JP2006234628A - Pointer display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device with which a user is capable of recognizing the controlled condition correctly when the operation object is automatically controlled. <P>SOLUTION: The pointer display device comprises: the dial plates 1 on which the plurality of letters and scales 4 representing contents of the operation of the object; the pointers 3 for indicating any one of the plurality of letters 2 and scales 4; the driving part for driving the pointers 3; and the bezels 12 for driving the driving part for making the pointer 3 indicate the desirable letters or scales 4, for resetting the car air conditioning. Wherein, the letters 2 and the scales 4 are arranged in accordance with the control step of a blower motor. When the air conditioner controller is controlling the car air conditioner automatically, the drive controller, driving signal controller, and air conditioning signal controller are made to control the stepper motor 26 so that the pointers 3 indicate the letters 2 or scales 4 corresponding to the control step of the blow motor. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a pointer-type display device.

  Conventionally, as a display device, for example, there is an operation panel (hereinafter referred to as an air conditioner panel) of an air conditioner for automobiles, and as an air conditioner panel, for example, there is one that segmentally displays a fan speed. In this air conditioner panel, the set blower fan speed or the like is represented by the number of lit segments.

  In the conventional air conditioner panel described above, because the size of the air conditioner panel is limited, the number of segments to be installed is limited, or if there are many segments, the design of the air conditioner panel is impaired. Was less than the number of control steps during automatic control.

  For this reason, in the conventional air conditioner panel, when the air conditioner is automatically controlled, for example, the actual blower fan speed may not match the segment display, and the user recognizes the accurate control state. I could not.

  Such a problem occurs not only in an air conditioner panel but also in a display device that displays an operation state of an operation target in another technical field when the number of segments and the actual number of control steps are different.

  In view of the above points, an object of the present invention is to provide a display device that allows a user to accurately recognize a control state when an operation target is automatically controlled.

In order to achieve the above object, in the invention described in claim 1, the plurality of display units (2, 4) correspond to operation contents when the operation target control unit (58) operates the operation target,
When the operation target control unit (58) automatically controls the operation target, the pointer control unit (51, 52, 53) displays the display unit (2, 4) corresponding to the operation content of the operation target control unit (58). Is characterized in that the drive section (26) is controlled so that the pointer section (3) points.

  As described above, in the present invention, the display by the pointer unit is made to correspond to the control content when the operation target control unit (58) automatically controls the operation target, so the operation target control unit automatically sets the operation target. Even in the case of control, the user can accurately recognize the control state.

  Further, in the present invention, the contents of the operation operation are displayed using the pointer, and a large number of display units can be arranged as long as the pointer is on the turning trajectory. Therefore, according to the present invention, it is possible to avoid problems that the number of display units is limited due to the size of the display device or that the appearance of the display device is impaired when the number of display units is increased.

  In the second aspect of the invention, the pointer control unit (51, 52, 53) sets the movement interval of the pointer unit (3) as a movement interval smaller than the interval of the adjacent display units (2, 4). The drive unit (26) is controlled so as to drive the unit (3).

  Thereby, the movement of the pointer can be shown smoothly. In particular, when moving the pointer part to the next display part over two steps, that is, two or more of the display parts arranged in succession, compared with the case where the pointer is stopped and moved in each step. Thus, the pointer 3 can be moved smoothly.

  Further, as shown in claim 3, the operation portion (12) has a ring shape with an inner opening and is rotatable, and the dial (1), A plurality of display parts (2, 4) and a pointer part (3) can be arranged.

  In addition, the code | symbol in the bracket | parenthesis of each said means is an example which shows a corresponding relationship with the specific means as described in embodiment mentioned later.

(First embodiment)
In the present embodiment, a case where the pointer type display device is applied to an air conditioner panel of a vehicle will be described as an example. Therefore, in the present embodiment, the car air conditioner system corresponds to the operation target of the present invention. In FIG. 1, the front view of the pointer type display apparatus in 1st Embodiment of this invention is shown.

  The pointer type display device of the present embodiment is different from the conventional pointer type display device in the arrangement of the indicator 11 and the dial knob 12, but the basic configuration is the same as that of the conventional pointer type display device. Further, the pointer type display device of the present embodiment is different from the conventional display device in the way of display during automatic control of the car air conditioner.

