JP2006226953A - Pointer type indicator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pointer type indicator having a novel taste in comparison with conventional ones. <P>SOLUTION: In the pointer type indicator, a signal control section for rotation amount/speed executes a process of determining a moving amount and a moving speed of a pointer 3. That is to say, when a bezel 12 is operated, the signal control section for rotation amount/speed judges as to whether or not the rotation amount of the bezel 12 is larger than a prescribed value, and whether or not the operation speed is higher than a prescribed speed, based on a bezel rotation detection signal input therein. If such a judgement is made that the rotation amount is small, or the rotation speed is low, the pointer 3 is moved up to a moving target position by every one scale unit. Meanwhile, if it is judged that the rotation amount is large, and the operation speed is high, the pointer 3 is moved widely at one time. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

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

  FIG. 10A shows a conventional pointer type display device. FIG. 10A shows an example in which the pointer type display device is applied to an operation panel of an automotive air conditioner. Hereinafter, the air conditioner for automobiles is called a car air conditioner, and this operation panel is called an air conditioner panel.

  This pointer type display device has a plurality of indicators M11, M12, M13 and a plurality of operation switches SW1, SW2, SW3 arranged on the air conditioner panel P1. The plurality of displays M11, M12, and M13 display, for example, the operation operation contents of the car air conditioner such as various modes of blowing, the fan speed, and the temperature.

  Here, FIG. 10B shows an enlarged view of the display M11. The display M11 is constituted by a so-called analog meter. That is, the display M11 displays on the dial 1 illustrations 2 of various modes of blowing, and any one of these illustrations 2 is indicated by the pointer 3. The other displays M12 and M13 have the same configuration, and any one of the characters of the operation operation contents displayed on the dial 1 and the illustration 2 is indicated by the pointer 3.

Further, the plurality of operation switches SW1, SW2, and SW3 are constituted by seesaw switches. These operation switches SW1, SW2, and SW3 are arranged below the plurality of displays M11, M12, and M13, respectively, and are used to change various blowing modes, blower fan speeds, and temperatures, respectively. It is. When the user presses these operation switches SW1, SW2, and SW3, the pointer 3 of each of the indicators M11, M12, and M13 indicates a desired character or illustration 2, and the car air conditioner executes the desired operation. (For example, refer to Patent Document 1).
JP 2002-71389 A

  The behavior of the pointer 3 at the time of manual operation on the air conditioner panel described above merely moves so as to indicate a desired character or illustration 2 based on the operation amount of each operation switch SW1, SW2, SW3.

  For this reason, the above-mentioned air conditioner panel lacked interest and was not novel compared with other conventional air conditioner panels.

  In view of the above points, an object of the present invention is to provide a pointer-type display device having a novel taste as compared with a conventional one.

  In order to achieve the above object, according to the first aspect of the present invention, the control unit (51, 52, 53, 60) is operated according to an operation amount and an operation speed when the operation unit (12) is operated by the user. The ratio of the movement amount of the pointer part (3) to the operation amount and the movement interval of the pointer part (3) are changed.

  Thereby, for example, when the user finely adjusts the setting of the operation operation content to be operated, the pointer part is moved at every minimum setting interval, and when the user greatly changes the setting, the pointer part Can be moved at intervals larger than the minimum set interval. Thus, according to the present invention, the movement of the pointer portion can be matched with the user's sense of operation, and the pointer-type display device can have a novel taste.

  The invention described in claim 2 is characterized by comprising input means (61), determination means (62), first output means (64), and second output means (66). Yes.

  Here, the input means (61) receives a signal relating to the operation amount and the operation speed from the operation unit (12). The determination means (62) determines whether or not the operation amount is larger than the predetermined amount and the operation speed is larger than the predetermined speed when a signal related to the operation amount and the operation speed is input.

  The first output means (64) moves the pointer (3) to the minimum when the determination means (62) determines that the operation amount is smaller than the predetermined amount or the operation speed is lower than the predetermined speed. At each set interval, a first signal for moving to the display unit (2) for the movement target is output to the control units (51, 52, 53).

  Further, the second output means (66) compares the first output signal with the first signal when the determination means (62) determines that the operation amount is larger than the predetermined amount and the operation speed is higher than the predetermined speed. The ratio of the movement amount of the pointer part (3) to the operation amount is increased, and the pointer part (3) is moved to the movement target display part (2) at an interval larger than the minimum setting interval. 2 signals are output to the control units (51, 52, 53).

