JP6575449B2 - Vehicle display device - Google Patents

Description

  The present invention relates to a vehicle display device mounted on a vehicle.

  In general, in a display device for a vehicle, a rotation pointer arranged to be rotatable in a circumferential direction in front of a display panel is rotationally driven by a drive unit. As a result, the rotation pointer indicates one of the display indexes formed side by side in the circumferential direction of the display panel so as to be visible from the front according to the rotation position.

  As a type of such a display device for vehicles, the one disclosed in Patent Document 1 is such that the light from the light source unit is guided by turning on the external light source unit fixed in position outside the rotation pointer, and the rotation pointer is visually recognized from the front. It emits light as possible. According to this, it is possible to ensure gazeability with respect to the emitted rotation pointer.

Japanese Patent Laid-Open No. 2003-121212

  However, in the vehicle display device disclosed in Patent Document 1, when the rotation pointer rotates in front of the numerical index among the display indexes, the numerical index is behind the rotation pointer that emits light entirely when the external light source unit is lit. It becomes difficult to see from the front. For this reason, there is a possibility that the notification performance may be reduced with respect to information that should be notified to the viewer by the rotation pointer indicating the numerical index.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a display device for a vehicle that ensures information reporting by a rotation indicator having improved gazeability indicating a display index. It is to provide.

  The technical means of the invention for achieving the object will be described below. The reference numerals in parentheses described in the claims and in this section disclosing the 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 vehicle display device (100) mounted on a vehicle,
A display panel (120) that displays a plurality of display indicators (124a, 124b, 125a, 125b) arranged in the circumferential direction so as to be visible from the front;
It is arranged so that it can rotate in the circumferential direction in front of the display panel and can indicate a display index. A transparent or semi-transparent rotating pointer (141, 2141),
A drive unit (150) for rotating the rotation pointer;
A control unit (170) for controlling the light emission state of the rotation pointer by the pointer light source unit and the rotation driving state of the rotation pointer by the drive unit;
The display panel
Forming a specific indicator (124a) as a display indicator in the specific display region (126) assumed along the circumferential direction;
The rotation pointer is
A specific light source unit (143a) as a pointer light source unit built in the rotation pointer in front of the specific display area;
An outer peripheral light source part (143b) as a pointer light source part built in the rotary pointer in front of the outer peripheral display area (127) assumed on the outer peripheral side of the specific display area in the display panel;
The display panel has an inner peripheral light source part (143c) as a pointer light source part built in the rotation pointer in front of the inner peripheral display area (128) assumed on the inner peripheral side of the specific display area. ,
When the rotation pointer is removed from the front position of the specific index (Mn), the control unit turns on the specific light source unit, the outer peripheral light source unit, and the inner peripheral light source unit,
When the rotation pointer is rotated to the front position of the specific index (Ms), the control unit turns on the outer light source unit and the inner light source unit and turns off the specific light source unit.

  According to such disclosed invention, when the rotation pointer is removed from the front position of the specific indicator formed in the assumed specific display area along the circumferential direction, the specific light source unit and the outer peripheral light source built in the rotation pointer Both the inner light source part and the inner light source part are lit. According to this, since it becomes difficult for light to be attenuated before reaching the viewer in front of all the light sources that are lit in the lighted rotation pointer, it is possible to improve the gaze on the rotation pointer. On the other hand, when the rotation pointer is rotated to a position ahead of the specific index formed in the specific display area, the outer light source unit and the inner light source unit are turned on, but the specific light source unit is turned off. Here, the built-in locations of the outer peripheral light source portion and the inner peripheral light source portion in the rotation pointer are the front locations relative to the assumed outer peripheral display region and inner peripheral display region on the outer peripheral side and the inner peripheral side of the specific display region, respectively. Will rotate. According to this, in the location where the specific light source unit is extinguished in the transparent or semi-transparent rotation pointer, the rear specific index can be visually recognized from the front without being substantially hidden. At the same time, the portion where the light emission is stopped in the rotation pointer is narrowed down to the built-in portion of the specific light source unit, so that a decrease in gazeability with respect to the rotation pointer can be suppressed. From the above, it is possible to ensure information reporting by the rotation pointer having improved gaze indicating the specific index.

It is a perspective view which shows the display apparatus for vehicles of 1st embodiment. It is the II-II sectional view taken on the line of FIG. It is a front view which expands and shows a part of display apparatus for vehicles in FIG. FIG. 3 is an enlarged cross-sectional view illustrating a part of a pointer unit and a drive unit in FIG. FIG. 3 is a front view showing the drive unit of FIG. 2. It is a front view which shows a part of rotation guide of FIG. It is the VII-VII sectional view taken on the line of FIG. It is a front view which shows the operation state different from FIG. 3 of the display apparatus for vehicles in FIG. It is a front view which shows a part of rotation pointer in 2nd embodiment. It is sectional drawing which expands and shows each one part of the pointer unit and drive unit in 2nd embodiment. It is a front view which shows the modification of FIG.

