JP2006103364A - Information display device for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information display device for a vehicle structured so that an information display picture field and a touch operation surface are formed separately, capable of precluding a misoperation in touching the touch operation surface. <P>SOLUTION: The displaying mode of the displayed information given in a liquid crystal display 11 is changed when an operating motion of an operator is sensed, and it is arranged so that the operator can touch certainly the sensitive regions Y1-Y5 of a touch panel 12 corresponding to the operating switch display parts X1-X5 given in the liquid crystal display 11. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a vehicle information display device in which an information display screen and a touch operation surface are separated, and belongs to the field of erroneous operation prevention technology.

  A vehicle such as an automobile is provided with an information display device provided with a transparent touch panel (touch operation surface) on the surface of a liquid crystal display (information display screen) or the like for information display and operation of a navigation device or an audio device, for example. There is.

  This information display device is provided, for example, at a position relatively close to the passenger on the instrument panel so that the fingertip of the passenger reaches the touch panel, but in such an installation environment, a driver who is paying close attention while traveling When looking at the information displayed on the display, the focus of the eye must be switched from a distance to a near point, which causes problems such as eye fatigue.

  In order to deal with this problem, for example, in Patent Document 1, a transparent liquid crystal and a touch panel that can be switched between a transparent state and a display state are provided in front of a predetermined distance of the display, and information such as a map is provided. Is displayed on the back display to ensure visibility, and the operation switch display section for function selection is displayed on the front transparent liquid crystal to ensure operability and touched on the touch panel on the front surface. What has been made to make it compatible with operability and operability is disclosed.

JP 2004-126354 A

  However, in the information display device described in Patent Document 1, an expensive transparent liquid crystal is required separately, which increases the cost and complicates display control. Further, since the operation switch display section is displayed on the transparent liquid crystal, there is no good touch panel that allows the operation switch display section of the screen display to be operated as it is while viewing the screen display of the display. That is, when the occupant operates, the operation switch display unit displayed on the transparent liquid crystal in front must be recognized again.

  Therefore, the inventors of the present application have examined, a configuration completely different from the above-mentioned Patent Document 1, that is, a configuration in which the operation switch display unit is displayed on the display without using the transparent liquid crystal and the display and the touch panel are separated. Thus, it has been found that both visibility and operability can be achieved while ensuring the goodness of the touch panel described above.

  However, such a configuration causes the following problems.

  That is, as shown in FIG. 17 (horizontal sectional view of the display of the information display device and the touch panel), for example, when the operation switch display unit x is displayed on the display 100, the touch panel 101 corresponding to the operation switch display unit x is displayed. The sensitive area y (shown in FIG. 17 but is actually transparent and cannot be recognized by the operator) is generally the same size and shape as the switch display section x and the switch display section x in front view. However, since the information display device is usually provided between the left seat and the right seat, the operator views the operation switch display section x on the display 100 obliquely as indicated by an arrow, for example. It will be. Therefore, when the operator is seated in the left seat, for example, the operation switch display section x and the sensitive area y are displaced from the direction of the operator as shown in FIG. Even when a person's finger touches the touch panel 101 so as to overlap the left end of the operation switch display part x, the touched area y on the touch panel 101 is not touched, and the function corresponding to the operation switch display part x operates. Will not.

  Further, as shown in FIGS. 19 and 20, for example, when a plurality of operation switch display parts x1, x2, and x3 are displayed on the display 100, as in the case where only one operation switch display part is displayed, Corresponding to these, three sensitive areas y1, y2, and y3 are set on the touch panel 101. In this case, for example, when the operator's finger touches the operation switch display unit x2, the touch panel 101 is touched. The sensitive area y1 corresponding to the operation switch display unit x1 is touched, and the function corresponding to the operation switch display unit x1 is activated.

  In addition, these problems may easily occur due to, for example, vehicle shake or finger tremors, and are particularly noticeable when the operation switch display unit is small.

  Accordingly, an object of the present invention is to provide a vehicle information display device capable of preventing an erroneous operation during a touch operation on the touch operation surface in an information display device in which the information display screen and the touch operation surface are separated. To do.

  In order to solve the above problems, the present invention is configured as follows.