  As a result, when the user finely adjusts the setting of the operation operation content to be operated, the pointer portion is moved at every minimum setting interval, and when the user greatly changes the setting, the pointer portion is minimized. It can be moved at intervals larger than the set interval. Thus, according to the present invention, the movement of the pointer portion can be matched with the user's sense of operation, and the pointer-type display device can have a novel taste.

  In addition, in the present invention, when the user performs an operation to change the operation unit by one step, the user can set the operation operation content to be operated by causing the pointer unit to move at the minimum setting interval. It becomes possible to change it finely.

  On the other hand, when the user moves the operation unit greatly and quickly, if the user wants to greatly change the setting of the operation operation content to be operated by performing a control to move the pointer part greatly at a time, the user has a small operation amount. Thus, the setting can be changed greatly. For this reason, it is possible to make the user feel a light operation feeling and a refreshing feeling.

  Therefore, according to the present invention, the operability of the pointer type display device can be improved.

  In the invention according to claim 3, the control unit controls the driving unit (26) at the initial stage and the final stage at the initial stage, the middle stage, and the final stage when the pointer part (3) is moved. The drive unit (26) is controlled so that the speed of the stage is slower than the speed of the stage in the middle of movement.

  Thereby, when the pointer portion moves to the target display portion, the pointer can be moved smoothly, and an elegant movement of the pointer portion can be produced.

  Further, as shown in claim 4, for example, the operation portion (12) has a ring shape with an inner opening and is rotatable, and a dial (1) is provided inside the operation portion (12). The invention of each claim described above can be applied to a pointer type display device in which a plurality of display portions (2) and pointer portions (3) are 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 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. The pointer-type display device of the present embodiment is different from the conventional pointer-type display device in the movement of the pointer 3 and the user's operation method.

  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. One display 11 and one bezel 12 arranged in this way constitute one set, and three sets of display and bezel 12 exist 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. On the dial 1, characters, illustrations 2 and scales 4 are arranged in an arc shape. Characters, illustrations 2 and scales 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 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, mark 2, or scale 4, and the car air conditioner performs a desired operation.

  Here, FIG. 2 shows a diagram for explaining the movement of the bezel 12 and the movement of the pointer 3. 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.

  As shown in FIG. 2, the bezel 12 of each indicator 11a, 11b, 11c 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. Further, the rotation angle of the bezel 12 can be arbitrarily set.

  On the other hand, with respect to the pointer 3 of each indicator 11a, 11b, 11c, in the indicator 11b displaying the balloon mode, when the bezel 12 is operated (during manual operation), the pointer 3 is moved by 60 °, for example. It has become. That is, every time the bezel 12 is rotated by 60 °, the pointer 3 is also rotated by 60 ° to indicate the mark 2 in each blowing mode.

  Further, in the indicator 11a that displays the blower fan speed and the indicator 11c that displays the temperature, when the bezel 12 is operated, the pointer 3 moves by one scale. Basically, every time the bezel 12 is rotated by 60 °, the pointer 3 is moved every minimum setting interval, that is, by one scale.

  As shown in FIG. 1, the operation button 13 is disposed between adjacent bezels 12. The operation buttons 13 are an operation button 13a for setting a car air conditioner (A / C), an operation button 13b for setting an automatic air blow, an operation button 13c for a defogger, and an operation button 13d for setting an air circulation mode. Since the operation button 13 has the same configuration as the above-described conventional operation buttons B0 to B3, description thereof is omitted.

  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 configuration) of the pointer type display device will be described. 3, 4, and 5 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. 3 and 4, the upper side in the figure 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. 3 and 5, 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. 5, the light guide lens 22 guides 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. 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. 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, the mark 2, the scale 4, and the pointer 3 on the dial 1 are not visually recognized. Note that the smoke lens 21 can be omitted from the viewpoint of design.

