JP2011185471A - Air conditioner and its program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner capable of allowing a user to intuitively control air-conditioning. <P>SOLUTION: A remote controller 201 includes a touch panel 202, an input detecting section 402 for detecting a coordinate position input to the touch panel 202, and a control area setting section 502 for setting an area where the air-conditioning is controlled, on the basis of the detected coordinate position, and the user intuitively inputs an optional area to the touch panel 202. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an air conditioner including an indoor unit, an outdoor unit, and a remote controller, and relates to a user interface technology that improves user operability.

  In recent years, air conditioners such as room air conditioners for home use are equipped with a human body detection sensor such as an infrared sensor in the interior of the indoor unit, and the area where people are present is automatically comfortable. It is possible to control the temperature of every corner of the room by installing various airflow control technologies such as controlling the temperature and installing a plurality of flaps and increasing the number of outlets.

  However, the indoor unit itself can automatically operate various temperature control and air-conditioning control, but on the other hand, the whole room is operated more than necessary and energy saving operation is not possible. When you want to perform air conditioning control only in the area, since the wind direction control is complicated, there is an operational problem that the user needs to make detailed settings with the remote control while checking the wind direction by himself .

  Therefore, as means for solving the above-described problem, there is means (for example, see Patent Document 1) equipped with a button for designating an area for sending an air current to the remote controller.

  Here, the principle model of the air conditioner described in Patent Document 1 is shown in FIG. In FIG. 13, the remote controller 201 includes a display unit 901, area designation buttons 902 to 906 for designating areas i to f for which the indoor unit 101 performs temperature control, and a remote control transmission unit 203 that transmits setting data to the indoor unit 101. Is done.

  In the air conditioner configured as described above, the indoor unit 101 can control the temperature of the designated area by designating the area where the user wants to perform temperature control with the area designation buttons 902 to 906. In addition to improving user operability, it is possible to perform energy-saving operation without driving the entire room more than necessary.

JP 2007-147120 A

  However, in the conventional means, it is troublesome to specify a plurality of areas, only a predetermined area can be specified, or when specifying the area in detail, the number of buttons for specifying the area increases. There was a problem that setting was difficult.

  Accordingly, an object of the present invention is to provide an air conditioner that allows a user to intuitively specify an arbitrary region easily.

  In order to solve the above-described conventional problems, the present invention provides a remote controller with a touch panel, an input detection unit that detects a coordinate position input to the touch panel, and a region in which temperature control is performed based on the detected coordinate position information. The air conditioner includes a control region setting unit to be set.

  According to the present invention, it is possible to detect a touch operation input to the touch panel and set a region for temperature control based on the detected input information. Can be specified, and further energy-saving operation can be performed.

The block diagram of the air conditioner in Embodiment 1 of this invention Remote control configuration diagram in Embodiment 1 of the present invention Flowchart in Embodiment 1 of the present invention Flowchart in Embodiment 1 of the present invention FIG. 7 is a diagram of a remote control display screen in Embodiment 1 of the present invention. The block diagram of the air conditioner in Embodiment 2 of this invention Remote control block diagram in Embodiment 2 of the present invention Flowchart in Embodiment 2 of the present invention FIG. 10 is a diagram of a remote control display screen in Embodiment 2 of the present invention. Remote control block diagram in Embodiment 3 of the present invention Flowchart in Embodiment 3 of the present invention The figure of the remote control display screen in Embodiment 3 of this invention Configuration diagram of conventional air conditioner

  1st invention WHEREIN: The touch panel, the input detection part which detects the coordinate position input into the said touch panel, and the control area | region setting part which sets the area | region which performs air-conditioning control based on the detected coordinate position information on a remote control Since the user can intuitively specify an arbitrary area, the user can easily specify the area.

  The second aspect of the invention, in particular, in the air conditioner remote control of the first aspect of the invention, further comprises a region temperature setting unit for setting a set temperature of each region based on the coordinate position information detected from the input detection unit, Since it is possible to intuitively specify the set temperature of the designated area, the user can easily control the temperature of the designated area.

