JP4088754B2 - Vehicle instrumentation - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle instrument device that is mounted on various vehicles such as motorcycles and automobiles and displays various measurement values and information.
[0002]
[Prior art]
Various types of vehicles are equipped with, for example, a vehicle meter device called a combination meter. This combination meter is provided with a measured value display unit for displaying different measured values such as vehicle speed, engine speed, fuel, water temperature, voltage and the like. Such a measurement value display unit displays, for example, a pointer that rotates in accordance with a measurement amount, a display board (display body) having an index unit such as a scale, a character, a symbol, or a mark corresponding to the pointer, and various vehicle information. A liquid crystal panel (display panel) is provided. The components and the display panel of such a measurement value display unit are illuminated and displayed through a light source disposed behind or in front of the display unit.
[0003]
By the way, for example, in Japanese Patent Application Laid-Open No. 6-201410, by turning on a key switch of a vehicle, a light source that illuminates the pointer and a light source that illuminates the display board are turned on with a predetermined time difference, whereby And the display board are made to emit light at a time difference, thereby changing the way the display is turned on.
[0004]
[Problems to be solved by the invention]
However, the vehicular instrument device described in the above publication has a plurality of pointers (first set) that are components common to each measurement value display unit and a plurality of displays that are also common components to each measurement value display unit. Since the board (second set) only emits light in a predetermined order all at once, the visual change at switch-on becomes monotonous, which is unsatisfactory in terms of novelty, fun and impact given to the occupant There was room for improvement.
In addition, when the switch is turned off, all the measured value display sections that have been emitting light until then become non-lighted at the same time, so the visual changes when the switch is turned off are monotonous, giving the occupant the novelty, fun and impact. There was something unsatisfactory in this respect, and there was room for improvement in this regard.
In addition, particularly when the surroundings are dark, such as at night, when the switch is turned on, the display board emits light all at once, so there is a concern that the dark-adapted passengers' eyes may be dazzled and give physiological discomfort.
[0005]
The present invention has been made in view of these points, and its main purpose is to provide a vehicle instrument device that can improve the merchantability by devising visual changes at the time of switch-on or switch-off. It is.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a plurality of measurement value display units that display different types of measurement values, a plurality of light sources that are arranged for each of these measurement value display units and emit light from the respective measurement value display units, A control unit for turning on and off the light source according to the operation of a predetermined switch, Each of the measurement value display units includes a pointer that rotates in accordance with a measurement amount, and a display board on which an indicator unit corresponding to the pointer is formed, and the light source illuminates the pointer in each of the measurement value display units A pointer light source and a display plate light source for illuminating the display plate, When the control unit turns on the light source, each measurement value display unit For each measurement value display To emit light in a predetermined order Both the indicator light source and the display panel light source are unitarily measured by the measurement value display unit. When the light source is turned on and the light source is turned off, each measurement value display unit is For each measurement value display In order to be in a non-light-emitting state in a predetermined order Both the indicator light source and the display panel light source are unitarily measured by the measurement value display unit. It is characterized by being turned off.
[0007]
Further, in order to achieve the above object, the present invention provides a plurality of measurement value display units that display different types of measurement values, a plurality of light sources that are arranged for each of these measurement value display units and that emit light from each of the measurement value display units, A controller that turns off these light sources in accordance with the operation of a predetermined switch, Each of the measurement value display units includes a pointer that rotates in accordance with a measurement amount, and a display board on which an indicator unit corresponding to the pointer is formed, and the light source illuminates the pointer in each of the measurement value display units A pointer light source and a display plate light source for illuminating the display plate, When the control unit turns off the light source, the measurement value display units are in a non-light emitting state in a predetermined order for each measurement value display unit. Both the indicator light source and the display panel light source are unitarily measured by the measurement value display unit. It is characterized by being turned off.
[0009]
According to the present invention, the measurement value display unit is at least one first measurement value display unit located in the center, and at least two second and third measurements located on both sides of the first measurement value display unit. And a value display unit, wherein the control unit causes the second and third measurement value display units to emit light after the first measurement value display unit.
