JP2012166669A - Function selection type air condition control device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make an operation state easy to understand, while the number of components is reduced, in a function selection type air condition control device.SOLUTION: Air condition control device 10 includes: an operation part 11 including a push knob 30 for selecting an air conditioning function, and a dial knob 50 for performing air condition adjustment of the selected air conditioning function; and a liquid crystal display part 70. The push knob 30 selects three air conditioning functions one by one by sequentially performing pushing operations. A push mark 34, function marks 36, 38, and 40, and selection direction marks 42, 44, and 46 are provided to the head of push knob 30. To the liquid crystal display 70, a temperature setting display block 82, air blowout switching setting display block 84 and an air volume setting display block 86 are distinctively provided.

Description

  The present invention relates to a function selection type air conditioning control device, and more particularly to a function selection type air conditioning control device that selects a plurality of air conditioning functions of an air conditioning device including a heater and performs air conditioning adjustment settings for the selected air conditioning function.

  The air conditioning in the vehicle interior of the vehicle is performed by adjusting the temperature, adjusting the air volume, switching the inside / outside air blowing, and the like. For the adjustment, an operation panel of an air conditioning control device called a control panel or a heater controller is provided in the vehicle interior.

  For example, in Patent Document 1, as a vehicle control panel, an air conditioner on / off, a mode switching switch, an inside / outside air switching switch, which is arranged between a driver seat and a passenger seat of a vehicle instrument panel, is used. It is stated that many operators are arranged. Here, it is divided into two combination dials, and the first combination dial is a blower dial for switching the air volume by the inner dial and a blower switching dial for selecting the air outlet by the outer dial. It is disclosed that the second combination dial is an inside / outside air switching dial for selecting whether the inside dial takes in air from outside the vehicle, and the outside dial is a temperature setting dial for setting a target temperature.

  In each of these combination dials, a display plate is provided on the portion of the inner dial that is covered by the outer dial, and displays a mark indicating the operation state of the control item of the inner dial. The outer dial is made of a transparent material. Thus, the marks on these display boards are visible from the front. In addition, it is disclosed that a mark related to an operation state of a control item of the outer dial is displayed in a portion around the outer dial.

  Recently, a function selection type heater controller as shown in FIG. 1 has been used. The heater controller 100 in FIG. 1 includes an operation switch device 102 and a liquid crystal display unit 104. The operation switch device 102 is provided with three push button switches 106, 108, 110 on the inner peripheral side and a dial 112 on the outer peripheral side. The liquid crystal display unit 104 displays temperature setting, balloon switching setting, and air volume setting.

  When the switch 106 is pressed, an indicator lamp is lit on the switch portion, indicating that the temperature can be adjusted. When the dial 112 is rotated in this state, the temperature setting number of the liquid crystal display unit 104 changes according to the rotation. The user can set a desired temperature by rotating the dial 112 to a desired temperature while looking at the temperature setting number.

  When the switch 108 is pressed, an indicator lamp is lit on the switch portion, indicating that the air blowing mode can be switched. When the dial 112 is rotated in this state, the display of the balloon switching setting on the liquid crystal display unit 104 is switched according to the rotation depending on whether it is a foot balloon display or a front balloon display. The user can perform a desired air blowing switching setting by rotating the dial 112 to a desired air blowing position while watching the display switching.

  When the switch 110 is pressed, an indicator lamp is lit on the switch portion, indicating that the air volume can be adjusted. When the dial 112 is rotated in this state, the air volume setting bar graph of the liquid crystal display unit 104 changes according to the rotation. The user can set the desired air volume by rotating the dial 112 to the desired air volume while viewing the bar graph indicating the air volume.

JP-A-10-236136

  Since various settings can be considered for air conditioning adjustment in the passenger compartment, the configuration of the operation panel tends to be complicated. In the function selection type heater controller of FIG. 1, three individual switches are used for function selection, and an indicator lamp is provided for each so as to know the function selection position. The air conditioning is adjusted by turning the dial while looking at the liquid crystal display. As described above, since the number of function selections includes a single switch, the number of function selection indicator lamps to indicate what the selected function is, and the liquid crystal display unit, the number of components is large and the cost is high. It takes.