  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. Moreover, not only the combination of the configurations explicitly described in the description of each embodiment, but also the configuration of a plurality of embodiments can be partially combined even if they are not explicitly described, as long as there is no problem in the combination.

(First embodiment)
As shown in FIG. 1, the vehicle display device 100 according to the first embodiment of the present invention is mounted on a vehicle. The vehicle display device 100 is a combination meter that performs display for a viewer who is an occupant seated in a seat in the vehicle. For such display, the vehicle display device 100 is installed on an instrument panel in the vehicle. Here, “front” in the vehicle display device 100 indicates a direction in which display is performed for a viewer in the vehicle, that is, a viewer's viewing side.

  As shown in FIGS. 1 and 2, the vehicle display device 100 includes a display case 110, a display panel 120, a pointer unit 140, a drive unit 150, and a control unit 170. The display case 110 is configured from a plurality of resin members in a hollow box shape. The display case 110 forms a display window 111 that opens forward when installed on the instrument panel.

  The display panel 120 is a liquid crystal panel or an organic EL panel, for example, and is formed in a substantially rectangular plate shape as a whole. The display panel 120 is accommodated in the display case 110 and is held by the case 110. The display panel 120 has a screen 121 exposed forward through the display window 111. As shown in FIG. 1, the display panel 120 displays various color images such as the index images 122a and 122b and the background images 123a and 123b on the screen 121 so as to be visible from a front viewer. At this time, the screen 121 is transmitted and illuminated by the backlight built in the display panel 120 in the display state of the index images 122a and 122b and the background images 123a and 123b.

  As shown in FIGS. 1 and 3, the index images 122a and 122b form numerical indexes 124a and 124b and scale indexes 125a and 125b, respectively, as display indexes related to the vehicle. Here, in the present embodiment, an index image 122a for informing vehicle speed information of the vehicle is displayed on the circular display unit 121a set on one side of the screen 121 in the horizontal direction. The indicator image 122a is formed by arranging a plurality of numerical indicators 124a and scale indicators 125a corresponding to the vehicle speed information in the circumferential direction along the outer peripheral edge of the display portion 121a. On the other hand, an indicator image 122b for informing vehicle engine speed information is displayed on the circular display portion 121b set on the other side of the screen 121 in the horizontal direction. The index image 122b is formed by arranging a plurality of numerical indexes 124b and scale indexes 125b corresponding to the engine speed information in the circumferential direction along the outer peripheral edge of the display portion 121b.

  The background images 123a and 123b form the backgrounds of the corresponding index images 122a and 122b in the circular display portions 121a and 121b, respectively. In particular, in the circular display unit 121a of the present embodiment, a part of the background image 123a is displayed as a trajectory expression image 123at in order to improve gazeability with respect to the rotation pointer 141 described in detail later. . The trajectory expression image 123at is an image for expressing a trajectory of a specific portion, which will be described later in detail, on the rotation pointer 141 on the side opposite to the rotation side of the pointer 141. Here, in particular, the trajectory expression image 123at of the present embodiment is composed of a plurality of linear images arranged at intervals in the circumferential direction on the circular display unit 121a, and is opposite to the rotation side from the rotation position of the rotation pointer 141. It is displayed in the side range.

  The pointer unit 140 and the drive unit 150 shown in FIGS. 1 and 2 are provided one by one corresponding to each of the circular display portions 121a and 121b and having substantially the same configuration. In addition, a control unit 170 is provided in common with the pointer unit 140 and the drive unit 150 of each of the circular display portions 121a and 121b. Therefore, in the following description, the pointer unit 140 and the drive unit 150 will be described on the circular display portion 121a side as a representative, and the circular display portion 121b side will be described specifically with respect to the portions different from the circular display portion 121a side. In the following, the control unit 170 will be described as a representative of the relationship between the pointer unit 140 and the drive unit 150 on the circular display portion 121a side.

  As shown in FIGS. 1 to 5, the pointer unit 140 includes a rotation pointer 141 and a movable gear 142. The rotation pointer 141 is formed in an elongated plate shape that is transparent or semi-transparent as a whole (hereinafter simply referred to as “transparent or translucent”). The rotation pointer 141 is accommodated in front of the display panel 120 in the display case 110. As shown in FIGS. 1 to 3, the rotation pointer 141 is disposed so as to be rotatable in the circumferential direction of the display portion 121 a while maintaining a state of extending along the radial direction of the circular display portion 121 a. The rotation pointer 141 can indicate the formation indexes 124a and 125a of the index image 122a corresponding to its rotation position in order to display the vehicle speed information of the vehicle.