  According to a third aspect of the invention, in particular, in the air conditioner of the first or second aspect of the invention, the area temperature detecting means for detecting the current temperature of each area in the indoor unit main body, and the temperature information acquired from the indoor unit main body are used. Is equipped with a region temperature determination unit that determines the temperature distribution state of each region, and the current temperature information of each region can be displayed on the touch panel, so that the user can easily obtain the temperature information of each region. Appropriate area designation and temperature control can be performed.

  According to a fourth aspect of the invention, in particular, in the air conditioner of any one of the first to third aspects of the invention, the area shape detecting means for detecting an area shape / obstacle in the indoor unit body and the indoor unit body are obtained. The area shape determination unit that determines the area where the area shape / obstacle exists is based on the area information, and the area shape / obstacle information of each area can be displayed on the touch panel. Area shape and obstacle information can be acquired, and appropriate area designation and temperature control can be performed.

According to a fifth aspect of the present invention, in particular, in the air conditioner of any one of the first to fourth aspects, the human body detecting means for detecting a region where a person is present in the indoor unit body, and the human body acquired from the indoor unit body Since a human body determination unit that determines an area where a person exists based on detection information is provided and information on the position of the person can be displayed on the touch panel, the user can easily acquire the presence information of the person in each area. Therefore, appropriate area designation and temperature control can be performed.

  In a sixth aspect of the present invention, in particular, in the air conditioner of any one of the first to fifth aspects of the present invention, a region shape / obstacle is set based on input information detected from the input detection unit in a remote controller Since the setting unit is provided and the user can set an arbitrary area shape and obstacle information, the indoor unit main body can perform optimal air conditioning control based on the set area shape information.

  In the seventh aspect of the invention, in particular, in the air conditioner according to any one of the first to sixth aspects of the invention, the installation position of the indoor unit body is set on the remote controller based on the coordinate position information detected from the input detection unit. Since the installation position setting unit is provided and the installation position of the indoor unit body set by the installation position setting unit can be displayed on the touch panel, the user can intuitively specify an appropriate area.

  An eighth invention is a program for causing a computer to execute at least a part of any one of the first to seventh inventions, and to easily realize all or part of the present invention using a general-purpose computer or a server. Can do.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
1 and 2 show a configuration diagram of an air conditioner and a remote controller according to the first embodiment of the present invention.

  In FIG. 1, an indoor unit 101 includes an upper / lower flap 102, a left / right flap 103, and a main body reception unit 104 that receives data transmitted from a remote controller 201. The remote controller 201 includes a touch panel 202 including a display device and an input device. A remote control transmission unit 203 that transmits data to the indoor unit 101, a setting button 301 that confirms information input to the touch panel 202, and a release button 302 that deletes information input to the touch panel 202. In FIG. 2, the remote controller 201 includes a control unit 401 that controls the touch panel 202, an input detection unit 402 that detects a coordinate position touch-inputted to the touch panel 202, and coordinate position information detected by the input detection unit 402. The input determination unit 501 for determining the input and the input determination unit 501 A display output unit 403 that outputs data for displaying the trajectory input based on the determined determination result on the touch panel 202 and the remote control transmission unit 203 based on the determination result determined by the input determination unit 501. And a transmission data setting unit 601 for setting data to be transmitted to the indoor unit 101.

  Here, the input determination unit 501 includes a control region setting unit 502 that sets a control region based on the coordinate position information detected by the input detection unit 402, and the coordinate position information detected by the input detection unit 402. The region temperature setting unit 503 originally sets the region temperature.

  In the description of claim 1, the input determination unit 501 is configured to include a control region setting unit 502.

  About the air conditioner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below using the flowchart of FIG.

First, on the touch panel 202 of the remote controller 201, the user inputs a control area where temperature control is desired (step 1). The input detection unit 402 detects the touched coordinate position from the information input to the touch panel 202, and notifies the input determination unit 501 of the coordinate position information (step 2). The input determination unit 501 displays and outputs the locus input to the touch panel 202 via the display output unit 403 based on the coordinate position information notified from the input detection unit 402 (step 3), and sets a control region. The unit 502 accumulates the coordinate position information notified from the input detection unit 402 (step 4).

