JP2006264553A - Air conditioner controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the following problems of conventional air-conditioner controller: operations for selecting and determining air-conditioning conditions are troublesome and a large installation space is required. <P>SOLUTION: This air-conditioner controller includes three selection members 80, 85 and 90 operated to select one of a plurality of air-conditioning conditions and one determination member 75 operated to determine contents of the air-conditioning conditions selected with the selection member. After air-conditioning conditions are selected by operating one of the three selection members, the determination member is operated to determine contents of the air-conditioning conditions. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an operating device that is operated to select and determine an air conditioning condition in an air conditioner of a vehicle or the like.

  In a vehicle air conditioner, conditioned air is generated by cold air that has passed through an evaporator (evaporator) and hot air that has passed through a heater core. Air-conditioning conditions such as temperature of air-conditioning air, blowing mode and air volume determine the air-conditioning environment in the passenger compartment. Among these, temperature is arrange | positioned in the vicinity of an evaporator and a heater core, and is determined by the rotation angle of the air mix door which adjusts the air quantity which passes through these. The blow-out mode is arranged on the downstream side of the evaporator and the heater core, and is determined by the rotation angle of the open / close door that opens and closes a plurality of blow-out ports that communicate with the passenger compartment. The air volume is determined by the rotational speed of the fan. The operation amount of the air mix door, the open / close door and the fan is operated by the operation device in the vehicle interior.

In a conventional vehicle air conditioner controller (see Patent Document 1), a blowing mode selection knob for selecting a blowing mode, an air volume adjusting knob for adjusting an air volume, and a temperature adjusting knob for adjusting a temperature are arranged in a horizontal direction. Are located apart.
JP 2004-299439 A

  The conventional controller takes time and effort for the occupant to set the final air conditioning environment in the passenger compartment. In other words, the operation to rotate the blow mode selection knob with your finger, the operation to move your hand to pinch the air volume adjustment knob with your finger, and the hand to move your hand to pinch the temperature adjustment knob with your finger It is necessary to perform the operation. In addition, since the three knobs are arranged side by side, a large space is required on the operation panel.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide an operating device for an air conditioner in which a plurality of air conditioning conditions can be easily set in a short time and the arrangement space can be reduced.

  (B) The present inventor has conceived that the air conditioning conditions are selected and determined by separate members when setting the air conditioning conditions, and the present invention has been completed. According to the air conditioner operation device of the present invention, as described in claim 1, the air conditioner selected by the air conditioner to select any one of a plurality of air condition conditions and the air conditioner selected by the select member. And a determination member operated to determine the content of the condition. After operating the selection member to select the air conditioning condition, the determination member is operated to determine the content of the air conditioning condition.

  (B) Hereinafter, various aspects of the components of the air conditioner operating device will be described.

a. Air conditioner, air conditioning condition As an air conditioner, a vehicle air conditioner is representative, but is not limited to this, and includes a home air conditioner. Typical air conditioning conditions are temperature, blowing mode, air volume, etc., but are not limited to these. The temperature of the conditioned air is determined by the rotation angle of the air mix door, the blowing mode is determined by the rotation angle of the open / close door that opens and closes the plurality of outlets, and the air volume is determined by the number of rotations of the fan.

b. Selection Member The selection member is operated to select any one of the plurality of air conditioning conditions, and it is desirable that the same number of selection members as the air conditioning conditions are provided. That is, one air conditioning condition is selected by one selection member. The selection member is preferably a plurality of pushable buttons. However, as will be described later, a single push button in which a plurality of air conditioning conditions are selected in a cycle for each push may be used. The first type selection member includes a plurality of buttons that can be pushed in and arranged in the circumferential direction, and the second type includes a plurality of buttons that can be pushed in and arranged in a predetermined direction (for example, in the lateral direction). In any type, the pressing operation of the button is detected by the detection element.

c. Determination member The determination member is operated to determine the contents of the air conditioning condition selected by the selection member. In the present invention, it is sufficient to provide only one determination member. The “content” is, for example, the temperature level, the blowing mode (how much the outlet is opened), or the amount of air flow. There are a plurality of types of determining members, and the first type includes a rotatable dial, and a plurality of buttons arranged in the circumferential direction can be arranged inside or around the dial. The second type includes a slide lever that can slide in a predetermined direction (for example, the horizontal direction), and a plurality of buttons arranged in the horizontal direction can be arranged along the slide direction. In any type, the content of the selected air conditioning condition is determined in the entire range. The rotation amount of the dial and the slide amount of the slide lever are detected by the detection element.