[0010]
In the present invention, a display panel for displaying predetermined vehicle information is disposed in the first measurement value display section, and a panel light source for emitting light is provided behind the display panel, and the control section Before the first measurement value display section emits light, the predetermined information is displayed on the display panel.
[0011]
According to the present invention, the measurement value display unit is at least one first measurement value display unit located in the center, and at least two second and third measurements located on both sides of the first measurement value display unit. And a value display unit, wherein the control unit sets the first measurement value display unit in a non-light-emitting state next to the second and third measurement value display units.
[0016]
According to the present invention, the switch is any one of a vehicle key switch and a vehicle light switch.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a vehicle instrument device according to the present invention will be described below with reference to the accompanying drawings. FIGS. 1 to 7 show a vehicle instrument device comprising a vehicle combination meter as a first embodiment of the present invention. 1 is a front view of a vehicle instrument device, FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, FIG. 3 is a cross-sectional view taken along line BB in FIG. 1, and FIG. FIG. 5 is a flowchart showing the processing procedure of the control unit in this embodiment, FIG. 6 is a timing diagram showing the light emission characteristics (operation) of the light source according to this embodiment, and FIG. (C)-(c) is a front view showing the light emission state of each measurement value display unit according to the processing procedure shown in FIG.
[0018]
In FIG. 1, the vehicle combination meter according to the present embodiment includes, for example, a first measurement value display unit D1 including a speedometer that displays a vehicle speed, and a second measurement value display unit D2 including a tachometer that displays an engine speed. And a third measured value display unit D3 including a fuel meter for displaying the remaining fuel in the tank, and a fourth measured value display unit D4 including a tempmeter for displaying the temperature of the engine cooling water.
[0019]
Each of these measurement value display units D1 to D4 has the first measurement value display unit D1 located in the center of the vehicle combination meter, and the second measurement value display unit D2 and the third and fourth measurements on the left and right sides thereof. It arrange | positions so that the value display parts D3 and D4 may each be located.
[0020]
In the first measured value display unit D1, a display panel DP made up of, for example, a liquid crystal panel for displaying predetermined vehicle information in accordance with an electrical signal is arranged, and for example, the travel distance of the vehicle, various alarms, The notification information, time, and outside temperature are displayed (see FIG. 7).
[0021]
As shown in FIGS. 2 and 3, each of the measurement value display units D1 to D4 is attached to a rotating shaft M1 provided in the instrument movement M, and rotates in response to an output of a speed sensor described later, This is composed of a display board (display body) 2 on which index portions D11 to D41 (see FIG. 7C) such as scales, characters, marks, symbols and the like to be indicated by the pointer 1 are formed. Of the indicator parts D11 to D41, the indicator part D11 is an indicator part of the measurement value display part D1, the indicator part D21 is an indicator part of the measurement value display part D2, and the indicator part D31 is an indicator of the measurement value display part D3. The indicator part D41 is an indicator part of the measured value display part D4.
[0022]
The pointer 1 is formed of a light-transmitting synthetic resin that can emit light upon receiving irradiation light by turning on a light source described later. Note that the presence of the pointer 1 can be confirmed by the occupant even when the light source that emits the light is not lit.
[0023]
The display panel 2 includes, for example, a black light-shielding layer 22 and, for example, a white semi-transmissive layer 23 on the back surface of the translucent substrate 21, and the semi-transmissive layer 23 corresponds to the shapes of the indicator portions D11 to D41. Thus, the light shielding layer 22 is provided so as to cover a blank region where the light shielding layer 22 is not formed. A dark smoke layer 24 is formed on the surface of the substrate 21 so as to continuously cover the light shielding layer 22 and the semi-transmissive layer 23. When the light source is turned off, external light is reflected through the smoke layer 24 so that the entire display panel 2 is visually recognized as black, and the indicator portions D11 to D41 are hardly visible. When the light source is turned on, the light passes through the semi-transmissive layer 23 and the smoke layer 24, whereby the indicator portions D11 to D41 are brightly displayed.