  First, an invention according to claim 1 of the present application (hereinafter referred to as a first invention) is an information display device installed in a vehicle, and an information display screen on which display information including an operation switch display unit is displayed; A transparent touch operation surface arranged at a position closer to the operator than the information display screen with a space therebetween, and a portion corresponding to the operation switch display portion displayed on the information display screen on the touch operation surface is touched A signal output unit that outputs a signal corresponding to the switch display unit, an operation operation detection unit that detects an operation operation of the operator, and an operation operation of the operator detected by the detection unit The display mode changing means for changing the display mode of the display information is provided.

  The invention according to claim 2 of the present application (hereinafter referred to as the second invention) is characterized in that, in the first invention, the operation motion detecting means detects an operation motion of the hand of the operator.

  In the invention according to claim 3 of the present application (hereinafter referred to as the third invention), in the second invention, the display mode changing means detects the operation operation of the hand by the operation action detecting means, and a predetermined condition is satisfied. In this case, the display form of the display information is changed.

  Furthermore, the invention according to claim 4 of the present application (hereinafter referred to as the fourth invention) is provided with distance detecting means for detecting the distance to the touch operation surface of the operator's hand in the third invention, When the condition is satisfied, the operator's hand is when the distance detected by the distance detection means has continuously entered a range of a predetermined distance or less for a predetermined time or more.

  Further, the invention according to claim 5 of the present application (hereinafter referred to as the fifth invention) is provided with finger form detecting means for detecting the finger form of the operator in the third invention, and a predetermined condition is established. The time is a time when the form of the finger of the operator detected by the finger form detecting means coincides with a predetermined form.

  In the invention according to claim 6 of the present application (hereinafter referred to as the sixth invention), in the second invention, the moving direction detecting means for detecting the moving direction of the hand of the operator is provided, and the predetermined condition is satisfied. The time when the movement direction is detected is the time when the movement direction of the operator's hand detected by the movement direction detection means coincides with the direction approaching the touch operation screen.

  Further, the invention according to claim 7 of the present application (hereinafter referred to as the seventh invention) is provided with an approach speed detecting means for detecting an approach speed to the touch operation surface of the operator's hand in the second invention. The display form changing means is characterized in that when the approach speed detected by the approach speed detecting means is high, the display form change is executed earlier than when the approach speed is low.

  The invention according to claim 8 of the present application (hereinafter referred to as the eighth invention) is detected by the movement direction detection means for detecting the movement direction of the hand of the operator and the movement direction detection means in the second invention. Seating position detecting means for detecting the sitting position of the operator based on the moving direction of the hand, and the display form changing means is configured to display the display form of the display information by the operation detected by the sitting position detecting means. It changes to the display form corresponding to a person's seating position.

  The invention according to claim 9 of the present application (hereinafter referred to as the ninth invention) is provided with distance detection means for detecting the distance to the touch operation surface of the operator's hand in the second invention, and displays As the distance detected by the distance detecting unit decreases, the form changing unit sequentially reduces the areas with low determinism so as to identify the areas with high determinism among the preset operation areas. It is characterized by letting go.

  The invention according to claim 10 of the present application (hereinafter referred to as the tenth invention) is an approach / separation detecting means for detecting whether the operator's hand is approaching or separating from the touch operation surface in the second invention. When the approach / separation detecting means detects that the operator's hand is approaching the touch operation surface, the display form changing means is detected when the touch operation surface is being separated. Compared to this, the display mode is changed quickly.

  Furthermore, the invention according to claim 11 of the present application (hereinafter referred to as the eleventh invention) is the touch operation surface according to the tenth invention, wherein the movement of the operator's hand detected by the approach / separation detecting means is the display mode changing means. On the other hand, when turning from approaching to separation, the display form when turning to separation for a predetermined period from when turning to separation is maintained.

  The invention according to claim 12 of the present application (hereinafter referred to as the twelfth invention) is provided with distance detection means for detecting the distance to the touch operation surface of the operator's hand in the second invention, and displays The form changing means is characterized in that the display form changing speed is increased as the distance detected by the distance detecting means becomes smaller.

  In the invention according to claim 13 of the present application (hereinafter referred to as the thirteenth invention), in the second invention, an approach speed detecting means for detecting the approach speed to the touch operation surface of the operator's hand is provided. The display form changing means increases the display form changing speed as the approach speed detected by the approach speed detecting means increases.

  Next, the effect of the present invention will be described.

