JP2017003521A - Display device and pointer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve appearance of a pointer and a display device.SOLUTION: A display device for a vehicle 10 comprises a first meter 31 and a second meter 32. The meters 31 and 32 include indications 47a and 47b and a pointer 48 for pointing the indications 47a and 47b. The pointer 48 has a pointer boss 71 supported by a pointer shaft part and an actual needle part 72 extending along a meter area 42 of the meters 31 and 32. The actual needle part 72 has a rear plate part forming a rear face thereof and a front plate part forming a front face thereof. A slit 79 is formed at the front plate part. The pointer boss 71 includes a light emission part emitting light so as to hit a front face of the rear plate part and a boss case storing the light emission part. Light emitted from the light emission part hits the rear plate part and thereby a light needle part is displayed on the front face of the rear plate part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a display device having an index and a pointer.

  Conventionally, a display device mounted on a vehicle or the like is known. For example, the display device described in Patent Document 1 includes a speedometer, and the speedometer includes a plurality of scales and a pointer indicating the scales. The pointer has a pointer main body made of a transparent light guide resin material and a pointer shaft that supports the pointer main body. The pointer main body is a solid elongated member. A light source is provided for the pointer body, and light from the light source enters the inside of the pointer body and travels through the interior of the pointer body so that the entire front surface of the pointer body emits light.

Japanese Patent Laid-Open No. 2003-121212

  However, in the configuration in which light is incident on the inside of the pointer main body, in order to uniformly emit the entire front surface of the pointer main body, it is necessary to make the pointer main body have a shape in which the light properly travels. And the degree of freedom in size is reduced. For this reason, there is room for improvement in improving the appearance of the pointer and the display device.

  The present invention has been made in view of the above problems, and an object thereof is to improve the appearance of a pointer and a display device.

  The technical means of the invention for achieving the object will be described below. The reference numerals in parentheses described in the scope of claims and this column disclosing technical means of the invention indicate the correspondence with the specific means described in the embodiment described in detail later. It is not intended to limit the technical scope of the invention.

The invention disclosed in order to solve the above problems
A display unit (11) for displaying the indicators (47a, 47b) forward;
A guideline (48) pointing to the indicator;
With
The guidelines are
An entity needle portion (72) as an entity extending along the display portion;
A light emitting part (77) for emitting light from the front side of the substance needle part toward the substance needle part;
Have
The light emitting part displays the light needle part (87) extending along the substance needle part and rotating in accordance with the substance needle part by the light emitted toward the substance needle part on the substance needle part. It is characterized by.

  According to this invention, since the light needle portion is displayed on the substantial needle portion, the shape and size of the light needle portion can be set without being limited to the shape and size of the substantial needle portion. For this reason, the appearance of a light needle part can be improved. In addition, since it is not necessary to make light incident on the inside of the substance needle part, the substance needle part can have a hollow structure or a thin plate structure. As a result, the weight of the substance needle part can be reduced. In this case, it is possible to reduce the size of the drive unit for rotating the substantial needle part and to increase the length of the substantial needle part. Therefore, it is possible to increase the degree of design freedom regarding the light needle part and the display device. Therefore, the appearance of the pointer and the display device can be improved.

The front view of the display apparatus for vehicles in a first embodiment. It is sectional drawing of the display apparatus for vehicles, Comprising: The II-II sectional view taken on the line of FIG. The front view of the display apparatus for vehicles around the pointer. FIG. 4 is a cross-sectional view of the pointer, taken along line IV-IV in FIG. 3. It is sectional drawing of a pointer | guide, Comprising: The VV sectional view taken on the line of FIG. The figure which shows a light needle part. The figure which shows the light which displays a light needle part. The front view of the display apparatus for vehicles around the pointer in a second embodiment. It is sectional drawing of a pointer | guide, Comprising: The IX-IX sectional view taken on the line of FIG. It is sectional drawing of a pointer | guide, Comprising: The XX sectional view taken on the line of FIG. The figure which shows a light needle part. The figure which shows the light which displays a light needle part.

  Hereinafter, a plurality of embodiments of the present invention will be described with reference to the drawings. In addition, the overlapping description may be abbreviate | omitted by attaching | subjecting the same code | symbol to the corresponding component in each embodiment. When only a part of the configuration is described in each embodiment, the configuration of the other embodiment described above can be applied to the other part of the configuration. In addition, not only combinations of configurations explicitly described in the description of each embodiment, but also the configurations of a plurality of embodiments can be partially combined even if they are not explicitly specified unless there is a problem with the combination. .

(First embodiment)
As shown in FIGS. 1 and 2, the vehicle display device 10 according to the first embodiment of the present invention is installed in an instrument panel in a vehicle cabin as a combination meter that displays vehicle information related to the vehicle. ing. In this case, the vehicle display device 10 is in a state in which the display side faces the seat side at the front position of the seat such as the driver's seat, and the vehicle information is forwarded with the seat side as the front for the vehicle display device 10. It is possible to display towards.

  The vehicle display device 10 includes a display plate 11 with the display surface facing the driver's seat, a display case 12 that supports the display plate 11, a turn-back member 13 provided on the front side of the display case 12, and a turn-back. And a cover 14 covering the open portion of the member 13 from the front. In the vehicle display device 10, a storage body that stores the display plate 11 is formed by the display case 12, the turning member 13, and the cover 14.

  In addition, the display board 11 has the display base material which formed the front surface, and the printing layer formed by printing on the rear surface of the display base material. The display substrate is formed in a plate shape from a polycarbonate resin or the like, and the printing layer is formed from a colorant, a colorant, and an additive. While the display substrate has translucency, the printed layer has light shielding properties, and in the display plate 11, there are portions having different translucency depending on the application mode of the printed layer. Yes.