  As described above in part, the selection member and the determination member may not be provided separately, but both may be incorporated into one member. In that case, a push button part in which a plurality of air conditioning conditions are cyclically selected for each push and a dial part that determines the content or degree of the air conditioning conditions by rotation may be integrated.

d. Display Unit Each of the plurality of selection members preferably has a first display unit that is formed thereon and is illuminated and selected to display the selected air conditioning condition. Further, the operating device is preferably provided with the same number of second display units as the selected member, which is illuminated when the determining member is operated, and displays the content of the selected air conditioning condition. Each of the second display units is preferably arranged in the vicinity of each selection member and along the operation direction of the determination member. For example, when the selection member is a plurality of buttons arranged in the circumferential direction, a plurality of second display portions are arranged in the circumferential direction, and when the selection member is a plurality of buttons arranged in the linear direction, a plurality of second display portions are arranged. Two display parts are arranged in a linear direction parallel to the two display parts.

  According to the operation device for an air conditioner of the present invention, since the determination member for determining the air conditioning condition selected by the selection member is single, it is sufficient to always operate this one determination member when determining the contents of the air conditioning condition. , The content determination operation becomes easy. Further, since the determining member is single, the arrangement space can be reduced and the operating device can be made compact.

  According to the air conditioner operating device of the second aspect, the operation is easy because the selection member is composed of a plurality of pushable buttons. In addition, since the plurality of buttons are arranged in a space efficient inside or around the dial, the operating device can be made more compact. According to the operation device for an air conditioner of the third aspect, the selection member is composed of a plurality of buttons that can be pushed in and arranged in a predetermined direction, and can be easily operated because the size thereof can be increased. According to the air conditioner operating device of the fourth aspect, the entire range of the dial or the slide lever corresponds to the entire range of the selected air conditioning condition, so that the contents of the air conditioning condition can be determined finely and accurately.

  According to the operation device for an air conditioner of the fifth aspect, when the selection members are operated, the first display unit that displays the selection contents is illuminated, so that the fact of selection can be visually recognized. According to the operation device for an air conditioner of claims 6 and 7, when the determination member is operated, the second display unit near the selection member is illuminated in a range corresponding to the operation amount, and the operation direction and the lighting direction are made to correspond. Thus, the contents to be determined can be grasped intuitively.

  The best mode of the present invention will be described below with reference to the accompanying drawings.

<Embodiment>
(A) Configuration FIG. 1 shows the entire air conditioner. An inside / outside air switching door 11 is pivotally supported on the upstream side (left side in FIG. 1) of the cylindrical air-conditioning case 10, and the fan 12 is accommodated. The fan 12 is operated by a motor 13. An evaporator 15 and a heater core 16 are accommodated in an intermediate portion, and an air mix door 17 is pivotally supported near the heater core 16. A foot door 18, a face door 21, and a differential door 23 are pivotally supported on the downstream side, and the foot air outlet 19, the face air outlet 22, and the differential air outlet 24 are opened and closed. The rotational speed of the fan 12 determines the air volume of the conditioned air, and the rotation angle of the air mix door 17 determines the temperature of the conditioned air. The blowing mode is determined depending on how much the foot door 18, the face door 21 and the differential door 23 are rotated.

  The operating amount of the motor 13 that rotates the fan 12, the operating amount of the motor (not shown) that rotates the air mix door 17, and the motor (not shown) operating amount that opens and closes the three open / close doors 18, 21 and 23, The operation display device shown in FIGS. 2, 3, 4 and 5 is used for operation and display.

  The operation display device shown in FIG. 2 includes a center portion, a left side portion, and a right side portion. The central part will be described later. On the left side, a front differential switch 32, a rear differential switch 33, and an inside / outside air changeover switch 34 are arranged vertically. Inside the three switches 32 to 34, a front differential selection display unit 36, a rear differential selection display unit 37, and an inside air selection display unit 38 are formed on a display plate 62 described later. When the front differential switch 32 is pressed, the front differential display section 36 is illuminated by the LED 59a shown in FIG. 4, when the rear differential switch 33 is pressed, the rear differential selection display section 37 is illuminated by the LED 59b, and when the inside / outside air changeover switch 34 is pressed, the inside air is emitted by the LED 59c. The selection display unit 38 is illuminated.