  As shown in FIGS. 3 and 5, the bezel 12 is coupled to the bezel housing 30 via a coupling portion 31. 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. Examples of the rotary switch 32 include an absolute position signal output switch such as a cord switch, a switch including a variable resistor whose resistance value varies with the rotation of the bezel 12, and a switching element in addition to the variable resistor. It is also possible to use a switch comprising

  The rotary switch 32 is provided with a moderation mechanism (not shown). Thus, the user can feel a moderation when the bezel 12 is rotated by 60 °, for example, and can feel that the setting has been changed by one.

  Next, the electrical configuration of the pointer type display device of the present embodiment will be described. FIG. 6 shows a block diagram of the pointer type display device.

  As described above, the pointer-type display device of the present embodiment includes the dial 1, the pointer 3, the stepper motor 26 as the driving unit, the dial illumination LED 24, the pointer illumination LED 28, the bezel 12, and the rotary switch as the reading switch. 32.

  In addition, as shown in FIG. 6, this pointer-type display device includes a drive control unit 51, a drive signal control unit 52, an air conditioning signal control unit 53, a rotation amount / speed signal control unit 60, and an illumination control unit 54. is doing. In the correspondence relationship between the present embodiment and the present invention, the drive control unit 51, the drive signal control unit 52, and the air conditioning signal control unit 53 correspond to the 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, the air conditioning signal control unit 53, and the rotation amount / speed signal control unit 60 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 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.

  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 controls the air-conditioning control unit 58 that controls the air-conditioning system 57 mounted on the vehicle based on the signal related to the movement target position of the pointer 3 input from the rotation / speed signal control unit 60. An air conditioning signal is output so as to perform predetermined control.

  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 rotation amount / speed signal control unit 60. ing.

  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. When the signal from the rotary switch 32 is input, the air conditioning signal control unit 53 has priority over the control signal input from the air conditioning control unit 58.

  The rotation amount / speed signal control unit 60 performs processing for determining the movement amount and movement speed of the pointer 3 as will be described later.

  Here, the movement amount of the pointer 3 is a ratio of the movement amount of the pointer 3 to the rotation amount of the bezel 12 (the operation amount of the operation unit). For example, when the bezel 12 is rotated by 4 steps, it is determined whether to move the pointer 3 by 4 steps or 8 steps. Note that rotating the bezel 12 by one step means one click when the bezel 12 is rotated, that is, for example, rotating by 60 °. Further, the one-step movement of the pointer 3 means that the pointer 3 moves by one scale of the character, the illustration 2 and the scale 4.

  On the other hand, the moving speed of the pointer 3 is the speed of the pointer 3 when the pointer 3 moves from the current position to the target position. It is determined whether the pointer 3 is continuously moved to the target position without stopping, or whether the pointer 3 is intermittently moved to the target position while stopping the pointer for each scale. Therefore, the moving speed of the pointer 3 here is synonymous with the moving interval at which the pointer 3 moves at a time.

  In other words, the rotation amount / speed signal control unit 60 matches the number of steps of the bezel 12 and the number of movements of the hands 3 and moves the hands 3 little by little, or the hands 3 move. The number of steps is larger than the number of steps of the bezel 12, and it is determined whether to move the pointer 3 greatly at a time.

  The rotation amount / speed signal control unit 60 receives a bezel rotation detection signal from the rotary switch 32. This rotation detection signal is a signal containing the amount of rotation of the bezel 12 and its rotation speed, and is, for example, a volume signal such as a pulse signal or a voltage. Based on this rotation detection signal, the rotation amount / speed signal control unit 60 detects the rotation amount and rotation speed of the bezel 12 operated by the user.

  Then, the rotation amount / speed signal control unit 60 determines the movement amount and movement speed of the pointer 3 based on the input bezel rotation detection signal, the signal related to the movement amount and movement speed of the pointer 3, and the pointer 3 The signal regarding the movement target position is output to the air conditioning signal control unit 53.

  Next, the movement amount and movement speed determination process of the pointer 3 executed by the rotation amount / speed signal control unit 60 will be described. FIG. 7 shows a flowchart of the movement amount and movement speed determination processing of the pointer 3 executed by the rotation amount / speed signal control unit 60. FIG. 8 shows the relationship between the bezel rotation detection signal and the movement amount and movement speed of the pointer 3.

  This process is executed during manual operation. Further, in the correspondence relationship between the following steps and the present invention, Step 61, Step 62, Step 64, and Step 66 are respectively the input means, determination means, first output means, and second output means of the present invention. It corresponds to.