  The light blocking ratio by the printing layer is set by the color shading. The printing layer of the present embodiment has a silver-based printing color, and the lower the saturation and lightness, the higher the light shielding rate. That is, the light shielding rate is higher in the portion of the silver-based color with low saturation and lightness than the color portion with high saturation and lightness.

  The vehicle display device 10 includes meters 31 and 32 arranged on the left and right, and an intermediate display unit 33 arranged between the meters 31 and 32. The meters 31 and 32 and the intermediate display unit 33 can display vehicle information. Specifically, the first meter 31 is a speedometer that displays the traveling speed of the vehicle as vehicle information, and is disposed at a position on the left side of the front view. The second meter 32 is a tachometer that displays the rotational speed of the vehicle engine as vehicle information, and is arranged at a position on the right side in a front view. The intermediate display unit 33 can display a navigation image, an image displayed on a side mirror, a remaining power level of a vehicle-mounted battery, a warning, and the like.

  The intermediate display unit 33 includes a rectangular liquid crystal panel 35 disposed on the rear side of the display plate 11 and a light shielding plate 36 that covers the rear surface and side end surfaces of the liquid crystal panel 35. The light shielding plate 36 has a light shielding property and restricts light from leaking rearward or sideward from the liquid crystal panel 35.

  The liquid crystal panel 35 is a TFT liquid crystal panel that includes a liquid crystal layer in which liquid crystal is held, a pair of electrodes disposed on both sides of the liquid crystal layer, a color filter substrate, and a pair of polarizing films. The electrode is a matrix electrode in which a row electrode and a column electrode are combined. The electrode is composed of a transparent electrode provided for each pixel, and a voltage applied to the electrode is controlled by a thin film transistor. The color filter substrate has a red filter, a green filter, and a blue filter, and each filter is arranged for each pixel (each electrode). In addition, a thin film transistor (TFT) (not shown) that turns on and off each pixel is provided. The polarizing film is a filter that transmits light that vibrates in a predetermined direction and restricts the vibration direction of the light to a predetermined direction. The pair of polarizing films are arranged so that the vibration direction is shifted by 90 degrees. This TFT liquid crystal panel has a known structure.

  The display board 11 includes an intermediate region 41 included in the intermediate display unit 33, a plurality of meter regions 42 included in the meters 31 and 32, and a decorative region provided on the outer peripheral side of the intermediate region 41 and the meter region 42. 44 and an outer peripheral region 45 provided further on the outer peripheral side of the decoration region 44.

  The intermediate region 41 is formed in a flat plate shape and overlaps the front surface of the liquid crystal panel 35. In the intermediate area 41, since the printing layer is not provided, the translucency of the display board 11 is set high, and the image of the liquid crystal panel 35 can be viewed from the front through the display board 11. The intermediate region 41 serves as a protective plate that protects the display surface of the liquid crystal panel 35.

  The meter region 42 is a flat plate portion formed in a circular shape, and extends from the intermediate region 41 toward the side. In this case, the front surface 42a of the meter region 42 is a flat surface, and the front surface 42a and the front surface 41a of the intermediate region 41 form the same plane. The meter area 42 has a substantial area portion 42 b that is not overlaid on the display surface of the liquid crystal panel 35 and a liquid crystal area portion 42 c that is overlaid on the display surface of the liquid crystal panel 35. Each of these region portions 42b and 42c has a shape surrounded by an arc and a string, and the width of the substantial region portion 42b is larger than that of the liquid crystal region portion 42c. In this case, the center line O of the meter region 42 is included in the substantial region portion 42b.

  In the display plate 11, a portion overlapping the display surface of the liquid crystal panel 35 has the same rectangular shape as the display surface, and the rectangular portion has an intermediate region 41 and a liquid crystal region portion 42c. It will be.

  The meters 31 and 32 have indicators 47a and 47b such as scales and numbers, and a pointer 48 indicating the indicators 47a and 47b. A plurality of indicators 47a and 47b are arranged along the peripheral edge of the meter region 42, and are formed by non-installed portions of the print layer. The indicator 47a is the entity side indicator 47a included in the entity region portion 42b, and the indicator 47b is the liquid crystal side indicator 47b included in the liquid crystal region portion 42c. The indicators 47a and 47b have the same shape and size and the same type of numbers, and the installation intervals are uniform.

  The display board 11 corresponds to a display unit that displays the indicators 47a and 47b forward. Further, the meter area 42 can be referred to as an index portion, an index board, or a dial having indices 47a and 47b.

  The decoration area 44 as a whole extends obliquely forward toward the outer peripheral side, and has an elliptical cylindrical shape. The inner peripheral surface 44a of the decorating region 44 is directed obliquely forward on the inner peripheral side as a whole, and the decorating region 44 extends along the peripheral portions of the intermediate region 41 and the meter region 42.

  The vehicle display device 10 includes a circuit board 51 accommodated in the display case 12 behind the display board 11. A drive unit 52 for rotating the pointer 48 is attached to the circuit board 51. The drive unit 52 is connected to the pointer 48 by a pointer shaft portion 53, and the pointer shaft portion 53 penetrates both the circuit board 51 and the display board 11.

  In addition, the vehicle display device 10 includes a meter light emitting unit 55 as a light source provided at a rear position of the meter region 42, and a light guide plate 56 that emits light from the meter light emitting unit 55 toward the display plate 11. ing. The meter light emitting unit 55 has a plurality of LEDs having different emission colors as light emitters, and is mounted on the front surface of the circuit board 51.