  First, according to the first aspect of the present invention, in the vehicle information display device in which the information display screen and the touch operation surface are spaced apart from each other, when the operation operation of the operator is detected, the display form of the display information is Since the change is made, the operator can surely touch the portion corresponding to the operation switch display portion displayed on the information display screen on the touch operation surface, and erroneous operation is prevented.

  In addition, since the touch operation surface is disposed at a position closer to the operator than the information display screen, the visibility of the information display screen and the operability with respect to the touch operation surface can be compatible. In addition, since it is not necessary to display display information such as an operation switch display unit on the touch operation surface, display control is not complicated, and the cost is lower than the case of displaying on both.

  According to the second invention, when the operation of the operator's hand is detected, the display form of the display information is changed, so that the display form of the display information is not changed unnecessarily. It is possible to ensure the visibility of display information.

  According to the third aspect of the invention, when a hand operation is detected and a predetermined condition is satisfied, the display form of information displayed on the information display screen is changed, and the display form is changed unnecessarily. It will not be done.

  Further, according to the fourth invention, when the operator's hand has continuously entered the range of a predetermined distance or less from the touch operation surface for a predetermined time or more, that is, when the operator's intention to operate is sure The display form of the information displayed on the screen is changed. For example, the display form is not unnecessarily changed only by the fact that the operator's hand has passed near the touch operation surface.

  According to the fifth aspect, when the form of the finger of the operator is a predetermined form, the display form of the information displayed on the information display screen is changed, so that the hand of the operator is simply on the touch operation surface. The display form is not unnecessarily changed simply by being located in the vicinity.

  According to the sixth invention, when the moving direction of the operator's hand is close to the touch operation screen, the display form of the information displayed on the information display screen is changed. The display form is not unnecessarily changed simply by passing through the vicinity of the touch operation surface.

  Furthermore, according to the seventh aspect, when the hand approaching the touch operation surface is fast, the display form of the information displayed on the information display screen is changed quickly, so that the operator feels uncomfortable in the sensitive area on the touch operation surface. It can be made to touch reliably without giving.

  According to the eighth invention, the display form of the information displayed on the information display screen is appropriately changed according to the sitting position of the operator, so that erroneous operation can be effectively prevented. Become.

  According to the ninth aspect of the present invention, as the distance to the touch operation surface of the operator's hand becomes smaller, the area having a high degree of definiteness is sequentially identified from the preset operation areas. Since the low-frequency area is reduced, it is possible to reliably touch the sensitive area on the touch operation surface without feeling uncomfortable.

  Furthermore, according to the tenth aspect, the display mode is changed faster when the operator's hand is approaching the touch operation surface than when the operator's hand is moving away, so the change of the display mode during the approach is good for the operator's operation. Since the display mode is changed more slowly during separation, the changed display mode will return to its original state even if the fingertip moves back and forth. There is no such thing and good operability is achieved.

  Further, according to the eleventh aspect, since the display form when the separation is performed is maintained for a predetermined period from when the separation is performed, the effect at the separation of the tenth aspect is further ensured.

  According to the twelfth aspect, the display mode change speed increases as the distance to the touch operation surface of the operator's hand decreases. Therefore, it is only possible to realize visual fun when changing the display mode. For example, when the operation switch display unit is enlarged as the distance to the touch operation surface of the hand is reduced, the operation switch display unit is rapidly enlarged when the distance is reduced. If the hand is moved forward as it is, the hand is almost certainly touched to the sensitive area on the touch operation surface corresponding to the operation switch display unit.

  Furthermore, according to the thirteenth aspect, the faster the approach speed to the touch operation surface of the operator's hand, the faster the display mode change speed. It is possible to give a good operational feeling to the occupant.

  Hereinafter, embodiments of the present invention will be described.

  FIG. 1 is a perspective view showing a front part of a passenger compartment of a vehicle 1 according to this embodiment. As shown in this figure, a steering device 2 and various instruments 3... 3 are arranged in front of the left seat. In addition, a hazard lamp switch 5, air conditioning control switches 6 and 6, and an information display device 10 for displaying various types of information are provided in front of the intermediate position between the left seat and the right seat in the instrument panel 4. Yes.

  As shown in FIGS. 2 and 3, the information display device 10 has a substantially circular liquid crystal display 11 fixed to a frame member 4 a constituting the instrument panel 4, and an operator more than the liquid crystal display 11. It has a transparent touch panel 12 that is arranged in a close position with a gap and is substantially circular and spherical in front view, and first to sixth infrared sensors 21 to 26.