  As shown in FIG. 1, the pointer-type display device of the present embodiment includes three indicators 11, three bezel dial knobs 12 as operation units, four operation buttons 13, and a cover 14. Yes. Hereinafter, the bezel dial knob 12 is referred to as a bezel 12.

  The bezel 12 has a ring shape with an inner opening. In the present embodiment, as will be described later, the smoke lens 21 is disposed inside the bezel 12. For this reason, the inside of the bezel 12 is not actually opened, but since the smoke lens 21 is transparent, it is visually recognized that the inside of the bezel 12 is opened.

  One indicator 11 is arranged inside each bezel 12. In other words, the bezel 12 is disposed on the outer periphery of the display 11. Therefore, in this embodiment, the indicator 11 and the bezel 12 are integrated.

  Thus, by integrating the display 11 and the bezel 12, it is possible to make it appear to the user that there is no operation switch for operating the operation operation content displayed on the display 11. . Thereby, the external appearance of an air-conditioner panel can be made clear and the confusion of a user's operation by the external appearance being complicated can be suppressed.

  Note that, with one display 11 and one bezel 12 arranged in this way as one set, there are three sets of three displays and bezels 12 independently.

  The three indicators 11 display contents related to the car air conditioner. The three indicators 11 have a dial 1 and a pointer 3 as a pointer portion. On the dial 1, characters, illustrations 2 and scales 4 are arranged in an arc shape. These characters, illustration 2, and scale 4 correspond to the display unit of the present invention.

  Specifically, the indicator 11a located on the left side in FIG. 1 displays information related to the blower fan speed. On the dial 1, “OFF”, “LO”, “1”, “ 2 ”and“ HI ”2 and a scale 4 are shown. The number of characters 2 and scales 4 is equal to the number of blower motor control steps.

  The display 11b located at the center in FIG. 1 displays information related to the speech balloon mode. The dial 1 includes “foot balloon”, “bi-level balloon”, “head balloon”, “foot balloon”. Illustration 2 and scale 4 of “+ defogger speech balloon” and “defogger speech balloon” are shown.

  A display 11c located on the right side in FIG. 1 displays information related to temperature, and the dial 1 shows a number 2 and a scale 4 representing temperature.

  The bezel 12 is a part of a so-called dial switch, and rotates around the center of the bezel 12 along the outer peripheral direction of the bezel 12. Further, the bezel 12 is configured to rotate independently of the dial 1. When the bezel 12 is operated by the user, the pointer 3 points to a desired character or mark 2 and the car air conditioner executes a desired operation.

  Here, FIG. 2 is a diagram for explaining the movement of the bezel 12 and the movement of the pointer 3 during manual operation (manual control). FIG. 2 corresponds to FIG. 1, but omits the operation button 13. The bezel 12 can rotate in either the clockwise direction with respect to the dial 1 as indicated by the solid line arrow in FIG. 2 or the counterclockwise direction as indicated by the broken line arrow in FIG. It has become.

  Further, the bezel 12 is rotated by 60 °, for example. That is, as shown in FIG. 2, the bezel 12 stops at a position where the small circle shown on the outer peripheral portion of the dial 1 matches the small circle shown on the bezel 12. These small circles are shown for convenience in FIG. 2 for explanation here.

  In the display 11a that displays the blower fan speed and the display 11b that displays the blowing mode, the pointer 3 moves by 60 °, for example, every time the bezel 12 rotates 60 °. On the other hand, in the indicator 11c that displays the temperature, the pointer 3 moves by one scale every time the bezel 12 rotates 60 °.

  In this way, the rotation angles of the bezel 12 and the pointer 3 can be set to the same or different settings. Note that the rotation angle of the bezel 12 can be arbitrarily set.

  Therefore, when the car air conditioner is operated by the bezel 12 (in the case of manual operation), as shown in FIG. 2, for example, the indicator 11a that displays the blower fan speed has five settings, and the pointer 3 is , “OFF”, “LO”, “1”, “2”, “HI”.

  FIG. 3 is a diagram for explaining the movement of the pointer 3 during automatic control. FIG. 3 corresponds to FIG. 1, but omits the operation button 13.

As shown in FIG. 3, when the car air conditioner is controlled automatically (during automatic control),
The pointer 3 moves by one scale. For example, in the display 11a that displays the blower fan speed, any part of the character 2 and the scale 4 between “OFF” and “HI” is indicated.

