WO2022208674A1

WO2022208674A1 - Remote controller for air conditioner, and air conditioner system

Info

Publication number: WO2022208674A1
Application number: PCT/JP2021/013617
Authority: WO
Inventors: 大輔野中
Original assignee: 三菱電機株式会社
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2022-10-06

Abstract

This remote controller for an air conditioner, for remotely controlling an air conditioner, is provided with: a controller communication unit (143) which performs infrared communication with the air conditioner; a controller control unit (144) which controls the air conditioner remote controller and which, on the basis of the signal strength of the infrared signal transmitted from the controller communication unit (143) to the air conditioner, determines whether or not infrared signals can be transmitted to/received from the air conditioner normally; and a controller display unit (142) which displays transmissibility information which indicates whether or not infrared signals can be transmitted to/received from the air conditioner normally.

Description

Air conditioner remote controller and air conditioner system

The present disclosure relates to an air conditioner remote controller and an air conditioner system that form an air conditioner system together with the air conditioner.

　Conventionally, a remote controller attached to an air conditioner issues an operation instruction to the main body of the air conditioner by transmitting an infrared signal indicating an operation instruction to the air conditioner to the air conditioner. Further, Patent Document 1 discloses that data such as environmental data indicating the indoor environment and environmental data indicating the outdoor environment are transmitted from an indoor unit of an air conditioner to a remote controller as an infrared signal. there is The remote controller can receive the infrared signal transmitted from the indoor unit of the air conditioner and display the content of the data indicated by the infrared signal on the display unit.

JP 2014-199178 A

However, the infrared signal sent from the remote controller of the air conditioner is invisible. For this reason, in order to determine whether the infrared signal transmitted from the remote controller has been successfully transmitted to the main body of the air conditioner, the user must check the sound emitted by the main body of the air conditioner, I had to check the display on the display or check for changes in the operation of the air conditioner. Therefore, remote controllers for air conditioners have room for improvement in terms of user convenience when remote-controlling air conditioners from the remote controller.

The present disclosure has been made in view of the above, and provides an air conditioner remote controller that improves user convenience when remotely controlling an air conditioner from the air conditioner remote controller. for the purpose.

To solve the above-described problems and achieve the object, an air conditioner remote controller according to the present disclosure is a remote controller for an air conditioner that remotely controls an air conditioner. In addition to controlling the controller communication unit that performs infrared communication and the remote controller for the air conditioner, based on the signal strength of the infrared signal transmitted from the controller communication unit to the air conditioner, the infrared signal is exchanged with the air conditioner. A controller control unit that determines whether normal transmission/reception is possible, and a controller display unit that displays transmission/reception propriety information indicating whether normal transmission/reception of an infrared signal is possible with an air conditioner. , provided.

The air conditioner remote controller according to the present disclosure has the effect of improving the user's convenience when performing remote control of the air conditioner from the air conditioner remote controller.

1 is a configuration diagram schematically showing the configuration of an air conditioning system according to Embodiment 1. FIG. FIG. 2 is a block diagram showing the functional configuration of the indoor unit of the air conditioner according to Embodiment 1; FIG. 2 is a front view showing the configuration of the remote controller according to the first embodiment; 2 is a block diagram showing the functional configuration of the remote controller according to the first embodiment; FIG. FIG. 4 is a diagram showing an example of communication enabled information, which is transmission/reception enabled/disabled information, displayed on the controller display unit of the remote controller according to the first embodiment; FIG. 4 is a diagram showing an example of communication disabled information, which is transmission/reception enabled/disabled information, displayed on the controller display unit of the remote controller according to the first embodiment; Flowchart showing an example of operations related to display of transmission/reception permission/inhibition information during infrared communication between the air conditioner and the remote controller according to the first embodiment 1 is a diagram showing an example of a hardware configuration of a processing circuit according to a first embodiment; FIG.

The air conditioner remote controller and the air conditioner system according to the embodiment will be described in detail below with reference to the drawings.

Embodiment 1.
FIG. 1 is a configuration diagram schematically showing the configuration of an air conditioning system 100 according to Embodiment 1. As shown in FIG. FIG. 2 is a block diagram showing the functional configuration of the indoor unit 11 of the air conditioner 10 according to Embodiment 1. As shown in FIG. FIG. 3 is a front view showing the configuration of the remote controller 14 according to the first embodiment. FIG. 4 is a block diagram showing the functional configuration of the remote controller 14 according to the first embodiment. In addition, below, a remote controller may be called a remote control.

As shown in FIG. 1, the air conditioning system 100 according to the first embodiment includes an indoor unit 11 installed indoors, an outdoor unit 12 installed outdoors, and a refrigerant between the indoor unit 11 and the outdoor unit 12. and an air conditioner remote controller for remotely operating the air conditioner 10 by transmitting a control instruction command for the air conditioner 10 to the indoor unit 11. A remote controller 14 is provided. The outdoor unit 12 can communicate with the indoor unit 11 via a communication line (not shown).