  When the user completes the input of the control area (for example, the display content on the touch panel 202 in FIG. 1) and presses the setting button 301 (step 5), the control area setting unit 502 uses the accumulated coordinate position information. The control area is determined (step 6), and the determined control area information is notified to the transmission data setting unit 601. The transmission data setting unit 601 transmits the control area to the indoor unit 101 via the remote control transmission unit 203 ( Step 7). The indoor unit 101 receives the control area information transmitted from the remote controller 201 via the main body reception unit 104, and controls the upper and lower flaps 102 and the left and right flaps 103 with respect to the control area corresponding to the received control area information. Air conditioning control is performed.

  As described above, in the present embodiment, the user can specify an arbitrary control area intuitively, and thus the user can easily specify the control area without worrying about the shape or the number of areas. It is possible to specify a control area.

  In this embodiment, it is possible to use the release button 302 to clear the continuous coordinate position information input by the user immediately before, and the user does not have to press the setting button 301. When a preset time has elapsed since the end of the user input, the control area setting unit 502 determines that the user input has been completed, determines the control area based on the previous coordinate position information, The transmission data setting unit 601 may be notified.

  Furthermore, the control method of the touch panel 202 of the present embodiment may be a resistance film method or a capacitance method.

  In the description of claim 2, in addition to the constituent elements of claim 1, the input determination unit 501 includes a region temperature setting unit 503 that sets a region temperature based on the coordinate position information detected by the input detection unit 402. It is set as the structure provided.

  The operation and action of the air conditioner configured as described above will be described below using the flowchart of FIG.

  First, on the touch panel 202 of the remote controller 201, the user inputs a set temperature to a control area where temperature control is desired (step 1). The input detection unit 402 detects the touched coordinate position from the information input to the touch panel 202, and notifies the input determination unit 501 of the coordinate position information (step 2). The input determination unit 501 displays and outputs the locus input to the touch panel 202 via the display output unit 403 based on the coordinate position information notified from the input detection unit 402 (step 3), and sets the region temperature. The unit 503 accumulates the coordinate position information notified from the input detection unit 402 (step 4).

When the user completes the input of the set temperature (for example, the content displayed on the touch panel 202 in FIG. 5A) and presses the set button 301 (step 5), the region temperature setting unit 503 stores the accumulated coordinates. The corresponding control region and set temperature are determined from the position information (step 6), the determined control region information and set temperature information are notified to the transmission data setting unit 601, and the transmission data setting unit 601 Then, the control area information and the set temperature information are transmitted to the indoor unit 101 (step 7). The indoor unit 101 receives the control area information and the set temperature information transmitted from the remote controller 201 via the main body reception unit 104, and becomes the received set temperature for the control area corresponding to the received control area information. The temperature is controlled by controlling the upper and lower flaps 102 and the left and right flaps 103.

  As described above, in the present embodiment, since the user can intuitively specify the set temperature for an arbitrary control region, the user does not care about the shape and the number of regions of the designated region. It is possible to easily and finely set the temperature for the necessary control region.

  In this embodiment, it is possible to use the release button 302 to clear the continuous coordinate position information input by the user immediately before, and the user does not have to press the setting button 301. When a preset time has elapsed after the user input ends, the region temperature setting unit 503 determines that the user input is completed, and sets the corresponding control region based on the previous coordinate position information. The temperature may be determined and notified to the transmission data setting unit 601.

  Furthermore, in the present embodiment, it is assumed that the user may input set temperature information to the touch panel 202 while the control area information input in the first embodiment is displayed on the touch panel 202, and the control area information It is assumed that the user may continuously input the set temperature information after inputting (for example, the display content on the touch panel 202 in FIG. 5B).

(Embodiment 2)
Next, a second embodiment of the present invention will be described with reference to FIGS.