  As shown in FIGS. 4 to 7, the rotation pointer 141 has a plurality of pointer light source units 143 built therein. The pointer light source units 143 are arranged at equal intervals in the longitudinal direction of the rotation pointer 141 (that is, the radial direction of the circular display unit 121a). Each pointer light source unit 143 is formed in a size that is difficult for a viewer to visually recognize from the front (for example, a diameter of about 100 μm). However, in FIGS. 4 to 7, each pointer light source unit 143 is schematically drawn larger than the actual size in order to facilitate understanding of the description.

  Each pointer light source unit 143 is composed of LED light sources of three colors, which are red, green, and blue in this embodiment. Each pointer light source unit 143 is turned on in response to energization of at least one of the three color LED light sources, thereby causing the built-in portion of the rotation pointer 141 to emit light so that it can be viewed from the front viewer. Here, as shown in FIGS. 4, 6, and 7, each pointer light source unit 143 of the present embodiment is transparent or translucent translucent laminated on the rear with respect to the translucent or translucent translucent resin substrate 146. Between the resin films 147 and 149, it is embedded together with a transparent or translucent translucent electrode (not shown). Thereby, the attenuation of light from each pointer light source unit 143 can be suppressed and the emission intensity can be increased. Further, with respect to such light emission, each pointer light source unit 143 is turned off in response to the stop of energization to all three color LED light sources, thereby stopping light emission at its own built-in location in the rotation pointer 141. .

  As shown in FIG. 3, the pointer light source unit 143 on the circular display unit 121 a side is divided into three types corresponding to the display areas 126, 127, and 128 assumed in the display panel 120. Specifically, first, a display indicator is provided in the annular band-shaped specific display region 126 assumed along the circumferential direction of the circular display portion 121a (see, for example, the region separated by a two-dot chain line in FIG. 3). Among them, a numerical index 124a as a specific index is formed by the index image 122a, and a trajectory expression image 123at is displayed as necessary. A plurality of specific light source units 143 a are built in the rotation pointer 141 in front of the specific display area 126. Next, in the circular display portion 121a, an annular belt-shaped outer peripheral display region 127 assumed along the circumferential direction on the outer peripheral side of the specific display region 126 (for example, an area separated by a two-dot chain line in FIG. 3). In the reference), the scale index 125a among the display indices is formed by the index image 122a, and the trajectory expression image 123at is displayed. A plurality of outer peripheral light source parts 143b are built in the rotary pointer 141 in front of the outer peripheral display area 127. Furthermore, an annular belt-shaped inner peripheral display region 128 assumed along the circumferential direction on the inner peripheral side of the specific display region 126 in the circular display portion 121a (for example, a region separated by a two-dot chain line in FIG. 3) ), A trajectory expression image 123at is displayed. A plurality of inner peripheral light source parts 143c are built in the rotary pointer 141 in front of the inner peripheral display area 128. Note that the pointer light source unit 143 is not divided into three types on the circular display unit 121b side, and all the pointer light source units 143 are located in front of an area corresponding to the inner peripheral display region 128 on the circular display unit 121a side. Built in the rotary pointer 141.

  As shown in FIGS. 2 and 4, the rotation pointer 141 is provided with a pointer transmission portion 144 that covers each pointer light source portion 143 from the front. The pointer transmission part 144 is formed in an elongated block shape with a transparent or translucent translucent resin. The pointer transmitting portion 144 is disposed so as to be rotatable integrally with all the pointer light source portions 143 in front of the circular display portion 121a. The pointer transmitting portion 144 of the present embodiment transmits light from each of the lit pointer light source portions 143 as it is, thereby emitting light at the transmitting portion.

  As shown in FIGS. 2, 4, and 5, the movable gear 142 is formed in an annular plate shape from metal. The movable gear 142 is accommodated in the display case 110 in front of the display panel 120. The movable gear 142 exposes the circular display portion 121a on the inner peripheral side so that it can be viewed by a viewer in front. The movable gear 142 is disposed so as to be rotatable in the circumferential direction of the circular display portion 121a while maintaining the exposed state. As shown in FIGS. 4 and 5, the movable gear 142 forms an external gear portion 148 having a tip circle on the outer peripheral side of the root circle. At the same time, the movable gear 142 forms an annular groove-shaped guide rail 142a that opens forward on the front surface 142b facing forward. Furthermore, the movable gear 142 can rotate integrally with the pointer 141 by supporting the rotation pointer 141 in a part of the circumferential direction.

  As shown in FIGS. 2 and 4, the movable gear 142 is provided with a plurality of metal conduction terminals 145 that can rotate together via a rotation pointer 141. As shown in FIGS. 4, 6, and 7, each conduction terminal 145 protrudes in the form of an elongated plate behind the rotation pointer 141. Each conduction terminal 145 is electrically connected to the corresponding pointer light source unit 143 through the above-described translucent electrode in the rotary pointer 141.