  The light guide plate 56 is formed in a flat plate shape, and is disposed at a position behind the meter area 42 and the decoration area 44. In the light guide plate 56, when the light of the meter light emitting unit 55 enters from the rear surface, the light travels through the inside, and the entire front surface of the light guide plate 56 emits light with substantially the same brightness. In this case, almost the entire meter area 42 is uniformly illuminated from behind by the light of the meter light emitting unit 55. The light guide plate 56 is overlaid on the rear surface of the meter region 42.

  When the meter light-emitting unit 55 emits light, the entity side indicator 47a is displayed by emitting the light forward. On the other hand, the liquid crystal side index 47b emits light by light emitted from the liquid crystal panel 35 along with image display. In this case, on the liquid crystal panel 35, an image that emits substantially the same luminance and color as the light from the light guide plate 56 is displayed at the rear position of the liquid crystal side index 47b.

  The vehicle display device 10 includes a decorative ring portion 61 that extends along the peripheral edge of the meter region 42. The decoration ring portion 61 is provided for each of the meters 31 and 32 and is superimposed on the front surface 42 a of the meter region 42. In this case, the decoration ring portion 61 is in a state of being stretched over the substantial region portion 42b and the liquid crystal region portion 42c of the meter region 42. The decoration ring part 61 is formed of a light guide, and in the meter region 42, the rear part of the decoration ring part 61 is a light transmission part having a high light transmittance. For this reason, the decorative ring portion 61 can emit light by light from the meter light emitting unit 55 or the liquid crystal panel 35.

  As shown in FIGS. 3 and 4, the pointer 48 is disposed on the front side of the meter region 42 of the display board 11, and the rotation axis thereof overlaps the center line O of the meter region 42. The pointer 48 includes a pointer boss 71 supported by the pointer shaft portion 53 and a solid needle portion 72 extending along the display plate 11. The pointer boss 71 is formed in a short cylindrical shape as a whole, and the substantial needle portion 72 extends from the side surface of the pointer boss 71 toward the side. The substantial needle part 72 has a tapered shape as a whole, and the substantial dimension of the substantial needle part 72 gradually decreases as it approaches the tip part. The length dimension of the substantial needle part 72 from the center line O is smaller than the radius of the meter region 42, and the tip of the substantial needle part 72 passes through the front positions of the indicators 47a and 47b.

  The substance needle portion 72 includes a rear plate portion 73 that forms the rear surface thereof, a front plate portion 74 that forms the front surface thereof, a pair of side plate portions 75 that form the side surfaces thereof, and a front plate portion 76 that forms the front end surface. have. The rear plate portion 73 and the front plate portion 74 each extend in a direction intersecting with the meter region 42. In the rear plate portion 73, the separation distance with respect to the meter region 42 gradually increases as it approaches the tip portion, and in the front plate portion 74, the separation distance with respect to the meter region 42 gradually decreases as it approaches the tip portion. Yes. In this case, the separation distance between the rear plate portion 73 and the front plate portion 74 is gradually reduced as it approaches the distal end portion of the substantial needle portion 72. Further, the separation distance between the pair of side plate portions 75 is also gradually reduced as it approaches the tip end portion of the substantial needle portion 72. The rear plate portion 73 corresponds to a counter plate portion that faces the display plate 11.

  The inner peripheral surface of the substance needle portion 72 is a reflective surface having a high light reflectance. In particular, the front surface 73a of the rear plate portion 73 is formed by applying a retroreflective paint or ink, and has a bright color with high brightness and saturation. For this reason, when light is reflected by the front surface 73a of the rear plate portion 73, the reflection direction is unlikely to coincide with the line-of-sight direction of the user such as the driver. That is, it is difficult for the user to feel dazzling. In addition, the front surface 73a of the rear plate portion 73 may be formed by applying a white paint or a colored paint in accordance with the color of the outer peripheral surface of the substantial needle portion 72 or the like.

  The pointer boss 71 has a light emitting portion 77 that emits light so as to hit the front surface 73 a of the rear plate portion 73, and a boss case 78 that houses the light emitting portion 77. The boss case 78 has a circular plate-like boss base portion 78 a provided between the light emitting portion 77 and the display plate 11, and a boss cap 78 b that covers the light emitting portion 77 from the front. The boss cap 78b is a circular box portion opened rearward, and the open portion of the boss cap 78b is covered from the rear by the boss base portion 78a. The inner peripheral surface of the boss case 78 is a reflective surface having a high light reflectance. Further, the boss case 78 has a light shielding property and can prevent light leakage from the pointer boss 71 irrespective of the time zone of day and night.

  On the side surface of the boss cap 78b, an emission hole 78c for emitting light from the light emission part 77 to the substantial needle part 72 side is formed. The discharge hole 78 c communicates the internal space of the boss case 78 and the internal space of the substantial needle part 72, and the discharge hole 78 c is covered from the outside by the substantial needle part 72.

  The boss base part 78 a is provided with a taking hole 78 d for taking light into the light emitting part 77. The intake hole 78d is disposed on the opposite side of the discharge hole 78c with the pointer shaft 53 interposed therebetween, and opens the internal space of the boss case 78 toward the rear.

  The boss case 78 and the solid needle portion 72 are partially molded integrally with a synthetic resin material. Specifically, the boss base portion 78a of the boss case 78 and the rear plate portion 73 of the substantial needle portion 72 are integrally formed as a first member in a plate shape, and the boss cap 78b of the boss case 78 and the front plate of the substantial needle portion 72 are formed. The part 74, each side plate part 75, and the front end plate part 76 are integrally molded as a second member. The first member and the second member are assembled with each other. In this case, as shown in FIG. 5, in the substance needle portion 72, a pair of side plate portions 75 extend from the side end portion of the front plate portion 74 toward the display plate 11, A rear plate portion 73 is disposed on the rear plate portion 73.