  As shown in FIG. 7, in step 61, a bezel rotation detection signal is input from the rotary switch 32.

  In step 62, it is determined whether or not the rotation amount of the bezel 12 is larger than a predetermined amount and the operation speed is larger than the predetermined speed. For example, it is determined whether or not the rotational speed of the bezel 12 is 3 steps / second or less. 3 steps / second or less means that when the rotation detection signal is a pulse signal, the number of pulses per second is 3 or less. The ratio of the movement amount of the pointer 3 to the rotation amount of the bezel 12 is determined based on the determination result in this step.

  If it is determined that the rotational speed of the bezel 12 is 3 steps / second or less (YES), the process proceeds to step 63. Examples of the case of 3 steps / second or less include a case where the rotation amount of the bezel 12 is small, such as 1 step, 2 steps, or a case where the rotation speed of the bezel 12 is slow.

  Subsequently, at step 63, it is further determined whether or not the rotational speed of the bezel 12 is fast. That is, it is determined whether or not the time taken for the bezel 12 to move to the next step is within, for example, 0.33 seconds.

  And when it determines with having not moved within 0.33 second to the following step (in the case of NO), it progresses to step 64.

  In step 64, it is determined that the pointer 3 is to be moved step by step, and a signal to that effect is output. This signal corresponds to the first signal of the present invention.

  Specifically, regarding the ratio of the movement amount of the pointer 3 to the rotation amount of the bezel 12, the number of steps of the bezel 12 and the number of steps of movement of the pointer 3 are made to coincide. For example, as shown in FIG. 8A, when the operation amount of the bezel 12 is 3 steps, the movement amount of the pointer 3 is also 3 steps.

  As for the moving speed of the pointer 3, as shown in FIG. 8A, the pointer 3 is stopped every time the pointer 3 moves one step, and the pointer 3 is moved intermittently. Further, it is determined that the moving speed of the pointer 3 is gradually increased at the initial stage of movement of the pointer 3, is constant during the movement of the pointer 3, and is gradually decreased at the end of movement of the pointer 3. A signal indicating this is output to the air conditioning signal control unit 53.

  Thereby, for example, when the operation amount of the bezel 12 is 3 steps, the pointer 3 is intermittently moved by 3 steps step by step.

  On the other hand, if it is determined in step 63 that the next step has been moved within 0.33 seconds (in the case of YES), the process proceeds to step 65. Subsequently, in step 65, it is determined that the pointer 3 is continuously moved while being slightly decelerated for each step, and a signal to that effect is output.

  Specifically, as in step 64, regarding the ratio of the movement amount of the pointer 3 to the rotation amount of the bezel 12, the number of steps of the bezel 12 and the number of steps of movement of the pointer 3 are matched.

  However, regarding the moving speed of the pointer 3, unlike the step 64, as shown in FIG. 8B, the pointer 3 is continuously moved without stopping at each step. Also in this case, the moving speed of the pointer 3 is gradually increased at the beginning of the movement of the pointer 3, is constant during the movement of the pointer 3, and is gradually decreased at the end of the movement of the pointer 3. Then, the decision is made to decelerate at the final stage of each step and to accelerate at the initial stage of the next step. A signal indicating this is output to the air conditioning signal control unit 53.

  Thereby, for example, when the operation amount of the bezel 12 is 3 steps, the pointer 3 continuously moves 3 steps while being slightly decelerated for each step.

  If it is determined in step 62 that the rotational speed of the bezel 12 is 4 steps / second or more (NO), the process proceeds to step 66. Note that when the rotation amount of the bezel 12 is large and the rotation speed of the bezel 12 is high, the speed is 4 steps / second or more.

  Subsequently, at step 66, it is determined that the pointer 3 is largely moved at once, and a signal to that effect is output. This signal corresponds to the second signal of the present invention.

  Specifically, regarding the ratio of the movement amount of the pointer 3 to the rotation amount of the bezel 12, the number of steps that the pointer 3 moves is larger than the number of steps of the bezel 12. For example, as shown in FIG. 8C, when the operation amount of the bezel 12 is 4 steps, the movement amount of the pointer 3 is set to 8 steps that is twice that amount.