  Specifically, the first conduction terminal 145a is electrically connected to the negative terminal of the red LED light source in each specific light source unit 143a. The 2nd conduction | electrical_connection terminal 145b is electrically connected with the minus terminal of the green LED light source in each specific light source part 143a. The third conduction terminal 145c is electrically connected to the negative terminal of the blue LED light source in each specific light source unit 143a. The fourth conduction terminal 145d is electrically connected to the negative terminal of the red LED light source in each of the outer peripheral light source units 143b and each of the inner peripheral light source units 143c. The fifth conduction terminal 145e is electrically connected to the negative terminal of the green LED light source in each of the outer peripheral light source units 143b and each of the inner peripheral light source units 143c. The sixth conduction terminal 145f is electrically connected to the negative terminal of the blue LED light source in each outer peripheral light source unit 143b and each inner light source unit 143c. The seventh conduction terminal 145g is electrically connected to plus terminals of all three color LED light sources in all the light source units 143a, 143b, and 143c. Note that the fourth to sixth conduction terminals 145d to 145f are not provided on the circular display portion 121b side, and the pointer light source portions 143 are first to third and third according to the specific light source portion 143a on the circular display portion 121a side. The seventh conduction terminals 145a to 145c are electrically connected.

  As shown in FIGS. 2, 4, and 5, the drive unit 150 includes a cover base 151, a decoration ring 152, an elastic member 153 and a bearing 154, a fixed contact 155, and an actuator 156. As shown in FIGS. 2 and 4, the cover base 151 is formed in an annular plate shape from resin. The cover base 151 is accommodated in the display case 110 in front of the display panel 120 and behind the movable gear 142, that is, between the elements 120 and 142. The base 151 is held by the display case 110. The cover base 151 exposes the circular display part 121a on the inner peripheral side so that it can be seen by a front viewer.

  The decorative ring 152 is formed in an annular plate shape from an opaque resin. The decoration ring 152 is accommodated in the display case 110 from the front of the movable gear 142 to the outer peripheral side. The decoration ring 152 is attached to the cover base 151 and is held by the display case 110 via the base 151. The decoration ring 152 covers the movable gear 142 provided with the conduction terminal 145 and the cover base 151 from the front and outer peripheral sides so as to be substantially invisible to the front viewer. On the other hand, the decoration ring 152 exposes the circular display part 121a to the inner peripheral side so that it can be visually recognized from the front viewer. The decorative ring 152 has a substantially U-shaped section that protrudes forward and continues in the circumferential direction, so that the exposed circular display portion 121a is three-dimensionally decorated as shown in FIG.

  As shown in FIG. 4, each of the plurality of elastic members 153 is formed in a curved plate shape from resin. Each elastic member 153 is accommodated from the front of the movable gear 142 to the outer peripheral side in the display case 110. The elastic members 153 are arranged at equal intervals in the circumferential direction of the circular display portion 121a. Each elastic member 153 is covered with the decorative ring 152 from the front side and the outer peripheral side, so that it is substantially invisible to the front viewer. Each elastic member 153 is held by the display case 110 via the base 151 by being attached to the cover base 151. Under such a holding state, each elastic member 153 has a substantially cross-sectional U-shape that curves forward, so that it can be elastically deformed.

  The plurality of bearings 154 are arranged along the outer peripheral edge of the circular display portion 121a and are arranged at equal intervals in the circumferential direction of the display portion 121a. Each bearing 154 is accommodated in the display case 110 in front of the movable gear 142. Each bearing 154 is covered with the decorative ring 152 from the front side and the outer peripheral side, so that it is substantially invisible to the front viewer. Each metal bearing 154 is formed in a disk shape as a whole, and the inner ring is supported by the corresponding elastic member 153. At the same time, each bearing 154 has an outer ring inserted into the guide rail 142a. Under such a configuration, the restoring force of each elastic member 153 acts on the movable gear 142 and the rotation pointer 141 via each bearing 154, so that the gear 142 and the pointer 141 are pressed against the base 151, and the circular display portion 121a and The concentric state of can be maintained.

  As shown in FIGS. 2 and 4, the plurality of fixed contacts 155 are formed in an annular plate shape from metal. Each fixed contact 155 is accommodated in a portion of the display case 110 that overlaps behind the corresponding conduction terminal 145. The fixed contacts 155 are arranged at equal intervals in the radial direction of the circular display portion 121a. Each fixed contact 155 is held by the display case 110 via the base 151 by being attached to the cover base 151. Accordingly, the positions of the fixed contacts 155 are fixed with respect to the display panel 120. Each fixed contact 155 can be electrically connected to the corresponding terminal 145 by being in sliding contact with the corresponding conductive terminal 145.