[0024]
In the present embodiment, the indicator portions D11 to 41 of the measurement value display portions D1 to D4 are formed on a single substrate 21, but the substrate 21 can be divided into a plurality of substrates. In addition, a smoke cover (not shown) is arranged instead of the smoke layer 24, and the indicator cover D11 to D41 of the pointer 1 and the display plate 2 is turned on when the light source is turned on by covering the front of the display plate 2 and the pointer 1 with the smoke cover. You may comprise so that light emission display may be carried out brightly. The use of the smoke cover and the smoke layer 24 is optional.
[0025]
Behind the pointer 1, the display plate 2, and the display panel DP, a pointer light source 3 that illuminates the pointer 1, a display plate light source (light source) 4 that illuminates the display plate 2 (index portions D11 to D41), and a display A panel light source (light source) 5 for illuminating the panel DP is disposed.
[0026]
A plurality of pointer light sources 3 are arranged corresponding to the pointer 1 of the measurement value display unit D1 and a first pointer light source group 31 arranged corresponding to the pointer 1 of the measurement value display unit D1. A second pointer light source group 32, a plurality of third pointer light source groups 33 arranged corresponding to the pointer 1 of the measurement value display unit D3, and a plurality of pointers corresponding to the pointer 1 of the measurement value display unit D4 The first pointer light source group 34 is arranged individually.
[0027]
There are a plurality of display panel light sources 4 corresponding to the first display panel light source group 41 arranged corresponding to the display board 2 of the measurement value display section D1 and the display board 2 of the measurement value display section D2. A plurality of second display panel light source groups 42, a plurality of third display panel light source groups 43 corresponding to the display board 2 of the measurement value display section D3, and a measurement value display section D4. A plurality of fourth display panel light source groups 44 are arranged corresponding to the display panel 2.
[0028]
A plurality of panel light sources 5 are arranged behind the display panel DP to form a panel light source group 51. When the panel light source 5 is not turned on, the display panel DP does not emit and display vehicle information.
[0029]
In the present embodiment, light emitting diodes are used as the light sources 3, 4, and 5, but the type of the light source is arbitrary.
[0030]
These light sources 3, 4 and 5 are mounted on the surface of the circuit board 6 disposed behind the display panel 2, and lighting power is supplied through a circuit pattern (not shown).
[0031]
An instrument movement M is mounted on the back side of the circuit board 6 so that driving power is supplied through the circuit pattern of the circuit board 6.
[0032]
Further, on the front side of the circuit board 6, a case body 7 having a reflector and frame body function made of, for example, a white light-shielding synthetic resin is provided. The case body 7 is formed corresponding to the center of rotation of the pointer 1 and surrounds the cylindrical light source groups 31 to 34 and the pointer light source groups 31 to 34, and rotates the light from them. The first reflecting wall 72 that reflects in the radial direction centered on the axis M1 and the display plate 2 extend in the radial direction with a predetermined space and reflects the reflected light from the first reflecting wall 72 toward the display plate 2 side. The second reflection wall 73 is configured to efficiently reflect or guide the light from the light source 4 for the display plate and the light source 3 for the pointer toward the display plate 2 and the pointer 1 side.
[0033]
Further, a facing panel 8 is disposed in front of the display panel 2, and first to third opening windows 81 to 83 having a circle shape are formed in the facing panel 8, and the first opening window 81 through the first opening window 81. The measured value display portion D1 is exposed, the second measured value display portion D2 is exposed from the second opening window 82, and the third and fourth measured value display portions D3 are exposed from the third opening window 83. It is like that.
[0034]
In such a configuration, when the pointer light source 3 (the first to fourth pointer light source groups 31 to 34) is turned on, the light is transmitted through the cylindrical portion 71 of the case body 7 to the respective measured value display portions D1 to D1. Guided to the pointer 1 of D4, the pointer 1 emits light with a predetermined color. On the other hand, when the display panel light source 4 (first to fourth display panel light source groups 41 to 44) is turned on, the light is transmitted to the display panel 2 side by the first and second reflection walls 72 and 73 of the case body 7. By passing through the semi-transmissive layer 23, the indicator portions D11 to D41 are lit and displayed in a predetermined color.