  As for the moving speed of the pointer 3, as shown in FIG. 8C, the pointer 3 is continuously moved, and the moving speed of the pointer 3 is gradually increased at the initial stage of movement of the pointer 3. In the middle of the movement, a constant speed is determined, and at the end of the movement of the pointer 3, it is determined that the speed is gradually decreased. A signal indicating this is output to the air conditioning signal control unit 53.

  Thereby, for example, when the operation amount of the bezel 12 is 4 steps, the pointer 3 moves 8 steps at a time. The air conditioning control unit 58 also changes the control content by 8 steps.

  Next, the basic operation of the entire pointer type display device configured as described above will be described. Here, first, as shown in FIG. 2, a case where the user performs an operation of switching the temperature from “19 ° C.” to “20 ° C.” will be described.

  The user rotates the bezel 12 of the display device 11c by 60 ° in the clockwise direction, that is, in the right direction as indicated by the solid line in FIG. Thus, a bezel rotation detection signal is input from the rotary switch 32 to the rotation amount / speed signal control unit 60 (step 61).

  Then, the rotation amount / speed signal control unit 60 executes a determination process of the movement amount and movement speed of the pointer 3. In this case, since the bezel 12 rotates only one step, it is determined in step 62 that the rotational speed of the bezel 12 is 3 steps / second or less. Further, if it is determined in step 63 that the next step has not been moved within 0.33 seconds, a determination and signal to move the pointer 3 step by step, that is, to move the temperature by 1 ° C. is issued in step 64. Is output.

  In response to this signal, the air conditioning signal control unit 53 outputs an air conditioning signal for changing the temperature by 1 ° C. to the air conditioning control unit 58. Thereby, the air-conditioner system 57 is controlled by the air-conditioning control part 58, and sets temperature setting to 20 degreeC.

  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 “20 ° C.”.

  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 indicates that the pointer 3 indicates “20 ° C.” to the drive control unit 51. In addition, a 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 “20 ° C.”. In this way, the temperature is switched from “19 ° C.” to “20 ° C.”.

  Next, a case where the user performs an operation of switching the temperature from “32 ° C.” to “20 ° C.” will be described. FIG. 9 shows a front view of the pointer type display device at this time.

  The user rotates the bezel 12 of the display 11c largely 360 ° (6 steps) in the counterclockwise direction, that is, in the left direction as indicated by the arrow shown in FIG. Thus, a bezel rotation detection signal is input from the rotary switch 32 to the rotation amount / speed signal control unit 60 (step 61).

  Then, the rotation amount / speed signal control unit 60 executes a determination process of the movement amount and movement speed of the pointer 3. In this case, the bezel 12 is rotated by 6 steps. If the bezel 12 is rotating fast, it is determined in step 62 that the rotational speed of the bezel 12 is 4 steps / second or more. For this reason, in step 66, the decision is made that the pointer 3 is increased, that is, the temperature is moved by 12 steps at a time and a signal is output.

  Thereafter, the air conditioner 57 operates in the same manner as described above, and the air conditioner system 57 is controlled by the air conditioner controller 58 to set the temperature to 20 ° C. On the other hand, the stepper motor 26 drives the pointer 3, and the pointer 3 moves from “32 ° C.” to “20 ° C.”. At this time, as shown in FIG. 9, the pointer 3 gradually accelerates in the initial stage, reaches a constant speed in the middle stage, and gradually decelerates and moves in the final stage. In this way, the temperature is switched from “32 ° C.” to “20 ° C.”.

  Here, the change in the temperature setting has been described as an example, but the same applies to the change in the air volume setting.

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

  (1) In the present embodiment, the rotation amount / speed signal control unit 60 executes processing for determining the movement amount and movement speed of the pointer 3, and in step 61, the bezel rotation is performed from the rotary switch 32. If the detection signal is input, it is determined in step 62 whether or not the rotation amount of the bezel 12 is larger than a predetermined amount and the operation speed is larger than the predetermined speed.

  When it is determined that the rotation speed of the bezel 12 is 3 steps / second or less, the rotation amount / speed signal control unit 60 performs steps 64 and 65 in which the number of steps of the bezel 12 and the step in which the pointer 3 moves. A decision is made to match the number and a signal to that effect is output.

  On the other hand, if it is determined that the rotation speed of the bezel 12 is 4 steps / second or more, the rotation amount / speed signal control unit 60 determines in step 66 that the pointer 3 should be moved at a time at a large amount. The signal is output to the air conditioning signal control unit 53.