  As shown in FIG. 1, the operation button 13 is disposed between adjacent bezels 12. The operation buttons 13 are, for example, an operation button for setting a car air conditioner (A / C), an operation button for setting an automatic air blowing, an operation button for a defogger, and an operation button for setting an air circulation mode. The area excluding the display 11, the bezel 12, and the operation buttons 13 is covered by the cover 14.

  Next, the mechanical configuration (internal structure) of the pointer type display device will be described. 4, 5, and 6 are respectively a cross-sectional view taken along line AA, a cross-sectional view taken along line BB, and a cross-sectional view taken along line CC in FIG. 1. 4 and 5, the upper side in the drawing is the front side of the pointer type display device. The front surface is a surface visually recognized by the user.

  As shown in FIGS. 4 and 6, the pointer type display device of the present embodiment includes a smoke lens 21, a dial 1, a light guide lens 22, and a pointer 3 from the front side of the pointer type display device inside the bezel 12. Arranged in order.

The dial 1 is formed integrally with the light guide lens 22 and is made of a transparent acrylic resin. On the dial 1, letters, marks 2 and scales 4 are printed as a translucent colored layer. The area | region except the translucent colored layer of the dial 1 is made transparent. For this reason, when the dial illumination LED 24 and the later-described pointer illumination LED 28 are turned on, the characters, the mark 2, the scale 4, and the pointer 3 can be visually recognized through the dial 1.
The dial 1 including the light guide lens 22 has a circular shape. This is because the dial 1 is disposed inside the cylindrical bezel 12.

  The dial 1 is separate from the bezel 12 and is fixed to the dial housing 23. Thus, since the dial 1 is fixed to the dial housing 23, the dial 1 does not rotate even if the bezel 12 rotates.

  As shown in FIG. 6, the light guide lens 22 guides the light from the dial illumination LED 24 to the dial 1. The dial 1 is illuminated by the light guide lens 22 and the dial illumination LED 24.

  The dial illumination LED 24 is provided on the first circuit board 25 as shown in FIGS. The first circuit board 25 is fixed to the dial housing 23. Although not shown, the first circuit board 25 is provided with an IC chip as an illumination control unit. Note that the dial illumination LED 24 is disposed below the pointer 3 as shown in FIG.

  The pointer 3 is made of a transparent acrylic resin, and a translucent colored layer is formed over the substantially entire length of the connecting portion with the step motor 26 from the tip thereof, and a light shielding layer is formed in a region excluding the colored layer. The colored layer emits light when a later-described pointer illumination LED 28 is turned on.

  The pointer 3 is connected to a rotating shaft 26a of a stepper motor 26 as a drive unit. The pointer 3 is driven by the stepper motor 26. The stepper motor 26 is provided on the second circuit board 27 for the stepper motor. Further, although not shown, the second circuit board 27 is provided with an IC chip as a drive control unit.

  The pointer illumination LED 28 that illuminates the pointer 3 is disposed on the back side of the pointer 3. The pointer illumination LED 28 is fixed to the third circuit board 29. The third circuit board 29 is fixed to the dial housing 23. Although not shown, the third circuit board 29 is provided with an IC chip as an illumination control unit.

  The smoke lens 21 is fixed to the bezel 12. The smoke lens 21 is set to have a low transmittance, and when the LED 24 of the dial 1 and the LED 28 of the pointer 3 are turned on, the characters, the mark 2, the scale 4 and the pointer 3 of the dial 1 are visually recognized and turned off. In some cases, the transmittance is set so that the entire dial 1 becomes a black face so that the characters on the dial 1, the mark 2, the scale 4, and the pointer 3 are not visually recognized. Note that the smoke lens 21 can be omitted from the viewpoint of design.

  The bezel 12 is coupled to the bezel housing 30 via a coupling portion 31 as shown in FIGS. The bezel housing 30 is connected to a rotary switch 32. When the bezel 12 is rotated, the rotary switch 32 is switched via the bezel housing 30.

  The rotary switch 32 is disposed on the fourth circuit board 33 for the rotary switch. Although not shown, the fourth circuit board 33 is provided with an IC chip for reading the position of the bezel 12. As the rotary switch 32, an absolute position signal output switch such as a cord switch can be used.

  Next, the electrical configuration of the pointer type display device of the present embodiment will be described. FIG. 7 shows a block diagram of the configuration of the pointer type display device.