  6 and 7 show the main body transmission unit 105 that transmits data to the indoor unit 101 to the remote controller 201, and the area temperature detection means 106 that detects the current temperature of each area such as a temperature sensor. An area shape detecting means 107 for detecting an area shape / obstacle such as an ultrasonic sensor, and a human body detecting means 108 for detecting an area where a person exists such as a human sensor, and the remote controller 201 includes the indoor unit 101 A remote control receiver 204 that receives data transmitted from the remote controller, a received data determination unit 602 that determines data acquired by the remote controller receiver 204, and temperature information of each region detected by the region temperature detection means 106 In addition, the region temperature determination unit 504 that determines the temperature distribution state of each region and the region shape / obstacle information of each region detected by the region shape detection unit 107 A region shape determination unit 505 that determines a region where a state / obstacle exists, and a human body determination unit 506 that determines a region where a person exists based on the region information detected by the human body detection unit 108 And Here, in the indoor unit 101, it is assumed that region information obtained by dividing a region for temperature control into a plurality of regions is set in advance.

  In the description of claim 3, the main body transmission unit 105, the region temperature detection means 106, the remote control reception unit 204, and the region temperature determination unit 504 are provided.

  The operation and effect of the air conditioner configured as described above will be described below using the flowchart of FIG.

  First, the area temperature detection means 106 of the indoor unit 101 detects the current temperature of the target area for temperature control, and transmits the detected area information and current temperature information to the remote controller 201 via the main body transmission unit 105 ( Step 1). The reception data determination unit 602 of the remote controller 201 receives the region information and current temperature information transmitted from the indoor unit 101 via the remote control reception unit 204 and notifies the input determination unit 501 of the received region information and current temperature information. (Step 2). The region temperature determination unit 504 of the input determination unit 501 determines whether the region information and the current temperature information notified from the reception data determination unit 602 correspond to the current temperature information corresponding to which coordinate position on the touch panel 202. The current temperature corresponding to the coordinate position is stored (step 3).

  When the determination of the coordinate position and the current temperature is completed for all received data in the region temperature determination unit 504 (step 4), the region temperature determination unit 504 determines whether the current temperatures of adjacent coordinate positions are the same. Is determined (step 5), and when the current temperatures of adjacent coordinate positions match, grouping is performed as the same temperature group (step 6). When the current temperature grouping determination is completed for all coordinate positions in the region temperature determination unit 504 (step 7), the temperature distribution of the current temperature is displayed and output to the touch panel 202 via the display output unit 403 (step 7). Step 8) (for example, display contents on the touch panel 202 in FIG. 9A).

  As described above, in the present embodiment, the user can easily acquire the temperature distribution of the control region, so that the user acquires only the necessary control region after acquiring the region requiring temperature control. Temperature control can be performed, and touch panel input can be streamlined.

  In the present embodiment, only when the remote controller 201 is equipped with a mode setting button and the mode setting button is used to set the temperature acquisition mode for acquiring current temperature information from the indoor unit 101, the indoor unit 101 It is good also as a structure which acquires area | region information and present temperature information from.

  In the description of claim 4, in addition to the constituent elements of claim 3, area shape detection means 107 for detecting an area shape / obstacle such as an ultrasonic sensor, and each area detected by the area shape detection means 107. Based on the region shape / obstacle information, the region shape determining unit 505 is configured to determine a region where the region shape / obstacle exists.

  As described above, in the present embodiment, the user can easily acquire the region shape of the control region and the obstacle information (for example, the display content on the touch panel 202 in FIG. 9B). Therefore, the user can intuitively specify an appropriate control region and set the temperature.

  Further, in the present embodiment, only when the remote controller 201 is equipped with a mode setting button and the mode setting button is used to set the area shape acquisition mode for acquiring the area shape and obstacle information from the indoor unit 101. The area information and the area shape / obstacle information may be acquired from the indoor unit 101.

  Further, in the present embodiment, when the mode setting button is used to set the all information acquisition mode in which all information is acquired from the indoor unit 101, the region information, current temperature information, and region are set from the indoor unit 101. The configuration may be such that all of the shape / obstacle information is acquired and all the information is displayed on the touch panel 202.

  In the description of claim 5, in addition to the constituent elements of claim 4, human body detection means 108 for detecting an area where a person such as a human sensor exists, and area information detected by the human body detection means 108 are used. The human body determination unit 506 that determines a region where a person exists is provided.

