internal unit 8 and drives the liquid crystal display 1. Stop.

  Next, a method for manufacturing the tachometer T according to an embodiment of the present invention, mainly an assembly method for fixing the display unit D to the printed circuit board 11, will be described with reference to FIGS.

  First, the first light guide plate 31, the light shielding plate 33, the first light guide plate 32, the liquid crystal display 1, the second light guide plate 4, and the dial plate 2 are attached and fixed to the bracket 5 in the order shown in FIG. Unit D is formed. That is, the liquid crystal display 1 is overlapped and fixed on the first light guide plate 31 and the first light guide plate 32 from above in FIG. Subsequently, the second light guide plate 4 on which the dial plate 2 is already mounted is inserted and fixed into the bracket 5 from above in FIG.

  Next, the printed circuit board 11 is assembled to the casing 17 and the pointer 9 is driven. At this time, mounting of the electrical components such as the internal unit 8, the light emitting diodes 7, 10, 25, 27, and the controller 60 on the printed circuit board 11 is already completed before the process of assembling the printed circuit board 11 on the casing 17 and driving the pointer 9 is doing.

  First, the printed board 11 is inserted and fixed in the casing 17 from the back side of the casing 17, that is, from the side opposite to the driver side, from the lower side in FIG. Subsequently, the scale 13a of the ring member 13 and the light guide 15 for illuminating the inner wall 13b are inserted and fixed in the casing 17 from the front side of the casing 17, that is, from the upper side in FIG. At this time, the protrusion 15 e of the light guide 15 is fitted into the guide groove 17 a of the casing 17. Thereby, the light guide 15 and the casing 17 are accurately maintained in a predetermined positional relationship.

  Further, the color sheet 16 is inserted and fixed to the dispersion surface 15 c of the light guide 15. At this time, the protrusion 15f of the light guide 15 is inserted into the hole 16f of the color sheet 16, and the protrusion 15f and the hole 16f are joined and fixed by heat caulking.

  Subsequently, the pointer 9 is press-fitted and fixed to the rotary shaft 8a of the internal unit 8 as follows. First, the internal unit 8 is driven by a dedicated electric device, and the rotation angle position of the rotation shaft 8a is set to a predetermined angle position. Next, the boss portion 9b of the pointer 9 is press-fitted into the rotary shaft 8a while adjusting the positional relationship between the pointer 9 and the casing 17, that is, the angular position between the support arm portion 9a of the pointer 9 and the casing 17 to a predetermined angle. , Driving of the pointer 9 is completed.

  Finally, the display unit D is assembled to the casing where the pointer 9 has been driven. First, the angular position of the pointer 9 is set to a predetermined angular position so that the display unit D can be attached to the casing 17 as shown in the perspective development view of FIG. Here, the predetermined angular position is a position where the open end of the U-shaped pointer 9 faces the display unit D fixing position (two-dot chain line DS in FIG. 4) on the casing 17.

  Next, the display unit D is inserted and fixed while being moved from the U-shaped opening end side of the pointer 9 between the support arm portion 9a and the pointer 9c. Subsequently, the liquid crystal display 1 is electrically connected to the printed board 11.

  Subsequently, the ring member 13 is fixed to the front side of the casing 17 from above in FIG. This completes the assembly of the tachometer T.

  In the present embodiment described above, indirect illumination is produced on the inner wall 13b by illuminating and reflecting the inner wall 13b of the ring member 13 with the light source light emitted from the light emitting diode 10, but the inner wall illumination light directed toward the inner wall. However, unlike the light source light (white light), the color sheet 16 which is an optical coloring means is colored blue. The inner wall illumination light colored with the color sheet 16 can be applied to the inner wall 13b. Thereby, the inner wall illumination light reflected by the inner wall as in the method of indirectly illuminating with the inner wall colored with blue paint does not change to light blue due to the influence of the white light source light.

  Moreover, since the inner wall illumination light is colored blue before being reflected by the inner wall 13b, the inner wall 13b itself may have a function of reflecting light, and the inner wall need not be colored blue. Thereby, when the light emitting diode 10 is turned off, it is possible to prevent the driver from visually recognizing the inner wall colored in the same hue as the inner wall illumination light.

  From the above, it is possible to improve the appearance of the indirect illumination by the reflected light of the inner wall 13b of the ring member 13 arranged on the outer periphery of the dial 2.

  As the optical coloring means, a simple and inexpensive configuration of the color sheet 16 is adopted, so that the appearance of indirect illumination can be improved while suppressing an increase in cost. In addition, since the color sheet 16 is arranged on the rear side in the display direction of the dial 2, the color sheet 16 can be easily arranged outside the visual recognition range where the driver visually recognizes the dial 2 and the scale 13b.