  As described above, the pointer-type display device of the present embodiment reads the dial 1, the pointer 3, the stepper motor 26, the dial illumination LED 24, the pointer illumination LED 28, the bezel 12, the operation button 13, the rotary switch 32, and the like. And a switch 59. The read switch 59 also reads a signal from the operation button 13.

  In addition, the pointer-type display device includes a drive control unit 51, a drive signal control unit 52, an air conditioning signal control unit 53, and an illumination control unit 54. The drive control unit 51, the drive signal control unit 52, and the air conditioning signal control unit 53 correspond to the pointer control unit of the present invention.

  The drive control unit 51 is an IC chip provided on the second circuit board 27 described above. The drive signal control unit 52 and the air conditioning signal control unit 53 are IC chips provided on the fourth circuit board 33 described above. The illumination control unit 54 is an IC chip provided on the first circuit board 25 and the third circuit board 29 described above.

  The drive control unit 51 controls the stepper motor 26 so that the pointer 3 indicates a predetermined character or illustration 2. The drive control unit 51 outputs a drive instruction signal to the stepper motor 26 based on the drive signal input from the drive signal control unit 52.

  The drive signal control unit 52 controls whether or not to operate the drive control unit 51. The drive signal control unit 52 outputs a drive signal to the drive control unit 51 based on signals input from the air conditioning signal control unit 53 and the vehicle signal control unit 55 separately mounted on the vehicle. Yes. The signal input from the vehicle signal control unit 55 at this time is, for example, a signal indicating whether or not the IG switch is on.

  The drive signal control unit 52 outputs a signal to a meter control unit 56 that controls a meter such as a speedometer, and a signal is input from the meter control unit 56. The meter control unit 56 is input with a vehicle speed signal or the like from the vehicle signal control unit 55.

  The air conditioning signal control unit 53 sends an air conditioning signal to the air conditioning control unit 58 that controls the operation of the air conditioning system 57 mounted on the vehicle based on the signal input from the rotary switch 32 so as to perform predetermined control. Output. The air conditioning control unit 58 receives a signal from the vehicle signal control unit 55, for example, whether or not the IG switch is on. The air conditioning control unit 58 corresponds to the operation target control unit of the present invention.

  Further, the air conditioning signal control unit 53 outputs a control signal to the drive signal control unit 52 in order to drive the pointer 3 based on the signal input from the rotary switch 32.

  The air conditioning signal control unit 53 receives a control signal from the air conditioning control unit 58. This is because when the air-conditioning control unit 58 automatically controls the air-conditioning system 57, the pointer 3 is driven according to the control. Further, when a signal is input from the rotary switch 32 as the reading switch 59, the air conditioning signal control unit 53 gives priority to the signal over the control signal input from the air conditioning control unit 58. That is, the air conditioning signal control unit 53 identifies whether it is automatic control or manual control.

  The illumination control unit 54 controls the operation of the dial illumination LED 24 and the pointer illumination LED 28. Based on a signal input from the vehicle signal control unit 55, an operation instruction signal is output to the dial illumination LED 24 and the pointer illumination LED 28. The signal input from the vehicle signal control unit 55 at this time is, for example, a signal indicating how bright the illumination of the instrument panel is.

  Next, the operation of the pointer type display device configured as described above will be described.

  First, at the time of manual operation, for example, as shown in FIG. 2, a case where the user performs an operation of switching the blower fan speed from “OFF” to “LO” will be described.

  The user rotates the bezel fan speed of the bezel 12 of the display 11a by 60 ° in the clockwise direction, that is, in the right direction as indicated by the solid line in FIG. As a result, the rotary switch 32 is switched, and as shown in FIG. 7, a signal indicating that the blower fan speed is set to “LO” is input from the rotary switch 32 to the air conditioning signal control unit 53.

  In response to this signal, the air conditioning signal control unit 53 outputs an air conditioning signal indicating that the air conditioning control unit 58 operates at “LO”. Thereby, the air-conditioner system 57 is controlled by the air-conditioning control unit 58 and sets the blower fan speed to “LO”.

  At this time, the air conditioning signal control unit 53 outputs a control signal to the drive signal control unit 52 so that the pointer 3 indicates “LO”.

  Then, after receiving this control signal, the drive signal control unit 52 determines whether or not the drive control unit 51 may be driven based on the signal input from the vehicle signal control unit 55. As a result, when the drive signal control unit 52 determines that the drive control unit 51 may be driven, the drive signal control unit 52 causes the pointer 3 to indicate “LO” to the drive control unit 51. The drive signal is output.