  Based on the signal, the air conditioning signal control unit 53, the drive signal control unit 52, and the drive control unit 51 drive the pointer 3.

  For this reason, for example, when the user finely adjusts the temperature setting, when the bezel 12 is rotated slowly or little by little, the pointer 3 is moved step by step, and conversely, the user greatly changes the temperature setting. When the bezel 12 is rotated rapidly and greatly, the pointer 3 can be changed in number of steps that is twice the number of steps in which the bezel 12 has been operated.

  As described above, the rotation amount and the rotation speed when the user operates the bezel 12 with respect to the rotation amount / speed signal control unit 60, the air conditioning signal control unit 53, the drive signal control unit 52, and the drive control unit 51. Accordingly, since the ratio of the number of movement steps of the pointer 3 to the number of rotation steps of the bezel 12 and the movement interval of the pointer 3 are changed, the pointer-type display device can have a novel taste.

  That is, when the user rotates the bezel 12 quickly and greatly, the pointer 3 is moved greatly at a time. Therefore, according to the pointer-type display device of the present embodiment, the movement of the pointer 3 is made to be a user's operation feeling. Can be matched.

  In the present embodiment, when the user rotates the bezel 12 by one step, the rotation amount / speed signal control unit 60, the air conditioning signal control unit 53, the drive signal control unit 52, and the drive control unit 51 Since the control for moving one graduation is performed, the user can finely change the temperature setting.

  On the other hand, when the user rotates the bezel 12 greatly and rapidly, the rotation amount / speed signal control unit 60, the air conditioning signal control unit 53, the drive signal control unit 52, and the drive control unit 51 move the pointer 3 greatly at a time. Since the control is performed, when the user wants to greatly change the temperature setting, the user can greatly change the setting with a small operation amount. For this reason, since the annoyance of having to rotate the bezel 12 a lot can be eliminated, it is possible to make the user feel a light operation feeling and a refreshing feeling.

  For example, as shown in FIG. 9, in the case where the user performs an operation of greatly changing the temperature from “32 ° C.” to “20 ° C.”, the bezel 12 is moved in six steps that is half of the bezel 12 without rotating the bezel 12 by 12 steps. The pointer 3 can be changed from “32 ° C.” to “20 ° C.” only by rotating it a minute faster, and the temperature setting can be changed to 20 ° C. by the air conditioning control unit 58.

  At this time, even if the user rotates the bezel 12 by 7 steps quickly and the position of the pointer 3 becomes “18 ° C.” and deviates from “20 ° C.”, the user slowly rotates the bezel 12. And the pointer 3 can be moved to the position of “20 ° C.”.

  Therefore, according to this embodiment, the operability of the pointer type display device can be improved.

  (2) In the present embodiment, the rotation amount / speed signal control unit 60 gradually increases the movement speed of the pointer 3, the movement speed of the pointer 3, and the initial movement of the pointer 3 in steps 63, 64, 66. It is determined to be fast, a constant speed during the movement of the pointer 3, and a slow speed gradually at the end of the movement of the pointer 3, and a signal to that effect is output.

  As described above, when the pointer 3 moves, the drive control unit 51, the drive signal control unit 52, and the air conditioning signal control unit 53 cause the speeds of the initial stage and the final stage to be lower than the speeds during the movement stage. Therefore, the pointer 3 can be smoothly moved to the target display section, and an elegant movement of the pointer 3 can be produced.

  For example, as shown in FIG. 9, when the user performs an operation of changing the temperature from “32 ° C.” to “20 ° C.”, the pointer 3 starts to move slowly around “32 ° C.”, and the pointer around “25 ° C.”. 3 moves at a constant speed, and the pointer 3 slowly decelerates near “20 ° C.”.

  Note that, as shown in FIG. 9, even when the blower fan speed is changed from “HI” to “OFF”, the operation can be performed as in the case of the temperature change described above.

  (3) In this embodiment, when the rotation amount / speed signal control unit 60 determines in step 62 that the rotation speed of the bezel 12 is 3 steps / second or less, the rotation amount / speed signal control unit 60 further determines in step 63 that the bezel 12 It is determined whether the time taken to move to the next step is within 0.33 seconds, for example. In the case of YES, in step 65, it is determined that the pointer 3 is continuously moved while being slightly decelerated for each step, and a signal to that effect is output.