  On the right side, an auto switch (AUTO) 42 for automatically controlling the blowing mode and the air volume, an air volume OFF switch 43, and an air conditioner switch (A / C) 44 for operating the compressor are arranged in the vertical direction. An auto selection display unit 46 and an air conditioner selection display unit 47 are formed inside the auto switch (AUTO) 42 and the air conditioner switch (A / C), respectively. When the auto switch 42 is pressed, the auto selection display unit 46 is illuminated by the LED 59d shown in FIG. 4, and when the air conditioner switch 44 is pressed, the air conditioner selection display unit 47 is illuminated by the LED 59e.

  The central portion includes a case 52, a substrate 54, a display board 62, one dial 75, three buttons 80, 85 and 90, a display board 100, and the like. 3 and 4, three LEDs 55a, 55b and 55c, three switches 56a, 56b and 56c, one rotary encoder 57, and three groups of LEDs 58a, 58b and 58c are mounted on a substrate 54 mounted in the case 52. Has been.

  A setting dial 75 is disposed in a circular hole 63 at the center of the display plate 62 that covers the case 52 and the substrate 54. The setting dial 75 includes a central columnar portion 76, an outer cylindrical portion 77, and a plurality of radiating portions (not shown) connecting the two. The columnar portion 76 is rotatably supported by a central column 52a of the case 52, and the rotation thereof. The amount is detected by the rotary encoder 57. A temperature setting button 80, a blowing mode setting button 85, and an air volume setting button 90 are disposed in a space defined by the columnar portion 76, the cylindrical portion 77, and the radiating portion of the setting dial 75 so as to be pushed.

  2 and 3, the temperature setting button 80 is formed of a prism, has a substantially triangular pressing portion (upper wall portion) 80 a and an inner wall portion 80 b, and the outer wall portion and the bottom wall portion are reinforced by the reinforcing member 82. Yes. The blowing mode setting button 85 and the air volume setting button 90 have the same configuration. Three buttons 80, 85 and 90 are arranged at positions that divide the circumference of the setting dial 75 into three equal parts. The depression of the temperature setting button 80 is detected by the switch 56a on the substrate 54, the depression of the blowing mode setting button 85 is detected by the switch 56b, and the depression of the air volume setting button 90 is detected by the switch 56c. These buttons 80, 85 and 90 are turned on by light from the temperature setting LED 55a, the blow mode setting LED 55b or the air volume setting LED 55c shown in FIG.

  A disc-shaped display board 100 that covers the upper end opening of the setting dial 75 covers three temperature setting buttons 80, a blowing mode setting button 85, and an air volume setting button 90. A temperature setting selection display (character “TEMP”) 102, a blow mode setting selection display (“seat person” mark) 103, and an air volume setting selection display (“fan” mark) on the outer periphery of the display panel 100. 104 is formed. These display units 102 to 104 are illuminated by the LED 55a, LED 55b or LED 55c, respectively, when the buttons 80, 85 and 90 are lit.

  “18”, “25”, “32”, “...”, “MODE” and “fan mark” are formed along the inner peripheral edge on the display board 62. A set temperature display section 64 is formed on the outer periphery over the upper half circumference, and is illuminated by a set temperature LED 58a shown in FIG. The air outlet F differential display portion 67, the air outlet lateral display portion 68, and the air outlet lower display portion 69 formed below “32” are illuminated by the set air outlet LEDs 58b. The set air volume display portion 71 formed below “18” is illuminated by the set air volume LED 58c.

  FIG. 5 shows a control system diagram. An ignition switch 112 is connected to the CPU 110 via a power supply and reset. Also, a push signal is input from the switch 56 a that is turned on when the temperature setting button 80 is pushed, the switch 56 b that is turned on when the blow mode setting button 85 is pushed, and the switch 56 c that is turned on when the air volume setting button 90 is pushed. Further, a signal from the rotary encoder 57 that detects the amount of rotation of the setting dial 75 is input to the CPU 110.

  The CPU 110 issues signals to the temperature setting LED 55a, the blow mode setting LED 56b, and the air volume setting LED 56c. Further, a signal is emitted to the set temperature LED 58a, the set outlet LED 58b, and the set air volume LED 58c. A drive signal is issued from the CPU 110 to a motor 13 that drives the fan 12 and motors (not shown) that drive the air mix door 17 and the open / close doors 18, 21, and 23.