[0035]
Next, the system configuration of the vehicle instrument device according to the present embodiment will be described.
In FIG. 4, when the control unit 10 receives input signals from various sensors S including a key switch (switch) SW, a speed sensor, a rotation sensor, a fuel sensor, and a temperature sensor mounted on the vehicle, An arithmetic process is performed in accordance with a predetermined processing program, and the meter movement M, the display panel DP, the pointer light source groups 31 to 34, the display panel light source groups 41 to 44, and the panel light source group 51 are controlled according to the processing result. A CPU 11 for outputting a control signal for receiving the control signal, and a control signal from the CPU 11, and the meter movement M, the display panel DP, the indicator light source groups 31 to 34, and the display panel light source groups 41 to 41 according to the control signal. 44, a gauge driver (group) 12 that outputs a drive signal for operating the panel light source group 51, a panel display driver 13, a pointer light source driver In addition to a bar (group) 14, a display panel light source driver (group) 15, and a panel light source driver 16, a one-chip type including a ROM (not shown) for storing the processing program and a RAM (not shown) for temporarily storing data. It consists of a microcomputer and is mounted on the circuit board 6.
[0036]
Further, the CPU 11 is supplied with power from the battery B of the vehicle, and executes the processing program in accordance with the operation of the key switch SW. Hereinafter, on / off processing procedures of the indicator light source groups 31 to 34, the display panel light source groups 41 to 44, and the panel light source group 51, which are executed according to the operation of the key switch SW based on FIGS. Program).
[0037]
In FIG. 5, the CPU 11 determines the on / off state of the key switch SW based on the signal input from the key switch SW in step 100 and determines that the key switch SW is in the on state (YES). The panel light source driver 16 that has received the control signal outputs a drive signal for lighting the panel light source group 51, and thereby the panel light source group 51 is turned on. Light up all at once (see time t1 in FIG. 6). By this processing, the display panel DP is illuminated with the panel light source group 51, and the information displayed on the display panel DP is displayed by light emission (see FIG. 7A).
[0038]
Next, in step 102, the CPU 11 determines whether or not a predetermined time (time t2-time t1 in FIG. 5) has elapsed from the processing of step 101 by the internal timer, and if it is determined that the predetermined time has elapsed (YES), In 103, a control signal for simultaneously lighting the first pointer light source group 31 and the first display plate light source group 41 is output, and the pointer light source driver 14 and the display plate light source driver 15 that have received this control signal. Outputs a driving signal for turning on the first pointer light source group 31 and the first display plate light source group 41, whereby the first pointer light source group 31 and the first display plate light source group 41 Lights all at once (see time t2 in FIG. 6). By this processing, the pointer 1 and the first indicator D11 constituting the first measurement value display unit D1 are illuminated by the first pointer light source group 31 and the first display plate light source group 41, and these are emitted and displayed. (See FIG. 7B).
[0039]
Next, in step 104, the CPU 11 determines whether or not a predetermined time (time t3-time t2 in FIG. 5) has elapsed since the processing in step 103. If the CPU 11 determines that the predetermined time has elapsed (YES), The control light source driver 14 that has received the control signal outputs a control signal for simultaneously lighting the second to fourth pointer light source groups 32 to 34 and the second to fourth light source groups 42 to 44 for the display panel. The display panel light source driver 15 outputs drive signals for lighting the second to fourth pointer light source groups 32 to 34 and the second to fourth display light source groups 42 to 44, thereby generating second signals. The fourth pointer light source groups 32 to 34 and the second to fourth display panel light source groups 42 to 44 are turned on all at once (see time t3 in FIG. 6). By this processing, the pointer 1 and the second to fourth indicator portions D21 to D41 constituting the second to fourth measurement value display portions D2 to D4 are converted into the second to fourth pointer light source groups 32 to 34 and the second. Illuminated by the fourth display panel light source groups 42 to 44, they are lit and displayed (see FIG. 7C).
[0040]
The above is the lighting process procedure of the pointer light source groups 31 to 34, the display panel light source groups 41 to 44, and the panel light source group 51. As shown in FIGS. In addition, the light emission display is performed in the order of the display panel DP → first measurement value display unit D1 → second to fourth measurement value display units D2 to D4.