  For this reason, for example, when the operation amount of the bezel 12 is 3 steps, the pointer 3 continuously moves 3 steps while being slightly decelerated for each step.

  As described above, even when the number of steps of the bezel 12 and the number of steps of movement of the hands 3 are matched, when the speed of each step of the bezel 12 is higher than the predetermined speed, the hands 3 are continuously moved. Therefore, according to the pointer-type display device of the present embodiment, the movement of the pointer 3 can be matched to the user's operation feeling.

(Other embodiments)
(1) In the above-described embodiment, 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. 11 and the dial knob 12 can also be spaced apart.

  (2) In the above-described embodiment, the case where the bezel 12 is used as the operation unit has been described as an example. However, an operation unit other than the bezel 12 may be used. For example, operation switches SW1 to SW3 as shown in FIG. 10, that is, seesaw switches can be used.

  (3) In the above embodiment, 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 can also be applied to an operation panel such as an audio or camera.

It is a front view of the pointer type display apparatus in a 1st embodiment of the present invention. FIG. 3 is a diagram for explaining the movement of the bezel 12 and the movement of the pointer 3 in the pointer-type display device shown in FIG. 1. 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 of the process which determines the movement amount and movement speed of the pointer | guide 3 which the rotation amount / speed signal control part 60 in FIG. 6 performs. It is a figure which shows the relationship between the bezel rotation detection signal which the rotary switch 32 outputs, and the moving amount and moving speed of the pointer | guide 3. It is a front view of the pointer type display apparatus in a 1st embodiment of the present invention. (A) is a front view of the conventional pointer type display apparatus, (b) is an enlarged view of the display device M11 in (a).

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 (4)

A dial (1) in which a plurality of display units (2) for displaying the operation operation content to be operated are arranged;
A pointer portion (3) driven to point to any one of the plurality of display portions (2);
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;
Based on the operation amount of the operation unit (12), a control unit (51, 51) that controls the drive unit (26) to move the pointer unit (3) to the display unit (2) that is an operation target. 52, 53, 60),
The control unit (51, 52, 53, 60) is configured to move the pointer unit (3) relative to the operation amount according to an operation amount and an operation speed when the operation unit (12) is operated by a user. The pointer-type display device is characterized in that control is performed to change the ratio and the movement interval of the pointer portion (3). A dial (1) in which a plurality of display units (2) for displaying the operation operation content to be operated are arranged;
A pointer portion (3) driven to point to any one of the plurality of display portions (2);
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), and a user operating the operation target;
Control units (51, 52) for controlling the drive unit (26) to move the pointer unit (3) to the display unit (2) as a movement target based on the operation amount of the operation unit (12). 53), a pointer-type display device comprising:
An input means (61) for inputting a signal relating to an operation amount and an operation speed from the operation section (12);
A determination means (62) for determining whether or not the operation amount is greater than a predetermined amount and the operation speed is greater than a predetermined speed when a signal relating to the operation amount and the operation speed is input;
When the determination means (62) determines that the operation amount is smaller than the predetermined amount or the operation speed is lower than the predetermined speed, the pointer portion (3) First output means (64) for outputting a first signal to the display unit (2) to the control unit (51, 52, 53);
When the determination means (62) determines that the operation amount is greater than a predetermined amount and the operation speed is greater than a predetermined speed, the pointer portion relative to the operation amount is compared with the first signal. A second signal for increasing the ratio of the movement amount in (3) and moving the pointer section (3) to the display section (2) of the movement target at an interval larger than the minimum setting interval. And a second output means (66) for outputting to the controller (51, 52, 53). The controller controls the speed of the initial stage and the final stage in the initial stage, the middle stage of movement, and the final stage speed when the pointer unit (3) is moved with respect to the drive unit (26). The pointer-type display device according to claim 1 or 2, wherein the drive unit (26) is controlled to be slower than a speed in the middle of movement. The operation part (12) has a ring shape with an inner opening and is rotatable.
The dial (1), the plurality of display portions (2), and the pointer portion (3) are arranged on the inner side of the operation portion (12). The pointer type display device according to any one of the above.

Images