(B) Operation Next, the operation of the embodiment will be described with reference to the flowchart of FIG. In step S10, the state determination process starts when the air conditioner switch 44 is pressed. In step S11, it is determined whether or not the temperature setting button 80 is turned on. If YES, the process proceeds to step S12 to set the state to the temperature setting state. In step S13, the temperature setting LED 55a is turned on to emit light, the temperature setting button 80 is lit, and the temperature setting selection display unit 102 is illuminated. In step S14, the blow mode setting LED 55b is turned off, and in step S15, the air volume setting LED 55c is turned off. As a result, the entire range of the setting dial 75 is in the temperature determining state. Next, when the setting dial 75 is rotated in step S16, the set temperature display section 64 is illuminated in an arc shape in a range corresponding to the rotation amount by the light emission of the set temperature LED 58a. Further, the air mix door 17 rotates and is set to the temperature determined by the setting dial 75. In step S17, the state determination process ends.

  If the determination in step S11 is NO, the process proceeds to step S21 to determine whether or not the outlet setting button 85 is turned on. If YES, the state is set to the blowing mode setting state in step S22. In step S23, the temperature setting LED 55a is turned off, and in step S24, the blowing mode setting LED 55b is turned on to turn on the blowing mode setting button 85 to illuminate the blowing mode setting selection display unit 103. In step S25, the air volume setting LED 55c is turned off. As a result, the entire range of the setting dial 75 is in the blowing mode determination state. When the setting dial 75 is rotated in step S26, the set outlet display portion 67, 68 or 69 corresponding to the rotation amount is turned on by the emission of the blow mode setting LED 58b. Further, the open / close door 18, 21 or 23 is rotated, and the blowing mode determined by the setting dial 75 is set.

  If the determination in step S21 is NO, the process proceeds to step S31 to determine whether or not the air volume setting button 90 is turned on. If YES, the state is set to the air volume setting state in step S32. In step S33, the temperature setting LED 55a is turned off, and in step S34, the blowing mode setting LED 55b is turned off. In step S35, the air volume setting LED 55c is turned on, the air volume setting button 90 is turned on, and the air volume setting selection display unit 104 is illuminated. As a result, the entire range of the setting dial 75 is in the air volume determination state. When the setting dial 75 is rotated in step S36, the set air volume display portion 71 in a range corresponding to the rotation amount by the light emission of the set air volume LED 58c is lit in an arc shape. Further, the fan 13 rotates and the air volume determined by the setting dial 75 is set.

  Thus, the temperature is set with the temperature setting button 80 and the setting dial 75, the air outlet mode is set with the air outlet mode setting button 85 and the setting dial 75, and the air volume is set with the air volume setting button 90 and the setting dial 75.

(C) Effects According to the embodiment, the following effects can be obtained. First, less time and effort is required for setting the temperature, air outlet mode, and air volume as the air conditioning conditions. This is because the single setting dial 75 determines the temperature level, the selection of the air outlet, and the amount of air flow. For example, when the temperature setting button 80 is pressed and the setting dial 75 is rotated, the distance between the temperature setting button 80 and the setting dial 75 is very close, so there is no need to move the hand between selection and determination. The above situation is the same when the setting dial 75 is rotated after the blowing mode setting button 85 is pressed and when the setting dial 75 is rotated after the air volume setting button 90 is pressed.

  Further, the temperature setting button 80, the blowing mode setting button 85, and the air volume setting button 90 are all disposed within the setting dial 75, and the distance between them is short. Accordingly, even when the post-rotation blowing mode setting button 85 or the air volume setting button 90 of the setting dial 75 is pressed, it is not necessary to move the hand. The arrangement of the three buttons 80, 85 and 90 in the setting dial 75 can also improve the space utilization efficiency and make the operation display device compact.

  Further, the pressing of the temperature setting button 80, the blowing mode setting button 85, and the air volume setting button 90 can be visually confirmed by the temperature setting selection display unit 102, the outlet mode setting selection display unit 103, and the air volume setting selection display unit 104, respectively. . For example, when the temperature setting button 80 is pressed, the button 80 is turned on and the temperature setting selection display unit 102 is illuminated. The same applies to the pressing of the blowing mode setting button 85 and the air volume setting button 90.