  As described above, in the present embodiment, the user can easily acquire the position where the person is present (for example, the display content on the touch panel 202 in FIG. 9C). It is possible to intuitively specify a specific control region and control the temperature.

Further, in the present embodiment, only when the remote control 201 is equipped with a mode setting button and the mode setting button is used to set the human information acquisition mode for acquiring area information in which a person exists from the indoor unit 101. In addition, it may be configured to acquire area information where a person exists from the indoor unit 101.

  Further, in the present embodiment, when the mode setting button is used to set the all information acquisition mode in which all information is acquired from the indoor unit 101, the region information, current temperature information, and region are set from the indoor unit 101. A configuration may be adopted in which all of the shape / obstacle information and area information in which a person exists are acquired and all the information is displayed on the touch panel 202.

(Embodiment 3)
Next, a third embodiment of the present invention will be described with reference to FIGS.

  FIG. 10 shows an area shape setting unit 507 that sets an area shape / obstacle based on the coordinate position information detected by the input detection unit 402 and the input detection unit 402, as compared with the second embodiment. This configuration includes an installation position setting unit 508 that sets the installation position of the indoor unit 101 based on the coordinate position information.

  In the description of claim 6, in addition to the configuration requirements of claim 5, a region shape setting unit 507 is provided.

  About the air conditioner comprised as mentioned above, the operation | movement and an effect | action are demonstrated using the flowchart of FIG.

  First, on the touch panel 202 of the remote controller 201, the user inputs a region shape / obstacle shape in the control region (step 1). The input detection unit 402 detects the touched coordinate position from the information input to the touch panel 202, and notifies the input determination unit 501 of the coordinate position information (step 2). The input determination unit 501 displays and outputs the locus input to the touch panel 202 via the display output unit 403 based on the coordinate position information notified from the input detection unit 402 (step 3), and sets the region shape. The unit 507 accumulates the coordinate position information notified from the input detection unit 402 (step 4).

  When the user completes the input of the region shape / obstacle shape (for example, the display content on the touch panel 202 in FIG. 6A) and presses the setting button 301 (step 5), the region shape setting unit 507 The region shape / obstacle shape is determined from the accumulated coordinate position information (step 6), the determined region shape / obstacle information is notified to the transmission data setting unit 601, and the transmission data setting unit 601 The area shape / obstacle information is transmitted to the indoor unit 101 via 203 (step 7). The indoor unit 101 receives the area shape / obstacle information transmitted from the remote controller 201 via the main body reception unit 104, and follows the received area shape with respect to the control area corresponding to the received control area information. Alternatively, the air conditioning control is performed by controlling the upper and lower flaps 102 and the left and right flaps 103 so as to avoid obstacles.

  As described above, in the present embodiment, the user can intuitively specify an arbitrary area shape and obstacle information. Therefore, the indoor unit 101 can have any shape in the control area. Moreover, even when an obstacle is installed, optimal air conditioning control can be performed.

In this embodiment, it is possible to use the release button 302 to clear the continuous coordinate position information input by the user immediately before, and the user does not have to press the setting button 301. When a preset time has elapsed after the user's input is completed, the region shape setting unit 507 determines that the user's input is completed, and the region shape / obstacle information based on the coordinate position information up to that point. It is good also as a structure which confirms and notifies to the transmission data setting part 601.

  Furthermore, in the present embodiment, the remote controller 201 is equipped with a mode setting button, and only when the mode setting button is used to set the area shape setting mode for setting the area shape / obstacle information, The area shape / obstacle information may be set. The area shape / obstacle information determined by the area shape setting unit 507 may be stored, and the area shape / obstacle stored in the storage unit may be stored. The object information may be displayed on the touch panel 202 when the user needs it.

  In the description of claim 7, in addition to the configuration requirements of claim 6, a configuration provided with an installation position setting unit 508 that sets the installation position of the indoor unit 101 based on the coordinate position information detected by the input detection unit 402 And

  As described above, in this embodiment, the user can set the installation position of the indoor unit 101 and display it on the touch panel 202 (for example, a shaded portion of the display content on the touch panel 202 in FIG. 12). Therefore, the user can intuitively grasp the positional relationship between the indoor unit 101 and the control area, and can appropriately specify the area for air conditioning control.