  An object of the present invention is to provide a function selection type air conditioning control device with a small number of parts and easy to understand operation state.

  The function selection type air-conditioning control device according to the present invention sets the air-conditioning adjustment for a push button for selecting one of a plurality of air-conditioning functions of an air-conditioning apparatus including a heater, and the air-conditioning function selected by the push button. A display unit for displaying a setting content of air conditioning adjustment set by the dial for the air conditioning function selected by the push button, and a plurality of display blocks corresponding to a plurality of air conditioning functions; It is characterized by providing.

  In the function selection type air conditioning control device according to the present invention, the push button is preferably a sequential selection type switch that sequentially selects a plurality of air conditioning functions for each push operation.

  Further, in the function selection type air conditioning control device according to the present invention, the push button is disposed between a push mark for prompting a push operation, a plurality of function marks corresponding to a plurality of air conditioning functions, and each function mark. It is preferable to include a push operation plate having a selection direction mark indicating a direction in which the air-conditioning function selected every time is pressed.

  With the above configuration, the function selection type air conditioning control device selects one of the plurality of air conditioning functions by the push button, and sets the air conditioning adjustment for the air conditioning function selected by the dial. The display unit has a plurality of display blocks corresponding to the plurality of air conditioning functions, and displays the display block corresponding to the air conditioning function selected by the push button using a distinction display method for distinguishing from other display blocks. . And the setting content of the air-conditioning adjustment set with a dial about the distinguished display block is displayed.

  In this way, one of a plurality of air-conditioning functions is selected with one push button, and the display section shows a distinction display indicating what the selected function is and the state of adjustment related to that function. The setting contents display was concentrated. Thereby, the number of parts can be reduced. In addition, since the user can perform desired air conditioning settings by looking only at the display unit, the operation state is easy to see.

  The push button is a sequential selection type switch that sequentially selects a plurality of air conditioning functions for each push operation. Therefore, the user can select a desired air conditioning function simply by repeatedly pushing back the push button while looking at the display unit. In this way, since one of a plurality of air conditioning functions can be selected with one push button, the number of parts can be reduced.

  Further, the push button is provided with a selection direction mark indicating a direction in which the air-conditioning function selected every time the push button is pressed between the plurality of function marks corresponding to the plurality of air-conditioning functions. As a result, the user can easily see in what order the air-conditioning function is switched with a single push button, so that the operation state is easy to see.

It is a figure explaining the function selection type heater controller of a prior art. It is an external view of the function selection type air-conditioning control device of an embodiment concerning the present invention. It is sectional drawing in the AA of FIG. It is sectional drawing in the BB line of FIG. It is an external view of the part of the push button and dial of the function selection type air-conditioning control apparatus of embodiment which concerns on this invention. It is a figure explaining the mode of the distinction display method when performing temperature control in the function selection type air-conditioning control device of an embodiment concerning the present invention. It is a figure explaining the mode of the distinction display method when performing air blowing switching about the function selection type air-conditioning control device of an embodiment concerning the present invention. It is a figure explaining the mode of the distinction display method when performing air volume adjustment about the function selection type air-conditioning control device of an embodiment concerning the present invention.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. In the following, a function-selection type air conditioning control device for mounting on a vehicle will be described. However, even if it is not for mounting on a vehicle, it is sufficient if a plurality of air conditioning functions are selected and air conditioning adjustment is set for each. For example, it may be for individual room air conditioning. In the following description, the number of air conditioning functions that can be selected is described as three. However, this is an example for explanation, and a larger number of air conditioning functions may be selected. Further, as the air conditioning function, temperature adjustment, air blowing switching, and air volume adjustment will be described, but these are examples for explanation and may be related to setting of an air conditioning function other than these. For example, switching between indoor air circulation and intake of outside air may be used. In addition, although a liquid crystal display panel will be described as the display unit, other display devices may be used. For example, an LED display device or the like may be used.

  Below, the same code | symbol is attached | subjected to the same element in all the drawings, and the overlapping description is abbreviate | omitted. In the description in the text, the symbols described before are used as necessary.