  In addition, when the setting dial 75 is rotated after the temperature setting button 80 is pressed, the set temperature display portion 64 immediately on the outer peripheral side of the temperature setting button 80 is illuminated only in a range corresponding to the rotation amount. In addition, the rotation direction of the setting dial 75 and the lighting direction of the set temperature display section 64 coincide with each other. Therefore, the passenger can intuitively confirm the temperature value. Similarly, when the setting dial 75 is rotated after the blowing mode setting setting button 85 is pressed, any one of the outlet display portions 67 to 69 on the outer peripheral side of the blowing mode setting button 85 is illuminated according to the rotation amount. Is done. When the setting dial 75 is rotated after the air volume button 90 is pressed, the set air volume display section 71 on the outer peripheral side of the air volume setting button 90 is illuminated according to the rotation amount. Therefore, the occupant can intuitively grasp the blowing mode or the amount of airflow.

  In addition, a front differential switch 32, a rear differential switch 33, and an inside / outside air changeover switch 34 are arranged on the left side, and a front differential selection display unit 36, a rear differential selection display unit 37, and an inside air selection display unit 38 are formed therein, respectively. . Since the distance between the three switches 32, 33 and 34 is short, they can be pushed with almost no movement of the hand. The same applies to the auto switch (AUTO) 42, the air volume OFF switch 43, and the air conditioner switch (A / C) 44 on the right side.

  In addition, when the front differential switch 32 on the left side is pressed, the front differential display 36 is illuminated by the LED 59a shown in FIG. 4, and the operation of the front differential can be visually confirmed. The operation of the rear differential switch 33 and the operation of the inside / outside air switch 34 can be confirmed on the display units 37 and 38, respectively. The operation of the auto switch 42 and the air conditioner switch 44 on the right side can be visually confirmed on the display units 46 and 47, respectively.

  Further, the distance from the setting dial 75 to the three switches 32, 33 and 34 on the left side and the distance to the three switches 42, 43 and 44 on the right side are short. Accordingly, the occupant only needs to move his hand slightly between the setting dial 75 and the left switch 32 or the right switch 42.

<Modification>
Hereinafter, modifications of the above embodiment will be described. In addition, the same structure as embodiment is shown with the same reference number, and it demonstrates focusing on a different structure.

(1) First Modification In the first modification shown in FIGS. 7 and 8, the positional relationship between the temperature setting button 122, the outlet setting button 124, the air volume setting button 126, and the setting dial 120 is changed. That is, the setting dial 120 has a relatively small outer diameter, and a temperature setting button 122, an outlet setting button 124, and an air volume setting button 126 are arranged in the circumferential direction around the setting dial 120. The temperature setting button 122 is made of a prism, has a rectangular cross section, extends over a half circumference, is inserted into the notch hole 63 of the display plate 62, and a temperature setting selection display portion 123 is formed thereon. The air outlet setting button 124 and the air volume setting button 126 each extend over a quarter of the circle, and an air outlet mode setting selection display section 125 and an air volume setting selection display section 127 are formed thereon, respectively. On the substrate 54 accommodated in the case 52, a switch 56a, a temperature setting LED 55a, a set temperature LED 58a, and the like are arranged.

  According to the first modification, for example, when the temperature setting button 122 is pressed, the switch 56a is turned on, the button 122 is lit by light emission from the LED 55a, and the temperature setting selection display unit 123 is illuminated. Thereby, the passenger | crew can confirm visually that the temperature setting state was selected. Here, since the temperature setting button 122 is arranged on the outer peripheral side of the setting dial 120, the temperature setting button 122 and the like can be made larger than the temperature setting dial 80 and operated while maintaining the compactness of the operation display device. It has become easier.

  Further, when the setting dial 120 is rotated next, the set temperature display section 64 in a range corresponding to the rotation amount is illuminated by the light emission from the LED 58a, and the set temperature can be grasped intuitively. This situation is the same when the blowing mode setting button 124 is depressed and when the setting dial 120 is rotated, and when the air volume setting button 126 is depressed and when the setting dial 120 is rotated.