  In the present embodiment, only when the remote controller 201 is equipped with a mode setting button and the mode setting button is used to set the installation position setting mode in which the installation position of the indoor unit 101 is set, the indoor unit 101 is set. When the user needs the installation position information stored in the storage unit, the storage unit stores the installation position information set by the installation position setting unit 508. It may be displayed on the touch panel 202.

  Furthermore, in the present embodiment, the installation position information set by the installation position setting unit 508 may be transmitted to the indoor unit 101 via the remote control transmission unit 203 to correct the air conditioning control of the indoor unit 101. Be good.

  Note that the control unit 401 of the air conditioner described in the present embodiment includes a CPU (or a microcomputer), a RAM, a ROM, a storage / recording air conditioner, an electric / information device including an I / O, a computer, a server, and the like. You may implement with the form of the program which cooperates hard resources, such as. In the form of a program, new functions can be easily distributed / updated and installed by recording them on a recording medium such as magnetic media or optical media or distributing them via a communication line such as the Internet.

  As described above, the intuitive device control using the touch panel according to the present invention and the method for acquiring device information can improve the operability of the user even in home appliances other than the air conditioner.

DESCRIPTION OF SYMBOLS 101 Indoor unit 102 Vertical flap 103 Left and right flap 104 Main body receiver 105 Main body transmitter 106 Area temperature detection means 107 Area shape detection means 108 Human body detection means 201 Remote control 202 Touch panel 203 Remote control transmission section 204 Remote control reception section 301 Setting button 302 Release button 401 Control unit 402 Input detection unit 403 Display output unit 501 Input determination unit 502 Control region setting unit 503 Region temperature setting unit 504 Region temperature determination unit 505 Region shape determination unit 506 Human body determination unit 507 Region shape setting unit 508 Installation position setting unit 601 Transmission Data setting part 602 Received data determination part 901 Display part 902 Area designation button 1
903 Area designation button 2
904 Area designation button 3
905 area designation button 4
906 Area designation button 5

Claims (8)

The remote control includes a touch panel, an input detection unit that detects a coordinate position input to the touch panel, and a control region setting unit that sets an area for air conditioning control based on the detected coordinate position information. Air conditioner that sets the control area. The remote controller includes a region temperature setting unit that sets a set temperature of each region based on coordinate position information detected from the input detection unit, and sets the set temperature of each region obtained from the control region setting unit. 1. The air conditioner according to 1. An area temperature detection means for detecting a current temperature of each area in the indoor unit main body, and an area temperature determination unit for determining a temperature distribution state of each area based on temperature information acquired from the indoor unit main body, the area temperature determination The air conditioner of Claim 1 or 2 which displays the present temperature information of each area | region obtained from the part on a touch panel. An area shape detecting means for detecting an area shape / obstacle in the indoor unit main body, and an area shape determining unit for determining an area where the area shape / obstacle exists based on the area information acquired from the indoor unit main body, The air conditioner of any one of Claims 1-3 which displays the area | region shape and the obstruction information of each area | region obtained from the area | region shape determination part on a touch panel. Human body detecting means for detecting a region where a person is present in the indoor unit main body, and a human body determining unit for determining a region where a person is present based on human body detection information acquired from the indoor unit main body, and obtained from the human body determining unit The air conditioner according to any one of claims 1 to 4, wherein information on a person's presence is displayed on a touch panel. The remote controller includes a region shape setting unit that sets a region shape / obstacle based on input information detected from the input detection unit, and the user arbitrarily sets the region shape / obstacle information. The air conditioner of any one of Claims. The remote control is provided with an installation position setting unit for setting the installation position of the indoor unit body based on the input information detected from the input detection unit, and the installation position of the indoor unit body set by the installation position setting unit to the touch panel The air conditioner of any one of Claims 1-6 to display. The program for making a computer perform at least one part of the air conditioner of any one of Claims 1-7.