  As shown in FIGS. 2 and 5, the actuator 156 has a drive source 157 and a pair of drive gears 158 and 159. The drive source 157 is a stepping motor in this embodiment, and has a drive shaft 157a. The drive source 157 is housed in the display case 110 on the outer peripheral side of the movable gear 142, in particular, on the lower side of the movable gear 142 in this embodiment, and is held by the case 110. Each drive gear 158, 159 is formed in a spur gear shape from metal. The drive gears 158 and 159 respectively form external gear portions 158a and 159a having tooth tip circles on the outer peripheral side of the root circle. The drive gears 158 and 159 are accommodated between the movable gear 142 and the drive source 157 in the display case 110.

  Here, the first drive gear 158 is connected to the drive shaft 157a so as to be integrally rotatable. The second drive gear 159 is rotatably supported by the display case 110. The external gear portion 159 a of the second drive gear 159 is gear-connected to the external gear portion 158 a of the first drive gear 158 and the external gear portion 148 of the movable gear 142 by meshing. Under such a configuration, when rotational torque is applied to the drive shaft 157 a by the energized drive source 157, the drive gears 158 and 159 rotate to rotate the rotation pointer 141 integrally with the movable gear 142. It becomes.

  The control unit 170 shown in FIG. 2 is mainly composed of a microcomputer. The control unit 170 is disposed inside or outside the display case 110. The control unit 170 is electrically connected to each fixed contact 155, the display panel 120, and the drive source 157 by electrical connection. As a result, the control unit 170 causes each pointer light source unit 143 (that is, on the circular display unit 121a side) to be conducted through the stationary contact 155 and the conduction terminal 145, and the specific light source unit 143a and the outer light source unit 143b shown in FIGS. The light emission state of the rotating pointer 141 by the light source unit 143 is controlled by executing adjustment of energization to the inner peripheral light source unit 143c) as needed. At the same time, the control unit 170 controls the display state of various color images such as the images 122a and 123a on the panel 120 by outputting an energization command to the conductive display panel 120 as needed. Furthermore, the control unit 170 controls the rotational driving state of the rotation pointer 141 by the actuator 156 by outputting a power supply command to the conductive drive source 157 as needed. Here, on the circular display portion 121a side, vehicle speed information is input to the control unit 170 in order to control the rotation driving of the rotation pointer 141.

  Hereinafter, display control on the circular display unit 121a side by the control unit 170 will be described in detail.

  The control unit 170 executes the normal mode Mn as shown in FIG. 3 when the rotary pointer 141 is rotationally driven to the rotational position deviated from the front position of the numerical indicator 124a on the circular display portion 121a. Specifically, the control unit 170 in the normal mode Mn lights all the specific light source units 143a, the outer peripheral light source units 143b, and the inner peripheral light source units 143c. As a result, the rotation pointer 141 emits light at each of the specific light source part 143a, the outer light source part 143b, and the inner light source part 143c.

  Further, the control unit 170 in the normal mode Mn displays the trajectory expression image 123at in each of the specific display area 126, the outer periphery display area 127, and the inner periphery display area 128 in the circular display unit 121a. However, the display range of the image 123at is appropriately adjusted so that the trajectory expression image 123at is not superimposed on the numerical index 124a in the index image 122a. As a result, the trajectories of the specific light source unit 143a, the outer peripheral light source unit 143b, and the inner peripheral light source unit 143c are represented by the trajectory expression image 123at on the side opposite to the rotation side of the rotating rotation pointer 141. Become.

  Here, the display color of the locus expression image 123at in the normal mode Mn is set to the same system color as the emission color of each light source unit 143a, 143b, 143c, for example, blue, etc., so that the rotation pointer 141 and the locus expression image 123at are displayed. It is possible to increase the sense of unity with. In the normal mode Mn, the display color of the background image 123a other than the locus expression image 123at is set to a dark color such as black.

  On the other hand, the control unit 170 executes the special mode Ms as shown in FIG. 8 when the rotary pointer 141 is rotationally driven to the rotational position that is the front position of the numerical indicator 124a on the circular display portion 121a. Specifically, the control unit 170 in the special mode Ms turns on each outer light source unit 143b and each inner light source unit 143c, but turns off each specific light source unit 143a. Thereby, the rotation pointer 141 emits light at each of the built-in location of the outer peripheral light source unit 143b and the built-in location of the inner peripheral light source unit 143c, but the light emission is stopped at the built-in location of the specific light source unit 143a. In FIG. 8, the specific light source unit 143a is not shown in order to facilitate understanding of the description.

  Further, the control unit 170 in the special mode Ms displays the trajectory expression image 123at in each of the outer periphery display area 127 and the inner periphery display area 128 in the circular display portion 121a, but in the specific display area 126, the trajectory expression image 123at. To erase. Thereby, on the opposite side to the rotation side of the rotating rotation needle 141, the trajectories of the outer peripheral light source unit 143b and the inner peripheral light source unit 143c are expressed by the trajectory expression image 123at, but the trajectory of the specific light source unit 143a is It will be in the cut state.