(2) Second Modification In the second modification shown in FIG. 9, the selection member is composed of three buttons 132, 134, and 136 that can be pressed in the horizontal direction, and the determination member is composed of the slide lever 130. More specifically, a pushable temperature setting button 132, an air volume setting button 134, and a blowing mode setting button 136 are arranged in the horizontal direction. A temperature setting selection display section 133 is formed on the temperature setting button 132, an air volume setting selection display section 135 is formed on the air volume setting button 134, and a blowing mode setting selection display section 137 is formed on the blowing mode setting button 136. Yes.

  The slide lever 130 disposed below the temperature setting button 132, the air volume setting button 134, and the blow mode setting button 136 is slidable in the horizontal direction within a stroke corresponding to the arrangement range of the three buttons 132, 134, and 136. . A set temperature display unit 142 is formed immediately above the temperature setting button 132, a set air volume display unit 144 is formed directly above the air volume setting button 134, and an air outlet display unit 146 is formed directly above the blow mode setting button 136. Yes.

  According to the second modification, for example, when the passenger presses the temperature setting button 132, the button 132 is turned on and the temperature setting selection display unit 133 formed on the surface is illuminated. As a result, the occupant can visually confirm the pressing of the temperature setting button 132. Further, since the entire range of the slide lever 130 having a large moving stroke is the temperature determination range, the temperature can be accurately determined by the slide. Further, when the slide lever 130 is slid, a range corresponding to the slide amount of the set temperature display unit 142 above the temperature setting button 132 is illuminated, and the slide direction of the slide lever 130 and the lighting direction of the set temperature display unit 142 are illuminated. Matches. Therefore, the occupant can intuitively grasp the set temperature.

  Similarly, when the air volume setting button 134 is pressed, the button 134 is lit and the air volume setting selection display section 135 on the surface is illuminated. When the slide lever 130 is slid, the set air volume display unit 144 immediately above the air volume setting button 134 is illuminated corresponding to the slide amount. When the blowing mode setting button 136 is pressed, the button 136 is turned on and the blowing mode setting selection display portion 137 on the surface is illuminated. When the slide lever 130 is slid, any one of the set outlet display units 146 directly above is illuminated.

It is explanatory drawing of the air conditioner with which embodiment of the best form is applied. It is a front view (outside view) of the operation display device of the embodiment. FIG. 3 is a cross-sectional view taken along line 3-3 in FIG. 2. It is explanatory drawing which shows arrangement | positioning of the switch and LED in embodiment. It is explanatory drawing of the control system of embodiment. It is a flowchart explaining the effect | action of embodiment. It is a front view corresponding to FIG. 2 which shows a 1st modification. It is 8-8 sectional drawing of FIG. It is a front view corresponding to FIG. 2 which shows a 2nd modification.

Explanation of symbols

10: Air-conditioning case 12: Fan 17: Air mix door 18, 21, 23: Open / close door 52: Case 54: Board 55a to 55c: Switch 56a to 56c, 58a to 58c: LED
64, 67 to 69, 71: Second display section 75: Setting dial 80: Temperature setting button 85: Blow mode setting button 90: Air volume setting button 102, 103, 104: First display section

Claims (7)

A selection member (80, 85, 90) operated to select any one of a plurality of air conditioning conditions in the air conditioner;
One determination member (75) operated to determine the content of the air conditioning condition selected by the selection member;
An air conditioner operating device characterized by comprising:   The selection member is a plurality of buttons that can be pushed in and arranged in a circumferential direction, the determination member is a rotatable dial, and the plurality of buttons are arranged in or around the dial. The operating device for an air conditioner described.   2. The air conditioner according to claim 1, wherein the selection member is a plurality of buttons that are arranged in a predetermined direction and can be pushed in, and the determination member is a slide lever that is arranged near the plurality of buttons and is slidable in the predetermined direction. Operating device.   The said dial and the said slide lever are the operation apparatuses for air conditioners of Claim 2 or 3 which determine the content of the selected air conditioning conditions in the whole range.   2. The air conditioner operating device according to claim 1, wherein each of the plurality of selection members includes a first display unit (102, 103, 104) that displays an air conditioning condition that is illuminated and selected during the operation.   2. The air conditioner operation device according to claim 1, further comprising a plurality of second display units (64, 67 to 69, 71) that are illuminated when the determination member is operated and display the content of the selected air conditioning condition.   The operation device for an air conditioner according to claim 6, wherein each of the plurality of second display units is arranged in the vicinity of the plurality of selection members along the operation direction of the determination member.

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