  Returning to the description of FIGS. 3 and 4, in the substantial needle portion 72, the distal end plate portion 76 connects the distal end portion of the front plate portion 74 and the distal end portions of the pair of side plate portions 75. On the other hand, the front end plate portion 76 is provided with a hook portion 76a that is hooked on the front end portion of the rear plate portion 73 from below. The hook portion 76a extends from the lower end portion of the front end plate portion 76 toward the pointer boss 71. In this case, the front end plate portion 76 supports the front end portion of the rear plate portion 73 from below via the hook portion 76a. Will be. Thereby, it is suppressed that the front-end | tip part of the rear-plate part 73 spaces apart from a pair of side-plate part 75, and droops below.

  The front plate portion 74 of the substantial needle portion 72 is provided with a slit 79 extending in the longitudinal direction of the front plate portion 74. The slit 79 is an elongated through hole, and its width dimension gradually decreases as it approaches the tip of the substance needle 72. The width dimension and length dimension of the slit 79 are smaller than the width dimension and the length dimension of the rear plate portion 73. The inner peripheral surface 79a of the slit 79 is a reflective surface having a high light reflectance.

  Behind the pointer boss 71, light emitting units 81 a and 81 b that allow light to enter the light emitting portion 77 are provided. The light emitting units 81a and 81b are mounted on the front surface of the circuit board 51, and like the meter light emitting unit 55, the light emitting units 81a and 81b have a plurality of LEDs having different emission colors as light sources and emit light in a predetermined color. . The light emitting units 81 a and 81 b are arranged along the radial direction of the meter region 42, and the second light emitting unit 81 b is disposed between the first light emitting unit 81 a and the pointer shaft portion 53. The light emitting units 81a and 81b are not shown in FIG.

  The display plate 11 and the light guide plate 56 are provided with through holes 82 for allowing light from the light emitting units 81 a and 81 b to pass toward the pointer boss 71. The through hole 82 is disposed between the light emitting units 81a and 81b and the intake hole 78d of the boss case 78, and makes the light emitting portion 77 and the light emitting unit 81a face each other together with the intake hole 78d. The through hole 82 is covered from the front by a boss cap 78b, and the light from the light emitting units 81a and 81b is prevented from leaking forward from the through hole 82 by the boss cap 78b.

  The light emitting unit 77 includes light entering units 83a and 83b that take in the light of the light emitting units 81a and 81b, light emitting units 84a and 84b that emit light to the outside, and light emitting units from the light entering units 83a and 83b therein. 84a and 84b have guide portions 85a and 85b for guiding light. In the pointer 48, light is emitted from the light emitting portions 84a and 84b along the extending direction of the substantial needle portion 72, and the light emitting portion 77 extends along the light emitting direction N. It has a horizontally long shape. The discharge direction N passes through the center line O.

  Of the light incident portions 83a and 83b, the first light incident portion 83a is disposed in front of the first light emitting unit 81a, and light from the first light emitting unit 81a is incident on the first light incident portion 83a. . The second light incident portion 83b is disposed in front of the second light emitting unit 81b, and light from the second light emitting unit 81b is incident on the second light incident portion 83b. In this case, the light incident portions 83 a and 83 b are arranged along the emission direction N on the rear surface of the light emitting portion 77. The first light incident portion 83 a is disposed on the opposite side of the light emitting portion 77 from the substance needle portion 72, and the second light incident portion 83 a is disposed between the first light incident portion 83 a and the pointer shaft portion 53. ing. Each of the first light incident part 83a and the second light incident part 83b faces obliquely rearward on the opposite side to the substance needle part 72, and a step part is formed between the light incident parts 83a and 83b. Yes.

  A plurality of light emitting units 81a and 81b are arranged at predetermined intervals along the rotation direction of the pointer shaft portion 53, respectively. For this reason, regardless of the rotation angle of the pointer 48, the light from one of the plurality of light emitting units 81 a and 81 b is incident on the light incident portions 83 a and 83 b of the light emitting portion 77.

  The light exit portions 84a and 84b are arranged on the side surface of the light emitting portion 77 on the substantial needle portion 72 side, and are arranged in the front-rear direction. On the side surface of the light emitting portion 77, the first light emitting portion 84a is disposed on the front side of the second light emitting portion 84b, and the first light emitting portion 84a protrudes closer to the substantial needle portion 72 side than the second light emitting portion 84b. It is arranged at the position. In this case, a step portion is formed between the first light exit portion 84a and the second light exit portion 84b.

  Of the guide portions 85a and 85b, the first guide portion 85a is disposed at a position in front of the first light incident portion 83a and aligned with the first light exit portion 84a along the emission direction N. The second guide portion 85b is disposed at a position in front of the second light incident portion 83b and aligned with the second light exit portion 84b along the emission direction N. The guide portions 85 a and 85 b are arranged along the emission direction N on the front surface of the light emitting portion 77. Both the first guide portion 85a and the second guide portion 85b face obliquely forward on the opposite side to the substance needle portion 72, and a step portion is formed between the guide portions 85a and 85b.

  The guide portions 85a and 85b have a curved shape with the central portion bulging outward, and the light reflected by the guide portions 85a and 85b is focused in both the front-rear direction and the left-right direction. In addition, the light exit portions 84a and 84b have a shape that promotes focusing of light, such as a convex lens shape or a convex Fresnel lens shape.