  FIG. 2 is an external view of the function selection type air conditioning control device 10 mounted on the vehicle. Hereinafter, the function selection type air conditioning control device 10 will be described simply as the air conditioning control device 10. The air conditioning control device 10 is an air conditioning control panel provided for the user to adjust the air conditioning state in the passenger compartment. Specifically, it is an adjustment panel for changing the operation state of a heater, a fan, an air blowing switching plate, and the like.

  The air conditioning control device 10 includes an operation unit 11 and a liquid crystal display unit 70 attached to the panel 12. The operation unit 11 includes a push button type push knob 30 provided on the inner diameter side and a rotary operation type dial knob 50 provided on the outer peripheral side of the push knob 30. 3 is a cross-sectional view taken along line AA in FIG. 2, and FIG. 4 is a cross-sectional view taken along line BB in FIG.

  As shown in FIG. 3 and FIG. 4, the air conditioning control device 10 combines the panel 12 arranged on the front side and the case 14 arranged on the back side to constitute the entire housing unit. This entire casing is disposed as a part of the instrument panel of the vehicle in a portion between the driver's seat and the passenger seat of the vehicle. The panel 12 having a desired shape can be used by appropriate resin molding. The case 14 can be made of plastic, metal or the like and molded into a desired shape.

  Components other than the casing of the air conditioning control device 10 can be broadly classified into a housing subassembly 20 and a substrate subassembly 60. The housing subassembly 20 is a subassembly in which a push noble retainer 24, a dial noble retainer 26, a push knob 30, and a dial knob 50 are assembled around the housing 22. The substrate subassembly 60 is a subassembly in which a tact switch 64, a dial switch 66 (see FIG. 4), and a liquid crystal display unit 70 are assembled with a substrate 62 as a center. The liquid crystal display unit 70 includes a liquid crystal panel 72, a liquid crystal panel holder 74, and a display plate 76.

  The housing 22 is a component fixed in combination with the base plate 62 and the panel 12, and has a guide function when the push knob 30 is pushed back via the push noble retainer 24. It has a guide function when the knob 50 is rotated. The housing 22 can be made of a suitable resin material and molded into a desired shape.

  The push knob 30 is a push button that presses an operation element of the tact switch 64, that is, a push button. The push knob 30 returns to its original position when the tact switch 64 is pressed once. That is, it is a button for pushing back. The return to the original position is due to a restoring force of a return spring (not shown). If the restoring force of the return spring built in the tact switch 64 is sufficiently large, this may be used. In that case, it is not necessary to provide a special return spring.

  The head of the push knob 30 corresponds to an operation unit on which the user performs a push operation, but has a relatively large push area. A display board for displaying a plurality of types of air-conditioning functions is provided using the wide pushing area of the head. Details of the display panel will be described later with reference to FIG.

The tact switch 64 is attached to the substrate 62 and outputs an ON signal when the operation element is pushed. When the operation element is not pushed, the tact switch 64 returns to the original state by the restoring force of the built-in return spring and is turned off. This is a switch. Although not shown, the tact switch 64 is connected to a display unit control circuit mounted on the substrate 62 using an appropriate signal line. But a display part control circuit is good also as a function of the control part outside the air-conditioning control apparatus 10. FIG.
A display unit control circuit (not shown) monitors the number of ON signals output from the tact switch 64 and switches the display of the liquid crystal display unit 70 according to the number of times. Specifically, when the tact switch 64 is first turned on from the initial state, the liquid crystal display unit 70 is controlled to display the temperature setting. Next, when the tact switch 64 is turned on, the liquid crystal display unit 70 is controlled to display the air blowing switching setting. It should be noted that the tact switch is turned on for the second time from the initial state. When the tact switch 64 is turned on next time, the liquid crystal display unit 70 is controlled to display the air volume setting. Furthermore, the fact that the tact switch is turned on is the third turn on from the initial state. When the tact switch 64 is turned on again, the liquid crystal display unit 70 is controlled to display the temperature setting again.

  As described above, the display unit control circuit circulates the liquid crystal display unit 70 according to the number of times the tact switch 64 is turned on, such as temperature setting-air blowing switching setting-air volume setting-temperature setting-. Control display switching.