  The drive control unit 51 receives this drive signal and outputs a drive instruction signal to the stepper motor 26. Thereby, the pointer 3 is driven via the stepper motor 26, and the pointer 3 indicates "LO". In this way, the blower fan speed is switched from “OFF” to “LO”.

  Next, a case will be described as an example where, during automatic control, for example, the blower fan speed is automatically controlled by the air conditioning controller 58.

  Here, for example, there are two cases where the car air conditioner is automatically controlled. FIG. 8 shows a flowchart in the case of automatic control. As shown in step 61, when the engine (E / G) is OFF, as shown in steps 62 and 63, the power supply of the air conditioner panel is OFF.

  When the ignition switch (I / G) is turned on at step 64, a signal to that effect is input to the air conditioning control unit 58 via the vehicle signal control unit 55.

  Subsequently, in step 65, the air conditioning control unit 58 determines whether or not the air conditioning control state before the engine is turned off. That is, it is determined whether or not the engine is turned off while the car air conditioner is on.

  If it is determined that the air conditioning control state is not ON (NO), the process proceeds to step 66, and the air conditioner panel is in the OFF mode. On the other hand, if it is determined that the air conditioning control state is ON (YES), the air conditioner panel is in the ON mode, and the process proceeds to step 67.

  In step 67, the air-conditioning control unit 58 determines whether or not the engine is in an automatic control state before the engine is turned off. That is, it is determined whether or not the engine is turned off while the car air conditioner is in the automatic control state.

  And when it determines with it being in the automatic control state (YES), it progresses to step 68 and a car air conditioner will be in an automatic control state.

  On the other hand, if it is determined in step 67 that the automatic control state has not been established (NO), the routine proceeds to step 69 where the manual control state is displayed. Even in the manual control state, even when the AUTO switch 13 is turned ON in Step 70, the process proceeds to Step 68, and the car air conditioner is in the automatic control state.

  FIG. 9 shows a flowchart of the pointer display process executed by each control unit 51, 52, 53 of the air conditioner panel and the air conditioning control unit 58 in the automatic control state of the car air conditioner. This pointer display process is executed when the car air conditioner is in the automatic control state.

  In step 71, the air conditioning controller 58 determines the blower fan speed. Then, the air conditioning control unit 58 outputs a control signal toward the air conditioning system 57 and the air conditioning signal control unit 53. This control signal is a signal whose content is which of the 30 stages of the blower motor control step.

  The air conditioner system 57 operates in response to this control signal. On the other hand, the air conditioning signal control unit 53 outputs a control signal for driving the pointer 3 to the drive signal control unit 52 based on the control signal input from the air conditioning control unit 58.

  Subsequently, in step 72, the drive signal control unit 52 determines the control position of the pointer 3 based on the control signal input from the drive signal control unit 52. This control position is the character 2 or the scale 4 that is the movement target of the pointer 3.

  Then, when the pointer 3 is not located at that position, the drive signal control unit 52 outputs a drive signal to the drive control unit 51 so as to move the pointer 3 to that position. Further, the drive control unit 51 outputs a drive instruction signal to the stepper motor 26 as a drive unit.

  Thereby, in step 73, the pointer 3 is driven by the stepper motor 26, and the pointer 3 is moved to the position of the character, the illustration 2 or the scale 4 corresponding to the control step of the blower motor controlled by the air conditioning control unit 58. .

  Next, main features of the present embodiment will be described.

  In the present embodiment, as described above, the types and numbers of the characters 2 and the scales 4 coincide with the blower motor control step. When the air conditioning control unit 58 automatically controls the car air conditioner, the drive control unit 51, the drive signal control unit 52, and the air conditioning signal control unit 53 receive the signal from the air conditioning control unit 58, and the air conditioning control unit The stepper motor 26 is controlled so that the pointer 3 indicates the position corresponding to the operation content 58, that is, the character 2 or the scale 4 corresponding to the blower motor control step.

  Thus, since the display stage of the pointer 3 and the number of control steps of the blower motor are matched, the user accurately determines the control state of the blower motor when the air conditioning control unit 58 automatically controls the car air conditioner. Can be recognized.

  The display device of the present embodiment is a pointer type display device that displays the blower fan speed using the pointer 3. For this reason, it is possible to arrange many characters, illustrations 2 and scales 4 on the turning trajectory of the tip of the pointer.