  Further, as shown in FIG. 4, the information display device 10 includes a control unit 30, and the control unit 30 receives signals from the touch panel 12 and the first to sixth infrared sensors 21 to 26. Input the signal.

  The control unit 30 determines a display form of information (display information) to be displayed on the liquid crystal display 11 based on the input signals from these sensors 21 to 26 and outputs a signal corresponding to the display form to the liquid crystal display 11. To do. FIG. 5 shows an example of the display on the liquid crystal display 11. In this example, the display information is composed of one title display part X0 and five operation switch display parts X1 to X5. The title display portion X0 is information indicating the title of the display information on the display screen, and the operation switch display portions X1 to X5 are display information indicating executable functions. In this example, each of the operation switch display portions X1 to X5 includes a horizontally long elliptical frame and characters indicating functions that can be executed by operating the operation switch display portion.

  When the switch display units X1 to X5 are displayed on the liquid crystal display 11 as described above, the control unit 30 has a sensitive area Y1 at a position on the touch panel 12 corresponding to the switch display units X1 to X5 displayed on the liquid crystal display 11. ~ Y5 is set. Specifically, in the sensitive areas Y1 to Y5, when the liquid crystal display 11 is viewed from the front, the operation switch display portions X1 to X5 displayed on the liquid crystal display 11 and the sensitive areas Y1 to Y5 on the touch panel substantially overlap. For each display screen, the same size and shape as the operation switch display parts X1 to X5 are set so as to match. FIG. 5 shows a case where the operator seated on the left seat is seen. In this case, as described in the background art, the operation switch display portions X1 to X5 and the sensitive areas Y1 to Y5 on the touch panel are displayed. Deviation occurs, and there is a non-overlapping part.

  The control unit 30 corresponds to the switch display portions X1 to X5 when the sensitive areas Y1 to Y5 corresponding to the operation switch display portions X1 to X5 displayed on the liquid crystal display 11 on the touch panel 12 are touched. As shown in FIG. 4, the signals are output to audio equipment such as FM radio 41, CD player (compact disc player) 42, HDD (hard disc) player 43, TV (television device) 44, AM radio 45, etc. The audio device performs a function corresponding to the output signal. Further, when information such as an operation switch display unit corresponding to the car navigation device 46 is displayed on the liquid crystal display 11, when a sensitive area corresponding to the operation switch display unit is touched, the car navigation device 46 is touched. A signal corresponding to the operation switch display unit is output, and the car navigation device 46 executes a function corresponding to the output signal.

  Here, each of the first to sixth infrared sensors 21 to 26 is, for example, a pyroelectric type that outputs a voltage (or current) corresponding to the amount of received infrared rays, and is shown in FIG. In total, six are provided, three of which are arranged at substantially equal intervals along the right side of the frame member 4a, and the remaining three are arranged at substantially equal intervals along the lower side of the frame member 4a. ing. In this case, the main detection areas of the first to third infrared sensors 21 to 23 provided on the right side of the frame member 4a are two-dot chain lines B1, B2, and B3 when viewed from the front (with respect to the liquid crystal display). As shown, the main detection areas of the three infrared sensors 24 to 26 that are set in the elongated elliptical range extending to the left in the vehicle width direction from each sensor 21 to 23 and provided on the lower side of the frame member 4a are: As shown by the two-dot chain lines B4, B5, and B6 when viewed from the front, they are set in an elongated elliptical range extending upward from each of the sensors 24 to 26, and these detection areas are overlapped in a lattice pattern.

  The control unit 30 includes an infrared sensor that outputs the largest voltage among the first to third infrared sensors 21 to 23 provided on the right side of the frame member 4a, and a lower side of the frame member 4a. Based on the combination with the infrared sensor outputting the largest voltage among the provided fourth to sixth infrared sensors 24 to 26, as shown in Table 1, the operator's finger is shown in FIG. It is determined in which of the zones Z1 to Z9 on the front side of the touch panel 12 shown. If the output voltages of two adjacent infrared sensors are equal to or greater than a predetermined value, it is determined that a finger is present near the boundary between the detection areas, that is, near the boundary between the two zones.