  The vehicle display device 10 includes a light shielding unit 86 that regulates the incidence of light from the light emitting units 81 a and 81 b to the light guide plate 56. The light shielding portion 86 is a plate material with high light shielding properties, and is provided in a state of being spanned between the circuit board 51 and the light guide plate 56. The light shielding portion 86 is formed in a cylindrical shape and is in a state of entering the inside of the through hole 82. In this case, in each of the display plate 11 and the light guide plate 56, the outer peripheral surface of the light shielding portion 86 is superimposed on the inner peripheral surface of the through hole 82, so that the light guide plate 56 is not exposed to the light emitting units 81a and 81b. ing. For this reason, even if all of the light emitting units 55, 81 a, 81 b emit light, the light is prevented from entering the light guide plate 56 and being mixed in the light guide plate 56. That is, in the light guide plate 56, it is possible to restrict color mixing between the light of the meter light emitting unit 55 and the first light emitting unit 81a and the second light emitting unit 81b.

  As shown in FIGS. 6 and 7, when the light emitting units 81a and 81b emit light, the light from these light emitting units 81a and 81b is incident on the inside of the light emitting part 77 from the light incident parts 83a and 83b, and is guided. The light is reflected by 85a and 85b and emitted from the light exit portions 84a and 84b. In this case, the guide portions 85a and 85b and the light exit portions 84a and 84b are shaped to focus the light, so that the light travels through the internal space of the substance needle portion 72 to the rear plate portion 73. By reaching, the light needle portion 87 is displayed on the front surface 73 a of the rear plate portion 73. The light needle portion 87 has substantially the same size and shape as the front surface 73a, and the display range of the light needle portion 87 is substantially the entire front surface 73a.

  In FIG. 6, the internal structure of the pointer 48 is illustrated by omitting the illustration of the second member such as the boss cap 78b.

  The light needle portion 87 has a first needle formation image 88a displayed by the first light B1 emitted from the first light emitting unit 81a and a second light B2 emitted by the second light emitting unit 81b. A needle formation image 88b. These formed images 88a and 88b both extend along the emission direction N and are arranged in series in the emission direction N in a continuous state. The first needle formation image 88 a forms the distal end portion of the light needle portion 87, and the second needle formation image 88 b forms the proximal end portion of the light needle portion 87. The length dimension of the first needle formation image 88 a is larger than the length dimension of the second needle formation image 88 b, and the total of these length dimensions is the length dimension of the light needle portion 87. In FIG. 6, the light needle portion 87 is illustrated by hatching, and the first needle formation image 88 a and the second needle formation image 88 b have different hatching directions.

  In the light emitting part 77, the first light B1 is incident from the first light incident part 83a, guided to the first light outgoing part 84a by the first guide part 85a, and then from the first light outgoing part 84a to the rear plate part 73. Is released towards. The second light B2 is incident from the second light incident part 83b, guided to the second light output part 84b by the second guide part 85b, and then directed to the rear plate part 73 from the second light output part 84b. Rather than the pointer boss 71.

  In the light emitting section 77, the incident angle of light from the light emitting units 81a and 81b to the light incident sections 83a and 83b, the reflection angle of light at the guide sections 85a and 85b, and the emission angle of light from the light emitting sections 84a and 84b. Is set as appropriate. As a result, the luminance of the light needle portion 87 is uniform over the entire front surface 73 a of the rear plate portion 73.

  Needle formation images 88a and 88b are gradually reduced in width toward the respective tip portions, and in the light needle portion 87, the width dimensions of the first needle formation image 88a and the second needle formation image 88b are respectively. These are the same at the boundary between the needle formation images 88a and 88b. Further, the needle formation images 88a and 88b are virtual images displayed so as to be visible by projecting light onto the front surface 73a of the rear plate portion 73, and the light needle portions 87 displayed by these virtual images are referred to as virtual image needle portions. It can also be called. The first needle formation image 88a corresponds to the first needle portion, and the second needle formation image 88b corresponds to the second needle portion.

  When the light emitting units 81a and 81b emit light, the light emitted from the light emitting portions 84a and 84b of the light emitting portion 77 enters the inside of the substantial needle portion 72, and other light is substantial from the boss case 78. The needle portion 72 may enter the inside. As other light, light which has not entered the light incident portions 83a and 83b of the light emitting portion 77 among the light from the light emitting units 81a and 81b, or leaks outside the light emitting portion 77 from the guide portions 85a and 85b. The light that came out is mentioned. These lights are easily reflected, diffused, and scattered in the boss case 78 so that the light enters the actual needle portion 72 easily. In this case, the light that has entered the inside of the substantial needle portion 72 is likely to hit the inner peripheral surface 79a of the slit 79, and the light edge portion that trims the light needle portion 87 when the user views the substantial needle portion 72 from the front. 89 is displayed on the inner peripheral surface 79a with high luminance.

  In the actual needle portion 72, the distance between the rear plate portion 73 and the front plate portion 74 and the distance between the pair of side plate portions 75 are gradually decreased as the distance from the distal end portion of the actual needle portion 72 is approached. Thus, the luminance of the light edge portion 89 is likely to be uniform throughout the slit 79.

  The operational effects of the first embodiment described so far will be described below.

  According to the first embodiment, since the light needle portion 87 is displayed on the front surface 73a of the rear plate portion 73 in the substantial needle portion 72, a hollow structure of the substantial needle portion 72 can be realized. In this case, the substantial needle portion 72 is reduced in weight, so that the drive unit 52 can be reduced in size. For this reason, the design freedom regarding the light needle part 87 and the display apparatus 10 for vehicles can be raised. Therefore, the appearance of the vehicle display device 10 can be enhanced by using the light needle portion 87.

  According to the first embodiment, since it is not necessary to make light incident inside the rear plate portion 73 of the substantial needle portion 72, the rear plate portion 73 can be thinned. In this case, by bringing the display position of the light needle portion 87 closer to the display plate 11, the light needle portion 87 can bring out a sense of speed, and the appearance of the light needle portion 87 can be enhanced.