  Therefore, according to the present embodiment, the number of segments is actually controlled due to a problem that has occurred in the prior art, that is, the number of segments is limited due to the size of the air conditioner panel or the appearance of the air conditioner panel is impaired. The problem that the number of steps cannot be matched can be avoided.

(Second Embodiment)
FIG. 10 shows an enlarged view of a region D surrounded by a broken line in FIG. FIG. 11 shows a part of a flowchart of the pointer display process in the present embodiment.

  In the first embodiment, when the air-conditioning control unit 58 automatically controls the car air conditioner, the drive control unit 51, the drive signal control unit 52, and the air-conditioning signal control unit 53 have the character 2 or scale corresponding to the blower motor control step. 4 is simply controlled so that the pointer 3 indicates, but in addition to the control, the movement of the pointer 3 can be controlled as in the present embodiment.

  That is, when the pointer 3 is moved to the control position, the drive signal control unit 52 is caused to predict the position of the pointer 3 between the current position of the pointer 3 and the movement target position, and is interpolated between the steps. It is also possible to control to move the pointer 3 more finely than the blower motor control step.

  This means that, as shown in FIG. 10, the movement interval of the pointer 3 is made smaller than the minimum graduation interval, and the pointer 3 is moved as indicated by an arrow indicated by a broken line. In other words, the division between the scales is further divided into a plurality of stages, and the position indicated by the pointer 3 is not set for each scale, but a plurality of positions between the scales are also indicated. In FIG. 10, for example, a case where the scale is divided into four stages is shown. And it is control which moves a pointer to a movement target position, moving pointer 3 to those positions one by one.

  Specifically, in the pointer display process shown in FIG. 9 described in the first embodiment, steps 81 and 82 are executed between step 72 and step 73 as described below.

  After the drive signal control unit 52 determines the control position of the pointer 3 in step 72, the drive signal control unit 52 determines the interpolation position of the pointer 3 in step 81. That is, the distance from the current position of the pointer 3 to the movement target position is cut at an interval smaller than the minimum scale interval, and the cut position is also determined as the position indicated by the pointer 3.

  Then, the drive signal control unit 52 outputs a drive signal to the drive control unit 51 so as to move the pointer 3 to the position. Further, the drive control unit 51 outputs a drive instruction signal to the stepper motor 26 as a drive unit.

  In response to this, in step 82, the stepper motor 26 moves the pointer 3 so as to indicate each interpolation position in order, and in step 73, the stepper motor 26 moves the pointer 3 to the control position.

In the present embodiment, in this way, the drive control unit 51, the drive signal control unit 52, and the air conditioning signal control unit 53 drive the pointer 3 by setting the movement interval of the pointer 3 to a movement interval smaller than the minimum scale interval. In addition, the stepper motor 26 is controlled. Thus, when the pointer 3 is moved from the current position to the target position, the pointer 3 can be moved smoothly. In particular, when the pointer is moved by two or more steps, the pointer 3 can be moved more smoothly than when the pointer is moved by stopping the pointer every step.

  As a result, it can be displayed that the blower motor is controlled linearly. That is, in reality, even if the pointer is positioned between the scales, there is no blower motor control stage corresponding to the position, but it can be seen as if control at that stage is being performed.

(Other embodiments)
(1) In each of the above-described embodiments, in the indicator 11a that displays the blower fan speed, the numbers of the characters 2 and the scale 4 are made to coincide with the number of control steps of the blower motor, and the pointer 3 is controlled by the control step during automatic control. The case where the character 2 and the scale 4 corresponding to is pointed out has been described as an example.

  On the other hand, in the display 11b that displays the balloon mode, the number of characters 2 and the scale 4 is made to match the number of control steps of the sub-motor in the balloon mode, and the pointer 3 corresponds to the control step during automatic control. The character 2 and the scale 4 to be pointed can be indicated. Note that the sub motor operates a damper that changes the wind direction.

  (2) The case where the number of characters, illustrations 2 and scales 4 is made to coincide with the number of blower motor control steps has been described as an example, but at least the characters, illustrations 2 and scales 4 corresponding to the blower motor control steps are arranged. The number of characters, illustrations 2 and scales 4 can be made larger than the number of control steps of the blower motor.