  Further, the control unit 30 determines the sitting position of the operator based on the change of the zone where the finger is detected. That is, for example, when an operator sitting in the left seat moves the fingertip from the left to the right as indicated by an arrow A in FIG. 6 in order to operate the operation switch display unit existing in the zone Z6, first, the zone Z4 , Then in zone Z5, and finally in zone Z6. On the other hand, when the operator sitting in the right seat moves the fingertip from the right to the left as indicated by, for example, the arrow A in order to operate the operation switch display unit existing in the zone Z1, detection is first performed in the zone Z3. Is then detected in zone Z2 and finally in zone Z1. In other words, if the order in which the zone where the finger is detected changes is known, the moving direction of the finger, that is, the seating position of the operator can be determined.

Further, the control unit 30 detects the form of the finger based on the number and form of the zones where the finger is detected, and determines the presence or absence of the operation intention based on the form of the finger.
For example, when a hand is detected only in the zone Z1, it is determined that the hand is intended to operate with only the index finger approaching, for example. For example, when the output voltages of the first, second, fourth, and fifth infrared sensors 21, 22, 24, and 25 are equal to or greater than a predetermined value, four zones Z1, Z2, Z4, and Z5, that is, Although a hand exists over a wide range, it is determined that the hand is a hand held like a goo or opened like a par and has no intention of operation.

  The control unit 30 determines the distance of the operator's fingertip from the front surface of the touch panel 12 based on the output voltage (current) value of the largest infrared sensor among the output voltage (current) values of the plurality of infrared sensors 21 to 26. To detect. That is, the voltage value output from the infrared sensor changes in accordance with the amount of the fingertip entering the detection area of the infrared sensor, so the voltage value output from the infrared sensor is compared with, for example, a predetermined map. By doing so, the distance from the front surface of the touch panel 12 of the operator's fingertip can be detected.

  Further, the control unit 30 detects whether the hand is approaching or moving away from the surface of the touch panel 12 by continuously detecting the distance.

  Moreover, the control unit 30 detects the approach speed to the touch panel 12 of the operator's hand based on the change speed of the output voltage (current) values of the plurality of infrared sensors 21 to 26.

  Next, display mode change control by the control unit 30 will be described with reference to the flowchart of FIG.

  First, in step S1, it is determined whether any of the infrared sensors 21 to 26 has reacted. Here, the reaction of any of the infrared sensors 21 to 26 means that the voltage value detected by the sensor is not less than a predetermined value, that is, the distance of the operator's hand to the front surface of the touch panel 12 is not more than the predetermined distance. Means that When not reacting (NO), the process returns as it is, and when reacting (YES), the timer is started in step S2. Next, in step S3, it is determined whether or not the timer count is equal to or longer than the predetermined time T0. If the predetermined time T0 is not equal to or longer (NO), then in step S4, the operator's hand is touched on the touch panel 12. It is determined whether or not the movement direction of the hand is a predetermined direction. If it is approaching (YES), that is, if the moving direction of the hand is a predetermined direction, it is further determined in step S5 whether the approach speed is high (whether it is equal to or higher than the predetermined speed). . If the approach speed is not fast (NO), the process returns to step S3. If the approach speed is fast (YES), the timer is reset in step S6, and then the display form is changed in step S7. To do. That is, when the approach speed is fast, the display mode is quickly changed even when the timer does not reach the predetermined value T0.

  On the other hand, if it is determined in step S3 that the timer count is equal to or greater than the predetermined time T0 (YES), after the timer is reset in step S6, the display form is changed in step S7.

  On the other hand, if it is determined in step S4 that the hand is not approaching (NO), the process returns after resetting the timer in step S8.

  In this case, when the display form is changed in step S7, the change speed of the display information such as the operation switch display section (for example, the speed at which the size of the display information is increased) is as shown in FIG. It is set to increase as it approaches the touch panel 12 (as the distance to the touch panel 12 decreases). That is, as the hand approaches the touch panel 12, the size of the display information increases at an accelerated rate.

  Further, when the display form is changed in step S7, the change speed of the display information such as the operation switch display section (for example, the speed of increasing the size of the display information) is as shown in FIG. 12 is also set to increase as the approaching speed to 12 increases.

  Although not described in the flowchart, the above-described finger form determination step is provided between steps S1 and S2, and the finger form matches the predetermined form (for example, the hand Only when the form is excluding goo or par), the process may proceed to step S2.