  According to the first embodiment, the separation distance between the rear plate portion 73 and the display plate 11 is gradually increased as the distance from the front end portion of the substantial needle portion 72 is increased, so that the front surface 73a of the rear plate portion 73 is light. It faces diagonally forward on the discharge part 77 side. For this reason, the light from the light emitting portion 77 can easily hit the entire front surface 73 a of the rear plate portion 73. In this case, since the brightness of the light needle portion 87 is made uniform in the rear plate portion 73, the visibility of the light needle portion 87 can be ensured appropriately. For example, in the configuration in which the front surface 73a of the rear plate portion 73 does not face the light emitting portion 77 side, there is a concern that the luminance of the light needle portion 87 is lowered on the front end side of the rear plate portion 73, that is, the visibility is lowered. Is done.

  According to the first embodiment, since the slit 79 is provided in the front plate portion 74 in the solid needle portion 72, the portion of the light needle portion 87 that is visually recognized forward can be limited by the slit 79. For this reason, by making the slit 79 thinner, it is possible to realize both improvement in strength of the substantial needle portion 72 and improvement in appearance of the light needle portion 87. In addition, since the light edge 89 is displayed on the inner peripheral surface 79a of the slit 79 by the light emitted to the internal space of the substance needle 72, the visibility and appearance of the light needle 87 can be improved. Therefore, even if it is the structure by which the light needle part 87 was displayed by light, the visibility of the light needle part 87 can be improved irrespective of the time zone of day and night.

  According to the first embodiment, the separation distance between the rear plate portion 73 and the front plate portion 74 gradually decreases as it approaches the distal end portion of the substantial needle portion 72, and thus is closer to the distal end portion of the substantial needle portion 72. The portion is more likely to cause light reflection, diffusion and scattering between the plate portions 73 and 74. In this case, since the brightness of the light edge 89 displayed on the inner peripheral surface 79 a of the slit 79 is suppressed from decreasing on the distal end side of the substantial needle part 72, the light edge part in the entire light needle part 87. The outline by 89 can be clarified.

  According to the first embodiment, the separation distance between the pair of side plate portions 75 gradually decreases as the distance from the distal end portion of the substantial needle portion 72 increases. Light reflection, diffusion, and scattering are likely to occur between the portions 75. For this reason, the outline by the light edge portion 89 can be clarified in the entire light needle portion 87.

  According to the first embodiment, the light incident on the inside of the light emitting portion 77 is guided to the light emitting portions 84a and 84b by the guide portions 85a and 85b, so that the light emitted from the light emitting portions 84a and 84b is appropriately focused. Can be made. For this reason, the visibility of the light needle part 87 can be improved.

  According to the first embodiment, since the light for displaying the light needle portion 87 is applied to the rear plate portion 73 of the substantial needle portion 72, the brightness of the light needle portion 87 can be increased regardless of the rotation angle of the substantial needle portion 72. The color can be maintained properly. On the other hand, for example, in a configuration in which light is applied to the meter region 42, the rotation angle of the substantial needle portion 72 is an angle between the light needle portion 87 and the substantial region portion 42b and the liquid crystal region portion 42c. In addition, in the light needle portion 87, the portion where the light is applied to the substantial region portion 42b and the portion where the light is applied to the liquid crystal region portion 42c, the light reflection mode or There are concerns that the colors are different. In this case, the visibility and appearance of the light needle portion 87 are likely to deteriorate.

(Second embodiment)
In the first embodiment, the substantial needle portion 72 has an internal space. However, in the second embodiment, the substantial needle portion 72 is formed in a plate shape, and thus has no internal space.

  As shown in FIGS. 8, 9, and 10, the substance needle portion 72 includes a base plate portion 91 that forms the front surface thereof, and a rib 92 that extends rearward from the base plate portion 91. . The base plate portion 91 has substantially the same size and shape as the rear plate portion 73 of the first embodiment, and the ribs 92 are provided as a pair on both side ends of the base plate portion 91. Each rib 92 extends along the longitudinal direction of the base plate portion 91 and has substantially the same length as the base plate portion 91. In the substance needle part 72, since the strength is enhanced by the rib 92, the base plate part 91 can be elongated and thinned.

  The base plate portion 91 extends in parallel with the display plate 11 and corresponds to a counter plate portion that faces the display plate 11. In this case, the separation distance between the base plate portion 91 and the display plate 11 is uniform in the longitudinal direction of the substantial needle portion 72. Further, the thickness dimension of the base plate portion 91 is uniform in the longitudinal direction, and the front surface 91a of the base plate portion 91 and the front surface 42a of the meter region 42 are parallel to each other. Further, the projecting dimension of the rib 92 from the base plate part 91 is uniform in the longitudinal direction of the substantial needle part 72, and the projecting dimension is the same for the pair of ribs 92.

  In the rib 92, the width dimension gradually decreases as it approaches the tip of the substance needle portion 72. Further, the separation distance between the pair of ribs 92 gradually decreases as the distance from the distal end portion of the substantial needle portion 72 increases. In this case, since the weight of the rib 92 is smaller in the portion closer to the distal end portion of the substantial needle portion 72, the distal end portion of the substantial needle portion 72 is bent downward due to the presence of the rib 92 for reinforcement. It is hard to happen.

  In the present embodiment, the light guide plate 56 is not provided behind the display plate 11. In this case, in the meter area 42, the indicators 47a and 47b are provided in an identifiable manner without requiring light emission display. Specifically, the indicators 47a and 47b have a different color from the other parts. The indicators 47a and 47b may be formed by convex portions protruding forward from the display board 11.