  The push noble retainer 24 is a cylindrical member that supports the inner peripheral side of the push knob 30 and slides a rail provided on the housing 22. When the push knob 30 is pushed, the operation element of the tact switch 64 is pushed down by sliding the rail through the push noble retainer 24. As a result, the tact switch 64 is turned on.

The dial knob 50 is a rotary operator that turns the dial switch 66 on and off.
The dial switch 66 is a switch that outputs a signal corresponding to the rotation angle of the dial knob 50. The signal corresponding to the rotation angle may be an analog signal, but can be a digital signal when several steps of identification are sufficient. In order to output a digital signal corresponding to the rotation angle, a plurality of switches can be arranged on the circumference around which the dial knob 50 rotates, and sequentially turned on and off according to the rotation angle of the dial knob 50. The dial switch 66 is connected to the display unit control circuit described in the section of the tact switch 64 by an appropriate signal line.

  Based on the signal transmitted from the tact switch 64, the display unit control circuit interprets the meaning of the on / off signal of the dial switch 66 and gives an instruction to the liquid crystal display unit 70 to display the adjustment setting. .

  When the signal transmitted from the tact switch 64 indicates that the temperature setting function is selected, the on / off signal of the dial switch 66 is interpreted as information relating to temperature adjustment. Then, on / off signal information of the dial switch 66 is converted into temperature setting data based on an information conversion relationship such as a predetermined table. For example, the on / off signal of the dial switch 66 has 10 levels, and according to the information conversion relationship, each level is converted into a range from 18 ° C. to 28 ° C. in 1 ° C. increments. If the on / off signal of the dial switch 66 is in the fifth stage, the temperature setting is 22 ° C., so the liquid crystal display unit 70 is instructed to display 22 ° C. as the temperature adjustment setting.

  When the signal transmitted from the tact switch 64 is a function selection for air blowing switching setting, it is interpreted that the on / off signal of the dial switch 66 is information relating to air blowing switching adjustment. Then, on / off signal information of the dial switch 66 is converted into air blowing switching setting data based on an information conversion relationship such as a predetermined table. For example, the on / off signal of the dial switch 66 has 10 levels, and according to the information conversion relationship, the 1st to 3rd stages are foot balloons, and the 4th to 6th stages are front balloons. It is assumed that the seventh to tenth stages are converted to the combined use of the foot balloon and the front balloon. If the on / off signal of the dial switch 66 is in the eighth stage, the balloon switching setting is a combination of the balloon balloon and the front balloon. And instructing to display the front balloon together.

  When the signal transmitted from the tact switch 64 is a function selection for air volume setting, it is interpreted that the on / off signal of the dial switch 66 is information relating to the air volume adjustment. Then, on / off signal information of the dial switch 66 is converted into air volume setting data based on an information conversion relationship such as a predetermined table. For example, the on / off signal of the dial switch 66 has 10 levels. According to the information conversion relationship, the air volume is 1 at the 1st and 2nd stages, the air volume is 2 at the 3rd and 4th stages, and the 5th and 6th stages. In some cases, the air volume is 3, and the air volume is 4 in the 7th and 8th stages, and the air volume is converted in the 9th and 10th stages. If the on / off signal of the dial switch 66 is in the fourth stage, since the air volume setting is the air volume 2, the liquid crystal display unit 70 is instructed to display the air volume 2 as the air volume adjustment setting.

  The dial noble retainer 26 is a cylindrical member that supports the inner peripheral side of the dial knob 50 and rotates on the housing 22. When the dial knob 50 rotates, the dial noble retainer 26 rotates on the housing 22, thereby turning on / off the dial switch 66 provided on the rotation circle.

  The liquid crystal display unit 70 includes the liquid crystal panel 72, the liquid crystal panel holder 74, and the display plate 76 as described above. The liquid crystal panel 72 is connected to the display unit control circuit described above by an appropriate signal line. The liquid crystal panel holder 74 is a frame member that attaches and holds the liquid crystal panel 72 to the substrate 62. The display board 76 is a parting board provided on the panel 12, and the user views the display on the liquid crystal panel 72 through the display board 76. Below, the display content of the display board 76 is demonstrated, but the display of the display board 76 is substantially the same as the display of the liquid crystal panel 72. FIG.