  (3) In each of the above-described embodiments, the case where the drive signal control unit 52 executes the determination of step 72 or step 81 has been described as an example. However, other control units may make the determination. For example, the air conditioning signal control unit 53 can execute the determination in step 72 or step 81.

  (4) In each of the above-described embodiments, the case where the drive control unit 51, the drive signal control unit 52, and the air conditioning signal control unit 53 are separate control units has been described as an example. However, the drive control unit 51 and the drive signal control are described. The unit 52 and the air conditioning signal control unit 53 can be a single control unit, or two of these can be a single control unit.

  (5) In each of the above-described embodiments, the case where the display 11 including the dial 1 and the pointer 3 is arranged inside the ring-shaped bezel 12 has been described as an example. The arrangement of the device 11 and the dial knob 12 can be changed. For example, the present invention can be applied to a pointer-type display device in which the operation switch, the dial 1 and the pointer 3 are spaced apart.

  (6) In each of the above-described embodiments, the case where the present invention is applied to an air conditioner panel of a vehicle has been described as an example. However, the present invention may be applied to operation panels in other technical fields such as audio and cameras. it can. In this case, the operation target is audio, a camera, or the like.

It is a front view of the pointer type display apparatus in a 1st embodiment of the present invention. FIG. 2 is a diagram for explaining the movement of the bezel 12 and the movement of the pointer 3 during manual operation in the pointer-type display device shown in FIG. 1. In the pointer type display device shown in FIG. 1, it is a diagram for explaining the movement of the pointer 3 during automatic control. It is the sectional view on the AA line in FIG. It is the BB sectional view taken on the line in FIG. It is CC sectional view taken on the line in FIG. It is a block diagram which shows the structure of the pointer type display apparatus in 1st Embodiment of this invention. It is a flowchart in case the pointer type display apparatus in 1st Embodiment of this invention displays automatic control. It is a flowchart of the indicator display process which each control part of the air-conditioner panel and the air-conditioning control part 58 perform in the automatic control state of the car air conditioner. It is the elements on larger scale of the pointer type display apparatus in 2nd Embodiment of this invention, and is the enlarged view of the area | region D enclosed with the broken line in FIG. It is a part of flowchart of the pointer display process which each control part of the air-conditioner panel and the air-conditioning control part 58 perform in the automatic control state of the car air conditioner in the second embodiment of the present invention.

Explanation of symbols

1 ... Dial, 2 ... Letters and illustrations, 3 ... Guidelines, 4 ... Scale,
11 ... Display, 12 ... Bezel dial knob, 13 ... Operation buttons, 14 ... Cover,
21 ... Smoke lens, 22 ... Light guide lens, 23 ... Dial housing,
24 ... LED for dial illumination, 25 ... first circuit board, 26 ... stepper motor,
27 ... second circuit board, 28 ... LED for pointer illumination, 29 ... third circuit board,
30 ... Bezel housing, 31 ... Coupling part, 32 ... Rotary switch,
33 ... Fourth circuit board.

Claims (3)

A dial (1) on which a plurality of display units (2, 4) for displaying the operation operation content to be operated are arranged;
A pointer part (3) driven to point to any one of the plurality of display parts (2, 4);
A drive unit (26) for driving the pointer unit (3);
An operation unit (12) for operating the drive unit (26) so that the pointer unit (3) points to the desired display unit (2, 4), and a user operating the operation target;
In response to a signal from the operation target control unit (58) for controlling the operation of the operation target, the drive unit (26) so that the pointer unit (3) points to the desired display unit (2, 4). A pointer-type display device including a pointer control unit (51, 52, 53) for controlling
The plurality of display units (2, 4) correspond to operation contents when the operation target control unit (58) operates the operation target,
When the operation target control unit (58) is automatically controlling the operation target, the pointer control unit (51, 52, 53) is the display unit corresponding to the operation content of the operation target control unit (58). The pointer-type display device characterized in that the drive section (26) is controlled so that the pointer section (3) points to (2, 4). The pointer control unit (51, 52, 53) sets the pointer unit (3) to a movement interval smaller than the interval between the adjacent display units (2, 4). The pointer-type display device according to claim 1, wherein the driving unit (26) is controlled so as to be driven. The operation part (12) has a ring shape with an inner opening and is rotatable.
The dial (1), the plurality of display portions (2, 4), and the pointer portion (3) are arranged on the inner side of the operation portion (12). The pointer-type display device described in 1.

Images