  As shown in FIGS. 11 and 12, when the light emitting units 81 a and 81 b emit light, the light needle portion 87 is displayed on the entire front surface 91 a of the base plate portion 91. In this case, unlike the first embodiment, the lights B1 and B2 from the light emitting units 81a and 81b do not travel through the internal space of the substantial needle part 72 but travel in the air at a position in front of the substantial needle part 72. become. In the light needle portion 87, the second needle formation image 88b is disposed on the side closer to the pointer boss 71 in a state where the front surface 91a of the base plate portion 91 is divided into two in the longitudinal direction, and the second needle formation image 88b is disposed on the side far from the pointer boss 71. A one-needle formation image 88a is arranged.

  As in the first embodiment, the boss case 78 and the substance needle portion 72 are partially integrally formed of a synthetic resin material. Specifically, the boss base portion 78a of the boss case 78, the base plate portion 91 and the rib 92 of the solid needle portion 72 are integrally molded as a first member in a plate shape, and the boss cap 78b of the boss case 78 is the second member. Molded. In this case, the number of constituent elements of the second member is smaller than that of the first embodiment because the substantial needle portion 72 does not have members such as the front plate portion 74, the side plate portion 75, and the tip plate portion 76. . For this reason, it is possible to realize an inexpensive plate configuration that can reduce the cost burden when manufacturing the solid needle portion 72 and the boss case 78.

  According to the second embodiment, since the solid needle portion 72 is formed in a plate shape by the base plate portion 91, the light needle portion 87 is displayed on the front surface 91 a of the base plate portion 91. The display position 87 can be as close as possible to the display plate 11. Moreover, since the front surface 91a of the base plate portion 91 and the front surface 42a of the meter region 42 extend in parallel, the atmosphere in which the light needle portion 87 moves so as to slide along the meter region 42 when the pointer 48 rotates. Can be given to users. For this reason, the feeling of speed created by the light needle portion 87 can be enhanced.

  According to the second embodiment, as described in the first embodiment, when the pointer 48 is formed by combining the first member and the second member, the substantial needle portion 72 is the first member in the second member. The front plate portion 74, the side plate portion 75, and the tip plate portion 76 of the embodiment are not provided. For this reason, further weight reduction of the substance needle part 72 is realizable.

(Other embodiments)
Although a plurality of embodiments of the present invention have been described above, the present invention is not construed as being limited to these embodiments, and various embodiments and combinations can be made without departing from the scope of the present invention. Can be applied.

  In the first modification, in the first embodiment, the entire front surface 73a of the rear plate portion 73 of the substantial needle portion 72 may be exposed forward. Examples of this configuration include a configuration in which the slit 79 has the same shape and size as the rear plate portion 73, and a configuration in which the substantial needle portion 72 does not have the front plate portion 74. According to these configurations, when the light needle portion 87 is displayed on the entire front surface 73a of the rear plate portion 73, the user can visually recognize the entire light needle portion 87. Further, in this configuration, the light emitted to the internal space of the substantial needle portion 72 hits the inner peripheral surface of the side plate portion 75, so that the light edge 89 is displayed on the inner peripheral surface.

  In Modification 2, in the first embodiment, the light emitted from the light emitting portion 77 may be applied to the front plate portion 74 instead of the rear plate portion 73. In other words, the counter plate portion on which the light needle portion 87 is displayed when light is applied may be the front plate portion 74. In this case, it is preferable that the front plate portion 74 is not provided with the slit 79. This is because the light needle portion 87 can be displayed on the entire front surface of the front plate portion 74.

  In the modified example 3, in the first embodiment, the separation distance between the rear plate portion 73 and the front plate portion 74 is gradually decreased as the tip portion of the substantial needle portion 72 is approached. It may gradually increase as it approaches the tip of the portion 72. Further, the separation distance may be substantially the same in the longitudinal direction of the substantial needle portion 72.

  In the modified example 4, in the first embodiment, the separation distance between the pair of side plate portions 75 is gradually decreased as the distance between the pair of side plate portions 75 approaches the distal end portion of the substantial needle portion 72. It may gradually increase as it approaches. Further, the separation distance may be substantially the same in the longitudinal direction of the substantial needle portion 72.

  In the modified example 5, in the first embodiment, the entire rear plate portion 73 as the counter plate portion is not an inclined portion inclined with respect to the display plate 11, but a part of the rear plate portion 73 is inclined. It may be part. For example, the rear plate portion 73 is arranged as an inclined portion that is inclined with respect to the display plate 11 and a parallel portion that extends parallel to the display plate 11, and the inclined portion is disposed on the front side of the parallel portion in the rear plate portion 73. The configuration is as follows. Even in this configuration, since the portion near the front end of the rear plate portion 73 is inclined, the light needle portion 87 can be appropriately displayed also on the front end portion of the rear plate portion 73. Note that the configuration in which the rear plate portion 73 has a parallel portion is the first part of the configuration of the second embodiment in which the base plate portion 91 as the opposing plate portion extends in parallel with the display plate 11. This can be realized by applying to the embodiment.

  In the modified example 6, in the second embodiment, the rib 92 of the substance needle portion 72 only needs to be provided in a manner that increases the strength of the base plate portion 91. For example, only one rib 92 may be disposed at the center position in the width direction of the base plate portion 91. Further, the rib 92 may protrude forward from the base plate portion 91. In this case, the light needle portion 87 is displayed by applying light to the rib 92 in addition to the front surface 91 a of the base plate portion 91, so that a three-dimensional effect can be imparted to the light needle portion 87. As a result, the appearance of the light needle portion 87 can be enhanced.

  In the modification 7, the substantial needle part 72 may be formed of a round bar member or a square bar member. Even in this case, the light needle portion 87 can be displayed on the substantial needle portion 72 by applying light to the substantial needle portion 72 from the front.