[0041]
Next, the CPU 11 determines whether or not the key switch SW is in an on / off state (whether or not the on state continues) in step 106, and if it is determined that the key switch SW is in an on state (YES), in step 107 The lighting states of the first to fourth pointer light source groups 31 to 34, the first to fourth display panel light source groups 41 to 44, and the panel light source group 51 are maintained (see FIGS. 7A to 7C). ).
[0042]
If it is determined in step 106 that the key switch SW is in the OFF state (NO), in step 108, the second to fourth pointer light source groups 32 to 34 and the second to fourth display panel light source groups 42 to 44 are turned on. The output of the control signal to be turned on is stopped, and in response to the output stop, the pointer light source driver 14 and the display panel light source driver 15 are operated by the second to fourth pointer light source groups 32 to 34 and the second to fourth displays. The output of the drive signal for lighting the plate light source groups 42 to 44 is stopped, whereby the second to fourth pointer light source groups 32 to 34 and the second to fourth display plate light source groups 42 to 44 are stopped. The lights are turned off all at once (see time t4 in FIG. 6). By this processing, the light emission display of the pointer 1 and the second to fourth indicator portions D21 to D41 constituting the second to fourth measurement value display portions D2 to D4 is stopped (see FIG. 7B).
[0043]
Next, in step 109, the CPU 11 determines whether or not a predetermined time (time t5-time t4) has elapsed from the processing in step 108. If the determination that the predetermined time has elapsed (YES), the CPU 11 determines in step 110 the first pointer light source group. 31 and the first display panel light source group 41 are stopped, and the pointer light source driver 14 and the display panel light source driver 15 operate in response to the output stop. The output of drive signals for lighting the groups 32 to 34 and the second to fourth display panel light source groups 42 to 44 is stopped, whereby the first pointer light source group 31 and the first display panel light source group are stopped. 41 are turned off all at once (see time t5 in FIG. 6). By this processing, the light emission display of the pointer 1 and the first indicator part D11 constituting the first measurement value display part D1 is stopped (see FIG. 7A).
[0044]
Next, in step 111, the CPU 11 determines whether or not a predetermined time (time t6 to time t5) has elapsed from the processing of step 110. When the determination that the predetermined time has elapsed (YES), the panel light source group 51 is turned on in step 112. In response to the output stop, the panel light source driver 16 stops outputting the drive signal for turning on the panel light source group 51, and the panel light source group 51 is turned off all at once. (See time t6 in FIG. 6). By this processing, the light emission display of the information displayed on the display panel DP is stopped (see FIG. 1).
[0045]
The above is the light-off process procedure of the indicator light source groups 31 to 34, the display panel light source groups 41 to 44, and the panel light source group 51. By this process procedure, the second to fourth measurement value display units D2 to D2 are displayed. The light emission display is stopped in the order of D4 → first measurement value display section D1 → display panel DP.
[0046]
As described above, in the present embodiment, a plurality of measurement value display units D1 to D4 that display different types of measurement values and the measurement value display units D1 to D4 that are arranged for each of the measurement value display units D1 to D4 emit light. A plurality of light sources 3 and 4 (first to fourth pointer light source groups 31 to 34 and first to fourth light sources 41 to 44 for display panel), and these light sources 3 and 4 are respectively measured value display units D1. And a control unit 10 that performs lighting operation for each D4. When the control unit 10 turns on a key switch (predetermined switch) SW, the measurement value display units D1 to D4 emit light in a predetermined order. By turning on the light sources 3 and 4, the visual change when the key switch SW is turned on is given novelty, interestingness, impact or dynamic feeling, and the merchantability can be improved. Moreover, since each measured value display part D1-D4 is light-emission-displayed in order, the stimulus given to a passenger | crew's eyes can be eased, discomfort, discomfort can be suppressed, especially when the surroundings are dark, such as at night In this case, the amount of light increases in accordance with the light adaptation of the occupant's eyes.