  In the embodiment described above, the inner wall 13b is formed with the light-impermeable colored layer 14 colored in silver different from the hue of the inner wall illumination light, that is, blue light. Thereby, since the change (hue difference) of the appearance of the inner wall 13b seen by the driver becomes more noticeable when the inner wall illumination light is illuminated and when the inner wall illumination light is not illuminated, the texture of the indirect illumination can be improved.

  Moreover, in this embodiment demonstrated above, it is preferable that the color tone of the translucent colored layer 14 of the said inner wall 13b is a light color system. Thereby, since this light-impermeable colored layer 14 is set to a light color tone, the reflectance of the inner wall is enhanced as compared with a dark color tone. Therefore, it is possible to produce an effect that makes indirect illumination stand out with the inner wall illumination light reflected by the inner wall 13b.

  Moreover, in this embodiment demonstrated above, it is preferable that the opaque color layer 14 of the said inner wall 13b is formed in the same hue as the outer wall 13c side of the ring member 13. FIG. Thereby, since the inner wall 13b side and the outer wall 13c side of the ring member 13 are unified with the same hue, the texture of the tachometer T can be improved when not illuminated.

  Further, in the present embodiment described above, the light guide 15 having the emission surface 15 b that guides the light from the light emitting diode 10 to the scale 13 a is provided, and the color sheet 16 is provided on the dispersion surface 15 c of the light guide 15. Has been placed. In this invention, the light guide 15 guides light that repeats reflection in the light guide 15 to the emission surface 15b. The dispersion surface 15c is an area inside the light emission surface 15b in the light guide 15. It can be formed in any region. The color sheet 16 arranged on the dispersion surface 15c can be easily arranged on the rear side of the dial 2 in the display direction.

  In the present embodiment described above, the light guide 15 is formed in an annular shape or an arc shape along the circumferential direction of the arc-shaped scale 13 b, and is opposite to the dispersion surface 15 c of the light guide 15. It is preferable to arrange a casing 17 as a reflection portion on a side surface (hereinafter, rear surface) 15d. According to this, since the light guide 15 is formed in an annular shape or an arc shape along the circumferential direction of the arc-shaped scale 13b, the dispersion surface on which the color sheet 16 is arranged is guided to the annular or arc shape. It can be formed widely over the light body 15. In addition, since a reflecting portion that reflects the light source light toward the color sheet 16 is disposed on the rear surface 15d on the opposite side to the dispersion surface 15c, the light amount of the inner wall illumination light directed from the dispersion surface 15c to the inner wall 13b. Can be increased.

  As described above, since the inner wall 13b is illuminated by the inner wall illumination light without uneven brightness, uniform indirect illumination can be produced along the scale 13a and the inner wall 13b of the ring member 13.

  It is preferable that the reflection portion is formed by the casing 17 of the tachometer T. As a result, the casing 17 can obtain a reflecting portion function for emitting the inner wall illumination light from the dispersion surface 15 c of the light guide 15 with uniform brightness and a support function for supporting the annular or arcuate light guide 15. At the same time, the increase in the number of parts can be prevented.

  Further, in the present embodiment described above, the pointer portion 9c of the pointer 9 is disposed on the outer peripheral side of the dial plate 2 as the pointer structure, and the support arm portion 9a that supports the pointer portion 9c is provided on the outer periphery of the dial plate 2. In this structure, the gap 12 between the ring portion 13 and the inner wall 13b of the ring member 13 is inserted and rotated along the gap.

  Accordingly, a display device capable of displaying information related to vehicle information, for example, other than the display design such as the character 2a indicated by the pointer 9 in the central portion of the display space of the dial 2 can be arranged. Is possible.

  As the display device, it is preferable that the liquid crystal display 1 is disposed in the opening window 2 b of the dial 2.

  In this invention, as the display device, the liquid crystal display 1 has a wide degree of freedom in selecting information display displayed on the screen, or can display a plurality of information simultaneously or sequentially as the information display. As a result, it is possible to provide a tachometer T that makes effective use of the display space and provides the driver with a novel display image and appearance.

(Other embodiments)
(1) In the present embodiment described above, the vehicle meter is the tachometer T. However, the present invention is applied to another vehicle meter, for example, a speed meter that displays the traveling speed or a fuel meter that displays the remaining fuel amount. It may also be applied to a combination meter in which these instruments are combined.

  (2) In the present embodiment described above, as a pointer structure, a U-shape is inserted through the gap between the outer peripheral portion of the dial 2 and the inner wall 13b of the ring member 13 and rotated by the internal unit 8 along the gap. However, the present invention is not limited to this, and the pointer 9 may be rotated at the center of the dial. That is, the pointer structure is such that the fulcrum of the pointers 9 and 109 rotated by the internal unit is on the outer peripheral side of the dial plate 2 (tachometer T in FIG. 6), in the hole in the dial plate 102. The present invention can be applied to any structure (fuel gauge F in FIG. 6).