  Next, a change example of the display form will be described with a plurality of examples.

  First, the first example will be described. When the control unit 30 detects that an operator's hand has entered the front surface of the touch panel 12 based on signals from the first to sixth infrared sensors 21 to 26, The moving direction, that is, the sitting position of the operator is determined as described above, and the display form of the display information displayed on the liquid crystal display 11 is changed from the display form shown in FIG. 5 to the display form corresponding to the sitting position. For example, when the operator's seating position is determined to be the left seat, as shown in FIG. 10, the operation switch display portions X1 to X5, specifically, the center in the elliptic frame constituting the operation switch display portions X1 to X5 Further, points P... P indicating the operation target positions are respectively displayed on the lower right side. The points P... P are displayed at this position when viewed from the operator, in the vicinity of the center of each of the sensitive areas Y1 to Y5 on the touch panel 12, and the touch position is above, below, left and right of each point P. This is because even if it is slightly deviated, it is a position where the sensitive areas Y1 to Y5 can be surely touched. On the other hand, when the operator's seating position is determined to be the right seat, although not shown, a point indicating the operation target position is located on the lower left side of the center in the elliptical frame of the operation switch display portions X1 to X5. Display each.

  Thus, according to the first example, when an operation operation of the operator is detected, the points P ... P indicating the operation target position in the operation switch display portions X1 to X5 according to the operator's sitting position. Is displayed, it is possible to reliably touch the sensitive areas Y1 to Y5 corresponding to the operation switch display portions X1 to X5 on the touch panel 12, thereby preventing an erroneous operation. If the color of the points P... P is not different from characters and frames, they can be easily distinguished from these, and the above-described effects are further improved. Further, instead of the point P, for example, pictograms or polygonal figures may be used.

  Next, a second example will be described. In the second example, when it is detected by signals from the plurality of infrared sensors 21 to 26 that a passenger's hand has entered the front surface of the touch panel 12, the determination is made based on the signals of the infrared sensors 21 to 26. The display form of the display information having a high degree of definition located in the zone is sequentially changed as the distance between the touch panel 12 and the hand is reduced.

  For example, FIG. 11 shows a character input screen used when searching for information via, for example, the Internet. The screen includes a plurality of operation switch display units corresponding to characters such as fifty-sounds, and “search” that is touched when searching. "Is displayed. Note that the left side of the operation switch display section “search” is a column for displaying input characters. In this case, for example, the operator's finger approaches the center of the front surface of the touch panel 12 in an attempt to input the character “mi” after the character “mi” that has already been input. (When the distance between the touch panel 12 and the operator's hand becomes small), first, as shown in FIG. 12, the vicinity of the central portion with high operation probability (high determinism) in the display information is enlarged. The As the distance further approaches, the vicinity of the central portion having a high degree of definiteness is further enlarged sequentially as shown in FIGS. Then, when approaching further, as shown in FIG. 15, only the operation switch display portion of the character “mi” to be touched is emphasized and enlarged, and when further approaching, as shown in FIG. The character operation switch display portion of the character is gradually reduced, and the operation switch display portion of the character “mi” is emphasized and enlarged more rapidly. That is, as the distance decreases, the display mode change speed is increased.

  According to the second example, when the operator tries to operate one of the operation switch display units, the distance between the touch panel 12 and the operator's hand decreases in the preset operation area. In order to identify areas with high determinism, the areas with low determinism are reduced so that the visibility of the operation switch display section to be operated is improved and the operation switch display section is supported reliably. This makes it easier to touch the sensitive area and prevents incorrect operation.

  Although not shown in the second example, the display mode may be changed faster when the operator's hand is approaching the touch panel 12 than when the operator's hand is moving away. The display mode is changed following the operator's operation well, and the display mode is changed more slowly during the separation. For example, even when the fingertip moves slightly, the display mode is changed. The display form does not return immediately, and good operability is achieved. In addition, when the movement of the operator's hand changes from approaching to separation from the touch panel 12, the display form when turning to separation for a predetermined period from when turning to separation may be retained. The above effect is further ensured.

  As described above, in the vehicle information display device 10 in which the front surface of the liquid crystal display 11 and the touch panel 12 are spaced apart as described with some examples, the infrared sensors 21 to 26 are used by the operator. Since the display form of the display information displayed on the liquid crystal display 11 is changed when the operation operation is detected, the operator corresponds to the operation switch display section displayed on the liquid crystal display 11 on the touch panel 12. The sensitive area to be touched can be surely touched, and erroneous operation is prevented.