  In the modification 8, about the opposing board parts, such as the rear board part 73 of 1st embodiment, and the base board part 91 of 2nd embodiment, it is not necessary to display the light needle part 87 on the whole front surface. For example, in the width direction of the opposing plate portion, light is applied so that the light needle portion 87 is displayed only at an intermediate portion thereof. In this case, since the shape and size of the light needle portion 87 are appropriately set regardless of the shape and size of the opposing plate portion, the degree of freedom regarding the design of the light needle portion 87 can be increased. Thereby, the appearance of the display device 10 for vehicles by the light needle part 87 can be improved.

  In the modification 9, the light needle portion 87 may have one needle formation image instead of the two needle formation images 88a and 88b, and may have three or more needle formation images. It may be. For example, the light emission part 77 has a light incident part, a light emission part, and a guide part. Even in this configuration, the light needle portion 87 having the same shape and size as each of the above embodiments is adjusted by adjusting the light converging mode in the light exit portion and the guide portion, and the extended plate such as the rear plate portion 73 and the base plate portion 91 is used. Can be displayed on the screen.

  In Modification 10, the pointer boss 71 may have a plurality of light emitting portions 77. For example, the pointer boss 71 has a first light emitting portion and a second light emitting portion, and each of these light emitting portions has a light incident portion, a light exit portion, and a guide portion.

  In the modification 11, the shape and size of the light needle portion 87 may be variably set. For example, the light emitting units 81a and 81b are configured to emit light individually. In this configuration, if the light needle portion displayed when both of the light emitting units 81a and 81b emit light is referred to as the light long needle portion, the light needle portion displayed when only the second light emitting unit 81b emits light. It can be called a short needle part. In this case, the optical long needle portion is formed by the needle formation images 88a and 88b, and the optical short needle portion is formed by the second needle formation image 88b.

  In the twelfth modification, if the light emitting portion 77 is configured to display the light needle portion 87 by converging light incident from the light emitting units 81a and 81b and emitted from the light emitting portions 84a and 84b, the guide portion 85a. , 85b may not be provided. For example, in the emission direction N, the light emitting units 81a and 81b are arranged on the opposite side of the light exiting portions 84a and 84b with the light incident portions 83a and 83b interposed therebetween.

  In the modification 13, the light emission part 77 may have light sources, such as LED. In this case, if the configuration in which the light emitted from the light source through the light exit portions 84a and 84b is converged and the light needle portion 87 is displayed is realized, the light emitter 77 includes the light incident portions 83a and 83b and the guide portion. It is not always necessary to have 85a and 85b.

  In the modified example 14, the display device may not be mounted on the vehicle as the vehicle display device 10 as in each of the above embodiments, but may be mounted on an airplane, a ship, or the like. In short, the display device may be anything that can be mounted on a moving body.

DESCRIPTION OF SYMBOLS 10 ... Display apparatus for vehicles, 11 ... Display board, 47a ... Entity side index, 47b ... Liquid crystal side index, 48 ... Pointer, 72 ... Entity needle part, 73 ... Rear plate part, 73a ... Front surface, 74 ... Front plate part, 75 ... side plate part, 77 ... light emitting part, 79 ... slit, 79a ... inner peripheral surface, 83a ... first light incident part, 83b ... second light incident part, 84a ... first light exit part, 84b ... second light exit part 85a ... 1st guide part, 85b ... 2nd guide part, 87 ... Light needle part, 89 ... Light edge part.

Claims (9)

A display unit (11) for displaying the indicators (47a, 47b) forward;
A guideline (48) pointing to the indicator;
With
The guidelines are:
An entity needle portion (72) as an entity extending along the display portion;
A light emission part (77) for emitting light from the front side of the substance needle part toward the substance needle part;
Have
The light emitting portion displays a light needle portion (87) extending along the substantial needle portion and rotating in accordance with the substantial needle portion by light emitted toward the substantial needle portion. A display device characterized by being a thing. The substance needle part has an opposing plate part (73) facing the display part,
The said light emission part is displaying the said light needle part on the front surface of the said opposing board part by applying the emitted light to the front surface (73a) of the said opposing board part, The Claim 1 characterized by the above-mentioned. The display device described.   3. The display device according to claim 2, wherein a distance between the counter plate portion and the display portion is larger in a portion closer to a tip portion of the counter plate portion.   The display device according to claim 2, wherein the counter plate portion extends in parallel with the display portion. The substance needle portion has a front plate portion (74) provided on the front side of the counter plate portion in a state of facing the counter plate portion,
The front plate portion is provided with a slit (79) extending along the longitudinal direction of the front plate portion,
The light emitting portion applies light to the inner peripheral surface (79a) of the slit in addition to the front surface of the counter plate portion by emitting light directed between the counter plate portion and the front plate portion, The display device according to any one of claims 2 to 4, wherein the light edge portion (89) for trimming the light needle portion is displayed by the light impinging on the inner peripheral surface.   The display device according to claim 5, wherein a distance between the facing plate portion and the front plate portion is larger as a portion is closer to a tip portion of the facing plate portion. The substance needle portion is
The counter plate portion and the front plate portion are connected to each other, and have a pair of side plate portions (75) extending along the respective longitudinal directions of the counter plate portion and the front plate portion,
The display device according to claim 5, wherein the light emitting portion emits light toward the pair of side plate portions. The light emitting part is
A light incident part (83a, 83b) into which light from the light source is incident;
A light emitting part (84a, 84b) for emitting light toward the substance needle part to display the light needle part;
Guide portions (85a, 85b) for guiding light incident from the light incident portion to the light exit portion inside the light emitting portion;
The display device according to claim 1, wherein the display device is provided. A guideline (48) pointing to the indicator,
An entity needle (72) as an entity;
A light emission part (77) for displaying a light needle part (87) extending along the substance needle part on the substance needle part by emitting light so as to hit the substance needle part from the front;
A guideline characterized by comprising.

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