[0047]
In the present embodiment, a plurality of measurement value display units D1 to D4 that display different types of measurement values, and a plurality of measurement value display units D1 to D4 that are arranged for each of the measurement value display units D1 to D4 to emit light. Light sources 3 and 4 (first to fourth pointer light source groups 31 to 34 and first to fourth light sources 41 to 44 for display panel) and these light sources 3 and 4 for each measurement value display unit D1 to D4. The control unit 10 is operated so that when the key switch SW is turned off, the measurement value display units D1 to D4 are turned off in a predetermined order. By turning off the light, it is possible to give a novelty, fun and impact to the visual change when the key switch SW is turned off, thereby improving the merchantability.
[0048]
Moreover, in this embodiment, the measured value display parts D1-D4 have the pointer 1 which rotates according to a measurement amount, and the display board 2 which has the indicator parts D11-D41 corresponding to this pointer 1, and the control part 10 has. Although the example in which the pointer 1 constituting the measurement value display units D1 to D4 and the indicator units D11 to D41 corresponding thereto are set to emit light or not emit light is shown, at least the display plate 2 is in the light emitting state or the predetermined order. As long as it is in a non-light emitting state, it is not always necessary to combine it with the light emission of the pointer 1. For example, after only the indicator portions D11 to D41 are made to emit light or not emit light in a predetermined order, each pointer 1 emits light or does not emit light. It may be.
[0049]
In the present embodiment, the first measurement value display unit D1 is arranged at the center, and the second measurement value display unit D2 is arranged on the left side of the first measurement value display unit D1 in FIG. Third and fourth measurement value display units on the opposite side (that is, the right side of the first measurement value display unit D1 in FIG. 1) across the first measurement value display unit D1 with respect to the second measurement value display unit D2 After D3 and D4 are arranged and the first measurement value display unit D1 is lit and displayed, the second to fourth measurement value display units D2 to D4 are lit and displayed at the same time, so that the first one located at the center is displayed. After the measurement value display unit D1 displays the light emission, the second to fourth measurement value display units D2 to D4 located on both sides of the measurement value display unit D1 display the light emission, so that each measurement value display unit so that the light spreads outward from the center. D1 to D4 can be made to emit light, and thereby, for example, the dynamic feeling related to preparation for running can be emphasized. It is possible to further improve sexual. In this case, the number of the measurement value display unit D1 located in the center and the number of the measurement value display units D2 to D4 located on the outside (both sides) are arbitrary, and if light emission display can be performed so that light spreads from the center to the outside, Arrangement layouts (vertical, horizontal, diagonal and depth directions) of the measurement value display units D1 to D4 are also arbitrary.
[0050]
Further, as in the present embodiment, when the display panel DP that displays predetermined vehicle information is arranged in the first measurement value display unit D1 and the panel light source 5 that emits light is emitted from the display panel DP, Predetermined information may be displayed on the display panel DP before the measurement value display section D1 is displayed with light emission. With this configuration, the visual change when the key switch SW is turned on has novelty, fun, or impact. Giving and improving merchantability.
[0051]
Moreover, in this embodiment, after stopping the light emission display of the 2nd-4th measurement value display parts D2-D4, by stopping the light emission display of the 1st measurement value display part D1, it goes toward the center from the outside. Since the light emission display is stopped (turns off) in order, the visual change when the key switch SW is turned off is given novelty, fun or impact, and the merchantability can be improved. Also in this case, the number of the measurement value display unit D1 located in the center and the measurement value display units D2 to D4 located on the outside (both sides) are arbitrary, and if the light emission display can be stopped from the outside toward the center, the measurement can be performed. The layout of the value display portions D1 to D4 (vertical, horizontal, diagonal direction and depth direction) is also arbitrary.
[0052]
In the present embodiment, when the display panel DP is arranged in the first measurement value display unit D1 and the panel light source 5 is provided behind the display panel DP, the display is performed next to the first measurement value display unit D1. By stopping the light emission display on the panel DP, it is possible to give a novelty, fun and impact to the visual change when the key switch SW is turned off, thereby improving the merchantability.