  Here, the display color of the trajectory expression image 123at in the special mode Ms is set to the same system color as the emission color of each of the light source units 143b and 143c, for example, blue, in accordance with the case of the normal mode Mn. Even in the special mode Ms, the display color of the background image 123a other than the locus expression image 123at is set to a dark color such as black.

(Function and effect)
The effects of the first embodiment described above will be described below.

  According to the first embodiment, when the rotation pointer 141 is removed from the front position of the numerical indicator 124a formed in the assumed specific display area 126 along the circumferential direction, the specific light source unit built in the rotation pointer 141 143a, the outer periphery light source part 143b, and the inner periphery light source part 143c are all lit. According to this, since it is difficult for light to be attenuated before reaching the viewer in front of all the light sources 143a, 143b, 143c in the lit state in the lighted rotation pointer 141, it is possible to improve the gaze on the rotation pointer 141. . On the other hand, when the rotation pointer 141 is rotated to the front position of the number indicator 124a formed in the specific display area 126, the outer light source unit 143b and the inner light source unit 143c are turned on, but the specific light source unit 143a is Turns off. Here, the positions where the outer peripheral light source unit 143b and the inner peripheral light source unit 143c are built in the rotation pointer 141 are the outer peripheral display region 127 and the inner peripheral display region 128 assumed on the outer peripheral side and the inner peripheral side of the specific display region 126. On the other hand, the front part is rotated. According to this, at the built-in location of the specific light source unit 143a that is turned off in the transparent or translucent rotation pointer 141, the rear numerical index 124a can be viewed from the front without being substantially hidden. At the same time, the portion where the light emission is stopped in the rotation pointer 141 is narrowed down to the location where the specific light source unit 143a is built in, so that it is possible to suppress a decrease in gazeability with respect to the rotation pointer 141. From the above, it is possible to ensure the information informing property by the rotation pointer 141 having improved gazeability indicating the numerical index 124a.

  Further, according to the first embodiment, the index images 122a and 122b formed by arranging a plurality of display indexes including the numerical indexes 124a in the circumferential direction and the background images 123a and 123b forming the background thereof are visible from the front. The display state to be displayed is controlled by the control unit 170. According to this, even when the rotation pointer 141 is rotated to the front position of the numerical indicator 124a or out of the same position, the display state of the index images 122a and 122b and the background images 123a and 123b and the light emission state of the rotation pointer 141 are obtained. With this combination, it is possible to improve the gaze on the rotation pointer 141.

  Here, in particular, according to the first embodiment, when the rotation pointer 141 is rotated to the front position of the numerical indicator 124a, the outer peripheral display region 127 and the inner peripheral display region 128 are opposite to the rotation side, A trajectory expression image 123at representing the trajectories of the outer peripheral light source unit 143b and the inner peripheral light source unit 143c is displayed as a part of the background image 123a. Thereby, in the rotation pointer 141, the locus expression image 123at is tracked on the opposite side to the rotation side with respect to the built-in portions of the outer peripheral light source unit 143b and the inner peripheral light source unit 143c that are turned on on both sides of the extinguished specific light source unit 143a. Can be. On the other hand, when the rotation pointer 141 deviates from the front position of the numerical indicator 124a, the specific light source is located on the opposite side to the rotation side in each of the specific display area 126, the outer peripheral display area 127, and the inner peripheral display area 128. A trajectory expression image 123at representing the trajectories of the part 143a, the outer peripheral light source part 143b, and the inner peripheral light source part 143c is displayed as a part of the background image 123a. Thereby, in the rotation pointer 141, the locus expression image 123at can be made to follow on the opposite side to the rotation side with respect to all the built-in locations of the lit specific light source unit 143a, the outer peripheral light source unit 143b, and the inner peripheral light source unit 143c. From the above, regardless of whether the rotation pointer 141 is rotated to the front position of the numerical indicator 124a or deviated from the same position, the rotation pointer 141 depends on the combination of the display state of the locus expression image 123at and the light emission state of the rotation pointer 141. The gaze property can be improved.

  Furthermore, according to the drive unit 150 of the first embodiment, each fixed contact 155 fixed to the display panel 120 and electrically connected to the control unit 170 is connected to the conduction terminal 145 provided on the movable gear 142 of the pointer unit 140. Conducted by sliding contact. Here, a plurality of conduction terminals 145 are provided in correspondence with each fixed contact 155 in order to light the specific light source unit 143a, the outer peripheral light source unit 143b, and the inner peripheral light source unit 143c. Therefore, the control unit 170 can control the light emission of the rotation pointer 141 by being electrically connected to any one of the light source parts 143a, 143b, and 143c via each fixed contact 155 and each conduction terminal 145. Moreover, according to the drive unit 150, the actuator 156 that is electrically connected to the control unit 170 rotates the drive gears 158 and 159 linked to the movable gear 142 that supports the rotation pointer 141, so that the rotation pointer 141 is integrated with the movable gear 142. Driven by rotation. Therefore, the control unit 170 can also control the rotation driving of the rotation pointer 141. According to the above, in the configuration in which the light emission state of the rotation pointer 141 and the rotation driving state of the rotation pointer 141 are realized by the control of the control unit 170, the general-purpose display panel 120 is relatively small in front of the display panel 120. It can be constructed at low cost.