  (3) Although the light emitting diode 10 is used as the pointer illumination light source of the pointer 9, the scale illumination light source of the ring member 13, and the inner wall illumination light source in the present embodiment described above, the scale illumination light source and the inner wall illumination are used. Apart from the light emitting diode used for the pointer illumination light source, another light emitting diode may be used.

  (4) In the present embodiment described above, the light source for backlight of the liquid crystal display 1, the light source for character (indicator part) illumination of the dial plate, the scale illumination of the ring member 13, the light source for inner wall illumination, and the light source for pointer illumination The light emitting diodes are used, but at least one of these light emitting diodes may be replaced with another type of light source such as a light bulb, a discharge tube, an EL panel, or the like.

  (5) In the present embodiment described above, the liquid crystal display device 1 is disposed at the center of the dial plate 2, but this may be omitted.

It is a front view of the tachometer T by one Embodiment of this invention. It is the II-II sectional view taken on the line in FIG. It is the III-III sectional view taken on the line in FIG. It is a disassembled perspective view of the tachometer T by one Embodiment of this invention. It is a block diagram which shows the electric circuit structure of the tachometer T by one Embodiment of this invention. It is a perspective view which shows an example of the combination meter by other embodiment.

Explanation of symbols

1 Liquid crystal display 2 Dial (Display board)
2a characters (indicator, ideographic design)
2b Open window (display window)
3 1st light guide plate 31 1st light guide plate part 32 1st light guide plate part 33 shielding board 4 2nd light guide plate 5 bracket (a part of casing)
5a Shielding wall 8 Movement (inner machine)
8a Rotating shaft 9 Pointer 9a Support arm 9b Boss 9c Pointer 9d Counterweight 10 Light emitting diode (light source)
11 Printed circuit board 12 Gap 13 Ring member 13a Scale (display part)
13b Inner wall 14 Non-transparent colored layer 15 Light guide 15a Incident surface 15b Outgoing surface 15c Dispersing surface 15d Rear surface 16 Color sheet (colored transmitting member)
17 casing 21 ignition switch 22 battery 23 rotation sensor 24 distance sensor 25 light emitting diode 26 light emitting diode 60 controller (control circuit)
D Display unit T Tachometer

Claims (10)

A display board having a display design;
A ring member disposed on the outer peripheral side of the display plate and on the front side in the display direction of the display plate, and having a display portion made of a translucent material;
Comprising a light source for illuminating the front Symbol ring member from the display direction rear side, and
In the vehicle instrument that transmits the light source light incident from the light source on the rear side in the display direction at the display unit and reflects the light source light on the inner wall of the ring member,
Optical coloring means provided between the light source and the inner wall, and coloring the inner wall illumination light toward the inner wall of the light source light into a first hue different from the light source light ,
A light guide for guiding the light source light to the display direction rear side of the display unit;
The optical coloring means is provided on the light guide, and is disposed on a dispersion surface that emits a part of the light source light toward the inner wall in a traveling direction of the light source light guided through the light guide.
An emission surface that emits a part of the light source light so as to illuminate the display unit provided on the ring member is provided at a position different from the dispersion surface in the light guide. Vehicle instrument.   The vehicle instrument according to claim 1, wherein the optical coloring means is a colored transmission member that is disposed on the rear side in the display direction of the display board and has a light-transmitting layer.   3. The translucent colored layer colored with a second hue different from the first hue of the inner wall illumination light is formed on the inner wall. 4. Vehicle instrument.   The vehicular instrument according to claim 3, wherein a color tone of the opaque color layer is a light color system.   The vehicular instrument according to claim 3 or 4, wherein the opaque color layer of the inner wall has the same hue as the outer wall of the ring member. The light guide is formed in an annular or arc shape along the extending direction of the display unit,
In the light guide, a reflection part for reflecting the light source light guided through the light guide toward the optical coloring means is disposed on the rear surface opposite to the dispersion surface. The vehicular instrument according to any one of claims 1 to 5 . The vehicle instrument according to claim 6 , wherein the reflecting portion constitutes a casing of the vehicle instrument. Has the machine for rotating the guidelines,
The vehicular instrument according to any one of claims 1 to 7 , wherein the pointer is fixed to the internal unit and rotates on the front side in the display direction of the display board. The pointer includes a boss portion fixed to the rotation shaft of the internal unit, a support arm portion extending from the boss portion toward the outer peripheral side of the display plate, and a tip of the support arm portion from the tip of the support arm portion. A pointer portion extending along the display design,
The vehicle instrument according to claim 8 , wherein the support arm portion is disposed on an outer peripheral side of the display plate, and is inserted into a gap defined between the display plate and the inner wall of the ring member. . The display board includes a display window that exposes a display design different from the display design on an inner peripheral side,
The vehicle instrument according to claim 9 , wherein a liquid crystal display is disposed in the display window.

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