  Moreover, since the touch panel 12 is arranged at a position closer to the operator than the liquid crystal display 11 with a gap, the visibility of the liquid crystal display 11 and the operability with respect to the touch panel 12 can be compatible. In addition, since it is not necessary to display display information such as the operation switch display unit on the touch panel 12, display control is not complicated, and the cost is lower than when displaying on both.

  In addition, since the display form of information displayed on the liquid crystal display 11 is changed when an operation operation of the operator's hand is detected and a predetermined condition is matched, the display form of the display information is unnecessarily changed. The display information can be easily viewed.

  Then, when the operator's hand continuously enters a range of a predetermined distance or less from the touch panel 12 for a predetermined time T0 or more, that is, when the operator's intention to operate is certain, display of information to be displayed on the liquid crystal display 11 The form is changed. For example, the display form is not unnecessarily changed simply by the fact that the operator's hand has passed near the touch panel 12.

  Furthermore, when the form of the operator's finger is in a predetermined form, the display form of the information displayed on the liquid crystal display 11 is changed. For example, a hand held in a goo state is simply touched on the touch panel 12. The display form is not unnecessarily changed simply by being located in the vicinity.

  Further, when the movement direction of the operator's hand is close to the touch panel 11, the display form of information displayed on the liquid crystal display 11 is changed, and the operator's hand simply passes near the touch panel 12. The display form is not changed unnecessarily.

  When the hand approaches the touch panel 12 quickly, the display form of information displayed on the liquid crystal display 11 is changed quickly, and the operator's intention can be promptly dealt with.

  Furthermore, since the display form of the information displayed on the liquid crystal display 11 is appropriately changed according to the seating position of the operator, an erroneous operation is effectively prevented.

  In addition, as the distance to the touch panel 12 of the operator's hand becomes smaller, the areas with lower determinism are reduced so that the areas with higher determinism are identified in the preset operation areas. Therefore, it is possible to reliably touch the sensitive area on the touch panel 12 without feeling uncomfortable.

  Since the speed of changing the display mode increases as the distance to the touch panel 12 of the operator's hand decreases, not only can the fun of changing the display change be realized, but also the operation switch display unit can be connected to the touch panel 12. When the distance decreases, the operation switch display section is rapidly expanded when the distance decreases. Therefore, if the hand is moved forward as it is, the operation switch display section The hand is almost certainly touched on the sensitive area on the touch panel corresponding to the above.

  Furthermore, since the display mode change speed increases as the approaching speed of the operator's hand to the touch panel 12 increases, the display mode can be changed well following the operation of the operator even when the approaching speed is high. The operation feeling can be given to the occupant.

  In the above embodiment, the infrared sensors 21 to 26 are used to detect the operation of the operator and to detect the operation switch display unit that the operator is trying to operate. However, the gaze direction of the operator is detected. A camera may be provided on the instrument panel 4, a camera for detecting the movement and position of the operator's hand and fingers may be provided on the ceiling of the passenger compartment, and a voice recognition device that recognizes voice commands may be provided.

  In the above embodiment, the vehicle having the steering device provided in the front part of the left seat has been described as an example. Needless to say, the vehicle having the steering device provided in the front part of the right seat is described. Is also applicable.

  The present invention can be widely applied to an information display device in which an information display screen and a touch operation surface are separated.

1 is a perspective view showing a structure around an instrument panel in which an information display device for a vehicle according to an embodiment of the present invention is provided. It is a front view of the information display device. It is AA sectional drawing of FIG. It is a control block diagram of an information display apparatus. It is a figure which shows an example of the display information displayed on the liquid crystal display of an information display apparatus. It is a figure which shows area division of the touchscreen front surface of an information display apparatus. It is an example of the flowchart of change control of the display form by this information display apparatus. It is a map of the change speed of a display form with respect to the distance of a touch panel and an operator's hand. It is a map of the display mode change speed with respect to the approach speed of the operator's hand to the touch panel. It is an example of a change of the display form of the display information displayed on the liquid crystal display of the information display device (first example). It is an example of a change of the display form (1 of the second example). It is an example of change of the display form (second example 2). This is a change example of the display form (second example 3). This is a change example of the display form (second example 4). It is an example of a change of the display form (5 of the second example). It is an example of a change of the display form (6 of the second example). It is explanatory drawing of the problem in the conventional information display apparatus (the 1). It is explanatory drawing of the same problem (the 2). It is explanatory drawing of the same problem (the 3). It is explanatory drawing of the same problem (the 4).