(Second embodiment)
As shown in FIGS. 9 and 10, the second embodiment of the present invention is a modification of the first embodiment.

  On the circular display portion 121a side of the second embodiment, as shown in FIGS. 9 and 10, the specific light source portion 143a, the outer peripheral light source portion 143b, and the inner peripheral light source portion 143c are in front of the corresponding display areas 126, 127, and 128, respectively. In the rotation pointer 2141 one by one. At the same time, on the circular display portion 121a side, as shown in FIGS. 9 and 10, it corresponds to the boundary of each region 126, 127, 128 between the pointer transmitting portion 2144 and the translucent resin film 147 in the rotating pointer 2141. The light shielding portions 2141a made of opaque resin are incorporated in the plurality of locations.

  In the rotary pointer 2141 on the circular display portion 121a side, a plurality of minute (for example, a height difference of about 300 μm) unevenness is provided on the front or back surface of the transparent or translucent pointer transmission portion 2144 so that light can be diffused. The pointer transmission part 2144 transmits and diffuses the light from each of the lit light source parts 143a, 143b, 143c through a plurality of projections and depressions in front of the corresponding regions 126, 127, 128, so that the emission variation in the rotation pointer 2141 is reduced. Enables suppression. Further, each of the light shielding portions 2141a shown in FIGS. 9 and 10 is such that the light from each of the light source portions 143a, 143b, 143c is subjected to the diffusing action of the pointer transmitting portion 2144 in front of the corresponding regions 126, 127, 128. , Enabling that suppression.

  Note that, on the circular display portion 121b side of the second embodiment, although not shown, a plurality of pointer light source units 143, which is smaller in number than in the case of the first embodiment, is provided on the rotation pointer 2141 having the pointer transmitting portion 2144. It will be built in.

  In such a rotation pointer 2141 of the second embodiment, the transparent or translucent pointer transmission part 2144 transmits light from each of the specific light source part 143a, the outer peripheral light source part 143b, and the inner peripheral light source part 143c through a plurality of front projections and depressions. By transmitting the light, the light is diffused. According to this, the light emitting area of the rotation pointer 2141 can be increased while any of the light source parts 143a, 143b, 143c built in the rotation pointer 2141 is accommodated in a small size. Therefore, the effect of improving the gazeability with respect to the rotation pointer 2141 can be enhanced together with the rotational driveability of the rotation pointer 2141.

(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.

  Specifically, as a first modification regarding the first and second embodiments, in the normal mode Mn, the trajectory expression image 123at is displayed in each of the outer periphery display region 127 and the inner periphery display region 128, but the specific display In the area 126, the trajectory expression image 123at may be deleted. As a second modification regarding the first and second embodiments, in the special mode Ms, the trajectory expression image 123at may be displayed in all of the specific display area 126, the outer periphery display area 127, and the inner periphery display area 128.

  As a third modification regarding the first and second embodiments, the trajectory expression image 123at may not be displayed in the normal mode Mn. As a fourth modification related to the first and second embodiments, the trajectory expression image 123at may not be displayed in the special mode Ms. As a fifth modified example related to the first and second embodiments, the trajectory expression image 123at has a diameter other than a plurality of linear images arranged in the circumferential direction on the circular display unit 121a, for example, on the circular display unit 121a as shown in FIG. It may be composed of a plurality of linear images arranged in the direction.

  As a sixth modification related to the first and second embodiments, the display color of the trajectory expression image 123at in the normal mode Mn may be set to a system color different from the emission color of each light source unit 143a, 143b, 143c. As a seventh modified example related to the first and second embodiments, the display color of the trajectory expression image 123at in the special mode Ms may be set to a system color different from the emission color of each of the light source units 143b and 143c.

  As a modified example 8 regarding the first and second embodiments, the scale index 125 a may be a specific index formed in the specific display area 126 instead of or in addition to the numerical index 124 a. As a ninth modified example related to the first and second embodiments, a configuration similar to the circular display portion 121a side may be employed on the circular display portion 121b side instead of or in addition to the circular display portion 121a side.

  As a tenth modification related to the first embodiment, only one of the specific light source unit 143a, the outer peripheral light source unit 143b, and the inner peripheral light source unit 143c may be incorporated in the rotation pointer 141. As a modified example 11 related to the second embodiment, a plurality of at least one of the specific light source unit 143a, the outer peripheral light source unit 143b, and the inner peripheral light source unit 143c may be incorporated in the rotation pointer 2141.