  As shown in FIG. 1, the liquid crystal panel 72 is a set of a plurality of liquid crystal display segments. Each liquid crystal display segment is provided with electrodes so as to sandwich liquid crystal molecules. A drive signal is supplied from the display unit control circuit to each electrode of each liquid crystal display segment. When the drive signal is not supplied, the liquid crystal display segment is turned off. When the drive signal is supplied, the liquid crystal display segment is turned on. Here, the liquid crystal is extinguished means that the liquid crystal display segment drive signal is not given, but is simply a backlight color by visual observation, and the drive signal is given to the liquid crystal display segment, resulting in black display. . In the case of a color liquid crystal, a predetermined color display is obtained.

  The display on the display panel 76, which is the display of the liquid crystal display unit 70, is divided into a plurality of display blocks as shown in FIG. The plurality of display blocks are divided for each air conditioning function. That is, the display block is divided into a display block for temperature setting, a display block for air blowing switching setting, and a display block for air volume setting. The contents of each display block will be described later.

  FIG. 5 is a diagram illustrating the details of the operation unit 11. Of the operation unit 11, the dial knob 50 is a cylindrical dial having a size such that the user can easily rotate the outer peripheral side. The push knob 30 is a push operation plate 32 whose head has a relatively wide pushing area so that the user can easily push it.

  The push operation board 32 is a circular operation board / display board. Three types of marks are provided on the push operation plate 32 by printing or the like. In addition to printing, digging and other display methods may be used. The three types of marks are a push mark 34, function marks 36, 38, 40, and selection direction marks 42, 44, 46. These marks are simply provided, and although the whole may be brightened by a lamp or the like, a specific one of the plurality of marks is not distinguished by an indicator lamp or the like.

  A push mark 34 provided in the center of the push operation plate 32 is a display mark that prompts the user to perform a push operation. In FIG. 5, “PUSH” is displayed. Three function marks 36, 38, and 40 provided outside the push mark 34 are display marks that respectively indicate a temperature setting function, an air blowing switching setting function, and an air volume setting function. In FIG. 5, “TEMP” indicates a temperature setting function, “person mark, balloon mark, and balloon direction arrow” indicates an air balloon switching function, and “fan mark” indicates an air volume setting function.

  The selection direction marks 42, 44, 46 provided between the three function marks are cyclically changed cyclically in response to an on / off signal of the tact switch 64 that is output each time the push knob 30 is pressed. It is a mark to clarify the direction of function change. That is, the selection direction marks 42, 44, 46 are marks indicating a selection direction indicating a direction in which the air conditioning function selected every time the push knob 30 is pressed is sequentially switched.

  The selection direction marks 42, 44, 46 are not the arrow marks that are often used, but marks that image the tips of the arrows. In the example of FIG. 5, a tapered streamline pattern is used as the selection direction marks 42, 44, 46. If this is a commonly used arrow, the user may misunderstand that the function selection is performed when the dial knob 50 is rotated in the direction of the arrow. The function selection is performed by pushing the push knob 30, and is not performed by rotating the dial knob 50 or rotating the push knob 30. In order not to cause such misunderstanding of the user, the selection direction marks 42, 44, 46 are not arrows but marks that abstractly represent the tip of the arrow.

  Thus, by using the selection direction marks 42, 44, and 46, it is possible to clearly show that the three air conditioning functions can be switched and which air conditioning function is to be switched next.

  Next, the display on the display plate 76 of the liquid crystal display unit 70 will be described with reference to FIGS. As shown in these drawings, the display board 76 is divided into five display blocks 80, 82, 84, 86 and 88. That is, the air-conditioning display block 80, the temperature setting display block 82, the air blowing switching setting display block 84, the air volume setting display block 86, and the circulation display block 88.

  The air conditioning display block 80 is a block for displaying that air conditioning is being performed and that automatic air conditioning operation is being performed. The air conditioning display block 80 turns off the liquid crystal when air conditioning is not performed, and turns on the liquid crystal when air conditioning is performed and the automatic air conditioning operation is performed.