[0053]
In the present embodiment, when lighting is performed in units of the opening windows 81 to 83 of the turn-back panel 8, the light emission display is performed in the order of the display panel DP → first measurement value display unit D1 → second to fourth measurement value display units D2 to D4. On the contrary, when the light is turned off, the example in which the light emission display is stopped in the order of the second to fourth measurement value display units D2 to D4 → the first measurement value display unit D1 → the display panel DP is shown. The light emission display order of each of the measurement value display units D1 to D4 including the panel DP is arbitrary, and at least two measurement value display units D1 to D4 (may be block units) can be in a light emitting or non-light emitting state in a predetermined order. For example, the light emission display is started from the leftmost measurement value display unit D2 in FIG. 1, and then the first measurement value display unit D1 is displayed by light emission, and then the third measurement value display unit D3 is displayed. Display the light emission, and then display the fourth measured value display section D4. Is displayed, the end may be caused to emit display the display panel DP, may be light-emitting display in reverse order to this. In addition, the light emission display can be stopped in the above order. Furthermore, the light emission start / stop order of the respective measurement value display units D1 to D4 may be ordered according to their type in addition to the order based on the arrangement of the respective measurement value display units D1 to D4 as described above. For example, after the start or stop of light emission of the measurement value display unit D1 composed of a speedometer with a large change in measurement value and the measurement value display unit D2 composed of a tachometer, the fuel display is composed of a fuel meter whose measurement value change is not as severe as the instrument display units D1 and D2. The light emission start or light emission stop of the fourth measurement value display part D4 including the third measurement value display part D3 and the tempometer may be performed, or light emission start or light emission stop may be performed in the reverse order.
[0054]
Moreover, in this embodiment, although the 1st-4th light source groups 41-44 for display boards showed the example lighted simultaneously for every block of measured value display part D1-D4 or measured value display part D1-D4, it showed. In the first to fourth display panel light source groups 41 to 44, the individual light sources may be turned on or off in order, or the individual light sources may be divided into blocks and turned on in order for each block. It may turn off.
[0055]
Although not shown in the figure as a second embodiment of the present invention, a light receiving display panel composed of a liquid crystal panel driven in accordance with an electric signal, for example, is employed instead of the display panel 2 of the first embodiment. The indicator portions D11 to D41 may be displayed on a light receiving display panel, and may be illuminated with a light source. When such a light receiving display panel is employed, the use of the pointer 1 is optional, and different types of measured values (for example, vehicle speed, engine speed, remaining fuel, water temperature) are displayed only on the light receiving display panel. It may be configured.
[0056]
Although not shown as a third embodiment of the present invention, a self-luminous display panel including, for example, a fluorescent display tube (VFD) or an organic EL panel (OELD) instead of the light receiving display panel of the second embodiment. May be adopted. In this case, a light source that illuminates the measurement value display units D1 to D4 is not necessary.
[0057]
When the light receiving display panel or the self light emitting display panel is employed as described above, the measurement value display portions D1 to D4 formed on the light receiving display panel or the self light emitting display panel are configured by a single light receiving display panel or a plurality of light emitting display panels. it can.
[0058]
Although not shown as a fourth embodiment of the present invention, a light switch that turns on and off the vehicle headlamp may be employed instead of the key switch SW.
[0059]
【The invention's effect】
As described above in detail, according to the present invention, the intended purpose can be achieved, and when the switch is turned on. as well as When switched off Or when switched off It is possible to provide a vehicular instrument device capable of improving the merchantability by devising the visual change.
[Brief description of the drawings]
FIG. 1 is a front view of a vehicle instrument device according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line AA in FIG.
3 is a cross-sectional view taken along the line BB in FIG.
FIG. 4 is a block diagram showing a system configuration of the vehicle instrument device according to the first embodiment of the present invention.
FIG. 5 is a flowchart showing a processing procedure of a control unit in the present embodiment.
FIG. 6 is a timing chart showing the light emission characteristics (operation) of the light source according to the present embodiment.
7A to 7C are front views showing light emission states of respective measurement value display units according to the processing procedure shown in FIG.