  As a twelfth modification related to the first and second embodiments, the rotation hands 141 and 141 may be driven to rotate by various mechanisms other than the speed reduction mechanism in which the movable gear 142 and the actuator 156 are combined. As a modification 13 related to the first and second embodiments, a display panel 120 in which the background color of the display index is not changed by printing or the like may be employed.

DESCRIPTION OF SYMBOLS 100 Display apparatus for vehicles, 120 Display panel, 122a, 122b Index image, 123a, 123b Background image, 123at Trajectory expression image, 124a, 124b Number index, 125a, 125b Scale index, 126 Specific display area, 127 Outer display area, 128 Inner circumference display area, 140 Pointer unit, 141, 2141 Rotation pointer, 142 Movable gear, 143 Pointer light source, 143a Specific light source, 143b Outer light source, 143c Inner light source, 144, 2144 Pointer transmission, 145 Conduction terminal 145a First conduction terminal, 145b Second conduction terminal, 145c Third conduction terminal, 145d Fourth conduction terminal, 145e Fifth conduction terminal, 145f Sixth conduction terminal, 145g Seventh conduction terminal, 150 Unit, 155 the fixed contact, 156 actuator, 158 the first drive gear, 159 a second drive gear, 170 control unit

Claims (6)

A vehicle display device (100) mounted on a vehicle,
A display panel (120) that displays a plurality of display indicators (124a, 124b, 125a, 125b) arranged in the circumferential direction so as to be visible from the front;
It is arranged in front of the display panel so as to be rotatable in the circumferential direction and capable of indicating the display index, and is visually recognized from the front by lighting of a built-in pointer light source unit (143, 143a, 143b, 143c). A transparent or translucent rotation pointer (141, 2141) that emits light,
A drive unit (150) for rotationally driving the rotation pointer;
A control unit (170) for controlling a light emission state of the rotation pointer by the pointer light source unit and a rotation driving state of the rotation pointer by the drive unit;
The display panel is
Forming a specific indicator (124a) as the display indicator in the specific display region (126) assumed along the circumferential direction;
The rotation pointer is
A specific light source unit (143a) as the pointer light source unit built in the rotation pointer in front of the specific display area;
An outer peripheral light source part (143b) as the pointer light source part built in the rotating pointer in front of the outer peripheral display area (127) assumed on the outer peripheral side of the specific display area in the display panel;
An inner peripheral light source part (143c) as the pointer light source part built in the rotary pointer in front of the inner peripheral display area (128) assumed on the inner peripheral side of the specific display area in the display panel; And having
When the rotation pointer is deviated from the front part of the specific indicator (Mn), the control unit turns on the specific light source unit, the outer peripheral light source unit, and the inner peripheral light source unit,
When the rotation pointer rotates to a position ahead of the specific indicator (Ms), the control unit turns on the outer peripheral light source unit and the inner peripheral light source unit and turns off the specific light source unit. . The display panel visually recognizes an index image (122a, 122b) formed by arranging a plurality of the display indexes in the circumferential direction and a background image (123a, 123at, 123b) forming a background of the index image from the front. Display as possible,
The vehicle display device according to claim 1, wherein the control unit controls a display state of the index image and the background image on the display panel.   When the rotation pointer is rotated to a position in front of the specific indicator, the control unit causes the outer peripheral light source to be opposite to the rotation side of the rotation pointer in each of the outer peripheral display area and the inner peripheral display area. The vehicle display device according to claim 2, wherein an image (123 at) expressing each locus of a part and the inner peripheral light source part is displayed on the display panel as a part of the background image.   When the rotation pointer is deviated from the front position of the specific indicator, the control unit is opposite to the rotation side of the rotation pointer in each of the specific display area, the outer peripheral display area, and the inner peripheral display area. The image (123at) expressing each locus | trajectory of the said specific light source part, the said outer periphery light source part, and the said inner periphery light source part is displayed on the said display panel as a part of said background image. Vehicle display device.   The rotating pointer (2141) includes a transparent or translucent pointer transmitting portion (2144) that transmits light from each of the specific light source portion, the outer peripheral light source portion, and the inner peripheral light source portion through a plurality of front projections and depressions. The display apparatus for vehicles as described in any one of Claims 1-4 which have. A pointer unit (140) configured to include the rotation pointers (141, 2141);
The pointer unit is
A plurality of conduction terminals (145, 145a, 145b, 145c, 145d, 145e) are disposed so as to be rotatable in the circumferential direction and turn on the specific light source unit, the outer peripheral light source unit, and the inner peripheral light source unit. , 145f, 145g) and a movable gear (142) supporting the rotation pointer,
The drive unit is
A plurality of fixed contacts (155) fixed in position with respect to the display panel and electrically connected to the control unit, and electrically connected to the corresponding conductive terminal by sliding contact;
An actuator (156) that is electrically connected to the control unit and that rotates the drive gear (158, 159) linked to the movable gear to rotate the rotation pointer integrally with the movable gear. Item 6. The vehicle display device according to any one of Items 1 to 5.

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