Explanation of symbols

1 Vehicle 10 Information Display Device 11 Liquid Crystal Display (Information Display Screen)
12 Touch panel (touch operation surface)
21-26 Infrared sensor (operation motion detection means)
30 control unit (signal output means, display form change means, operation motion detection means, distance detection means, finger form detection means, movement direction detection means, seating position detection means, approach / separation detection means, approach speed detection means)

Claims (13)

An information display device installed in a vehicle, including an information display screen on which display information including an operation switch display unit is displayed, and a transparent display arranged at a position closer to the operator than the information display screen A touch operation surface, and a signal output means for outputting a signal corresponding to the switch display unit when a portion corresponding to the operation switch display unit displayed on the information display screen is touched on the touch operation surface; An operation motion detection unit that detects an operation motion of the operator, and a display mode changing unit that changes the display mode of the display information when the operation motion of the operator is detected by the detection unit. A vehicle information display device characterized by the above. The vehicle information display device according to claim 1, wherein the operation motion detection unit detects an operation motion of an operator's hand. 3. The vehicle information according to claim 2, wherein the display form changing means changes the display form of the display information when the operation action detecting means detects the hand operation action and a predetermined condition is satisfied. Display device. Distance detection means for detecting the distance to the touch operation surface of the operator's hand is provided,
The time when the predetermined condition is satisfied is when the operator's hand has continuously entered a range where the distance detected by the distance detecting means is not more than a predetermined distance for a predetermined time or longer. The vehicle information display device described in 1. Finger form detection means for detecting the form of the operator's finger is provided. When the predetermined condition is satisfied, the form of the operator's finger detected by the finger form detection means matches the predetermined form. The vehicle information display device according to claim 3, wherein The moving direction detecting means for detecting the moving direction of the operator's hand is provided. When the predetermined condition is satisfied, the moving direction of the operator's hand detected by the moving direction detecting means is displayed on the touch operation screen. The vehicle information display device according to claim 3, wherein the vehicle information display device coincides with the approaching direction. An approach speed detecting means for detecting the approach speed to the touch operation surface of the operator's hand is provided, and the display form changing means is configured to display the approach speed when the approach speed detected by the approach speed detecting means is large or small. The vehicular information display device according to claim 2, wherein the display mode is changed earlier than the display mode. A moving direction detecting means for detecting the moving direction of the operator's hand; and a sitting position detecting means for detecting the sitting position of the operator based on the moving direction of the hand detected by the moving direction detecting means. 3. The vehicle information according to claim 2, wherein the display form changing means changes the display form of the display information to a display form corresponding to the operator's seating position detected by the seating position detecting means. Display device. Distance detection means for detecting the distance to the touch operation surface of the operator's hand is provided, and the display form changing means sequentially performs preset operation as the distance detected by the distance detection means decreases. The vehicular information display device according to claim 2, wherein areas with low determinism are reduced so as to identify areas with high determinism among the areas. An approach / separation detecting means for detecting whether the operator's hand is approaching or moving away from the touch operation surface is provided, and the display form changing means is configured so that the operator's hand is touched by the touch operation surface. The vehicle information display device according to claim 2, wherein when it is detected that the vehicle is approaching the vehicle, the display mode is changed more quickly than when the vehicle is detected to be separated from the touch operation surface. When the movement of the operator's hand detected by the approach / separation detection means changes from approach to separation from the touch operation surface, the display form changing means changes from separation to separation for a predetermined period. The vehicle information display device according to claim 10, wherein the display form is maintained. A distance detecting means for detecting the distance to the touch operation surface of the operator's hand is provided, and the display form changing means increases the display form changing speed as the distance detected by the distance detecting means decreases. The vehicle information display device according to claim 2. An approach speed detecting means for detecting an approach speed to the touch operation surface of the operator's hand is provided, and the display mode changing means is such that the higher the approach speed detected by the approach speed detecting means is, the faster the display mode is changed. The vehicle information display device according to claim 2, wherein the vehicle information display device is made faster.

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