  The temperature setting display block 82 is a block for displaying the contents of temperature adjustment when the temperature setting function is selected. In the examples of FIGS. 6 to 8, it is displayed that the temperature adjustment is in the state of 28.5 ° C.

  The air balloon switching setting display block 84 is a block for displaying the contents of the switching setting when the air balloon switching setting function is selected. In the example of FIGS. 6 to 8, it is displayed that the air balloon switching setting is the combined use of the foot balloon and the front balloon.

  The air volume setting display block 86 is a block for displaying the contents of air volume adjustment when the air volume setting function is selected. In the example of FIGS. 6 to 8, it is displayed that the air volume is adjusted to 6.

  The circulation display block 88 is a block for displaying that air is circulating in the vehicle interior. The circulation display block 88 turns off the liquid crystal when air is not circulating and turns on the liquid crystal when air is circulating.

  Here, the display contents of the display blocks 82, 84, and 86 change in response to the user turning the dial knob 50 to adjust the air conditioning. At this time, a distinction display method is used in which the display block corresponding to the air conditioning function selected by the push knob 30 is distinguished from other display blocks so that it can be seen at a glance which air conditioning function is being adjusted.

  FIG. 6 is a diagram showing how the temperature setting display block 82 is distinguished from other display blocks when the temperature setting function is selected. Here, a frame 83 surrounding the temperature setting display block 82 is lit. The frame lines of other display blocks are not lit. FIG. 7 shows a state where only the frame 85 surrounding the air balloon switching setting display block 84 is turned on when the air balloon switching function is selected. FIG. 8 shows a state in which only the frame line 87 surrounding the air volume setting display block 86 is turned on when the air volume setting function is selected.

  As described above, when the user presses the push knob 30, one of the frame lines 83, 85, and 87 is lit on the display plate 76 of the liquid crystal display unit 70. When the user repeatedly presses the push knob 30, the frame lines 83, 85, and 87 are sequentially switched. Thereby, the user looks at the display on the display plate 76 of the liquid crystal display unit 70 while referring to the three function marks 36, 38, 40 of the push knob 30 and the selection direction marks 42, 44, 46. The push knob 30 can be operated so that the air conditioning function is selected. When the desired air conditioning function is selected, the dial knob 50 can be rotated to perform desired air conditioning adjustment while viewing the display on the display plate 76 of the liquid crystal display unit 70.

  The function selection type air conditioning control device according to the present invention can be used for adjusting an air conditioning device mounted on a vehicle.

  10 (Function selection type) Air-conditioning control device, 11 Operation part, 12 Panel, 14 Case, 20 Housing subassembly, 22 Housing, 24 Push noble retainer, 26 Dial noble retainer, 30 Push knob, 32 Push operation plate, 34 Push mark 36, 38, 40 Function mark, 42, 44, 46 Selection direction mark, 50 Dial knob, 60 Substrate subassembly, 62 Substrate, 64 Tact switch, 66 Dial switch, 70 Liquid crystal display, 72 Liquid crystal panel, 74 Liquid crystal Panel holder, 76 display board, 80, 82, 84, 86, 88 display block, 83, 85, 87 frame line, 100 heater controller, 102 operation switch device, 104 liquid crystal display unit, 106, 108, 110 switch, 112 die Yal.

Claims (3)

A push button for selecting one of a plurality of air-conditioning functions of the air-conditioning equipment including the heater;
For the air conditioning function selected by the push button, the dial for setting the air conditioning adjustment,
A plurality of display blocks corresponding to a plurality of air conditioning functions, each display block displaying a setting content of the air conditioning adjustment set by the dial for the air conditioning function selected by the push button;
A function-selective air-conditioning control device comprising: In the function selection type air-conditioning control device according to claim 1,
The push-button is a sequential selection type switch that sequentially selects a plurality of air-conditioning functions for each push operation. In the function selection type air conditioning control device according to claim 2,
Push button
A push mark prompting a push operation,
Multiple function marks corresponding to multiple air conditioning functions,
A selection direction mark that is arranged between each function mark and indicates the direction in which the air conditioning function selected every time the push button is pressed, and
A function-selective air conditioning control device comprising a push operation board having

Images