[Explanation of symbols]
1 Guidelines
2 Display board (display body)
3 Pointer light source
4. Light source for display panel (light source)
5 Light source for panel (light source)
6 Circuit board
7 Case body
8 facing panel
10 Control unit
11 CPU
12 gauge driver
13 Pointer light source driver
14 Light source driver for display board
15 Panel light source driver
16 Panel display driver
21 Substrate
22 Shading layer
23 Translucent layer
24 Smoke layer
31 First light source group for pointer
32 Second light source group for pointer
33 Light source group for third pointer
34 Fourth light source group for pointer
41 First light source group for display panel
42 Light source group for second display panel
43 Third light source group for display panel
44 Light source group for fourth display panel
51 Panel light sources
71 Cylindrical part
72 First reflection wall
73 Second reflection wall
81 1st opening window
82 Second opening window
83 Third aperture window
B battery
D1 First measurement value display unit (measurement value display unit)
D2 Second measurement value display unit (measurement value display unit)
D3 Third measurement value display section (measurement value display section)
D4 Fourth measurement value display section (measurement value display section)
DP display panel
D11 to D41 Indicator part
M Instrument movement
M1 rotation axis
S Various sensors
SW key switch (switch)

Claims (7)

A plurality of measurement value display sections for displaying different types of measurement values;
A plurality of light sources that are arranged for each of the measurement value display units and emit light to the measurement value display units,
A control unit for turning on and off the light source according to the operation of a predetermined switch,
Each of the measurement value display units has a pointer that rotates according to a measurement amount and a display board on which an indicator unit corresponding to the pointer is formed,
The light source comprises a pointer light source for illuminating the pointer and a display plate light source for illuminating the display plate in each of the measurement value display units,
When the control unit turns on the light source, the measurement value display unit emits light in a predetermined order for each measurement value display unit , and both the pointer light source and the display plate light source are measured. simultaneously with turning on operation in the value display unit, when turning off operation of the light source, the pointer light source wherein as each measurement value display unit is in a non-emitting state in a predetermined order to each of said measured value indicating portion The vehicle instrument device is characterized in that both the light source for the display panel and the light source for the display board are turned off simultaneously in units of the measured value display unit . A plurality of measurement value display sections for displaying different types of measurement values;
A plurality of light sources that are arranged for each of the measurement value display units and emit light to the measurement value display units,
A controller that turns off these light sources in accordance with the operation of a predetermined switch,
Each of the measurement value display units has a pointer that rotates according to a measurement amount and a display board on which an indicator unit corresponding to the pointer is formed,
The light source comprises a pointer light source for illuminating the pointer and a display plate light source for illuminating the display plate in each of the measurement value display units,
When the control unit turns off the light source, both the pointer light source and the display plate light source are set so that each measurement value display unit is in a non-light emitting state in a predetermined order for each measurement value display unit. Are turned off all at once in the measured value display unit . The measurement value display unit includes at least one first measurement value display unit located in the center, and at least two second and third measurement value display units located on both sides of the first measurement value display unit. The vehicle instrument device according to claim 1, wherein the control unit causes the second and third measurement value display units to emit light after the first measurement value display unit . A display panel for displaying predetermined vehicle information is disposed in the first measurement value display unit, and a panel light source for emitting the light is emitted behind the display panel, and the control unit includes the first measurement value. 4. The vehicle instrument device according to claim 3, wherein the predetermined information is displayed on the display panel by emitting light before the display unit emits light . The measurement value display unit includes at least one first measurement value display unit located in the center, and at least two second and third measurement value display units located on both sides of the first measurement value display unit. 3. The vehicular instrument device according to claim 2, wherein the control unit sets the first measurement value display unit to a non-light-emitting state next to the second and third measurement value display units. A display panel for displaying predetermined vehicle information is disposed in the first measurement value display unit, and a panel light source for emitting the light is emitted behind the display panel, and the control unit includes the first measurement value. 6. The vehicle instrument device according to claim 5, wherein the display panel is brought into a non-light emitting state next to the display unit. The vehicular instrument device according to claim 1, wherein the switch is one of a vehicle key switch and a vehicle light switch .

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