The air conditioner 10 forms one complete refrigeration cycle with the indoor unit 11 and the outdoor unit 12. The air conditioner 10 uses the refrigerant circulating between the indoor unit 11 and the outdoor unit 12 through the refrigerant pipe 13 to transfer heat between the indoor air and the outdoor air, which are the spaces to be air-conditioned. and air conditioning is achieved for the room. That is, the indoor unit 11 and the outdoor unit 12 are connected by the refrigerant pipe 13, and the pressure of the refrigerant flowing through the refrigerant pipe 13 is changed by the compressor provided in the outdoor unit 12, and air conditioning is performed by heat absorption and heat dissipation of the refrigerant. conduct.

The air conditioner 10 has the function of a general air conditioner, and air-conditions the room, which is the space to be air-conditioned by the air conditioner 10 . The air conditioner 10 includes an indoor unit air conditioner unit 111 , an indoor unit storage unit 112 , an indoor unit communication unit 113 , a signal strength determination unit 114 , a notification unit 115 , and an indoor unit control unit 116 . Information can be exchanged between the components of the air conditioner 10 described above.

The indoor unit air conditioner 111 has the function and configuration of an indoor unit in a general air conditioner. The indoor unit air conditioning unit 111 includes a refrigerant circuit through which the refrigerant flows, a heat exchanger that exchanges heat between the indoor air and the refrigerant flowing through the refrigerant circuit, and a blower fan that sends out the conditioned air that has undergone heat exchange in the heat exchanger into the room. , an airflow direction adjusting unit that adjusts the direction in which the conditioned air is sent out, and the like.

The indoor unit storage unit 112 is a storage unit that stores various information inside the indoor unit 11 . The indoor unit storage unit 112 stores various information used for operating the air conditioner 10, including control instruction information for controlling the operation of the air conditioner 10, which is transmitted from the remote controller 14 by infrared communication. The indoor unit storage unit 112 also stores a control program used to control the operation of the air conditioner 10 .

The indoor unit communication unit 113 transmits and receives information to and from each component in the air conditioner 10 . That is, the indoor unit communication unit 113 is capable of two-way communication of information with the outdoor unit 12 via a communication line (not shown). Further, the indoor unit communication unit 113 can perform two-way communication of information with the remote controller 14 by infrared communication.

The indoor unit communication unit 113 includes an indoor unit transmission unit 1131 and an indoor unit reception unit 1132.

The indoor unit transmission unit 1131 is a general transmission unit for infrared communication, has an infrared light emitting diode (LED), and transmits an infrared signal containing various information to the remote controller 14 .

The indoor unit receiver 1132 is a general receiver for infrared communication, includes a light receiving element for receiving infrared signals, and receives infrared signals transmitted from the remote control 14 . The indoor unit receiver 1132 transmits information corresponding to the received infrared signal to the indoor unit controller 116 .

In addition, the indoor unit receiving section 1132 has a signal strength measuring section 1132a. The signal strength measuring section 1132 a measures the signal strength of the infrared signal received by the indoor unit receiving section 1132 and transmitted from the remote controller 14 . The signal strength measurement unit 1132a transmits information on the signal strength of the infrared signal, which is the measurement result, to the signal strength determination unit 114. FIG.

The signal strength determination unit 114 determines whether the signal strength of the infrared signal transmitted from the remote controller 14 is appropriate based on the signal strength information of the infrared signal, which is the measurement result received from the signal strength measurement unit 1132a. . That is, the signal strength determination unit 114 compares the signal strength information of the infrared signal received from the signal strength measurement unit 1132a with the proper signal strength, thereby determining whether the signal strength of the infrared signal transmitted from the remote controller 14 is proper. is strong compared to the proper signal strength, or weak compared to the proper signal strength.

The appropriate signal strength is a predetermined infrared signal strength that allows normal transmission and reception of infrared signals between the air conditioner 10 and the remote control 14 . The appropriate signal strength need not be a single value, but may be a range of signal strengths with a certain width.

If the signal strength indicated in the signal strength information of the infrared signal received from signal strength measuring section 1132a matches the appropriate signal strength, signal strength determination section 114 determines that the signal strength of the infrared signal transmitted from remote controller 14 is Judged as appropriate. When the signal strength determination unit 114 determines that the signal strength of the infrared signal transmitted from the remote controller 14 is appropriate, the signal strength determination unit 114 generates strength state information indicating that the signal strength is appropriate, and transmits the generated strength state information to the indoor environment. It is transmitted to machine control section 116 . The strength state information is information indicating the strength state of the infrared signal transmitted from the remote controller 14 .

If the signal strength indicated by the signal strength information of the infrared signal received from signal strength measuring section 1132a is stronger than the appropriate signal strength, signal strength determination section 114 determines that the signal strength of the infrared signal transmitted from remote control 14 is higher than the appropriate signal strength. judged to be strong. When the signal strength determination unit 114 determines that the signal strength of the infrared signal transmitted from the remote controller 14 is strong, the signal strength determination unit 114 generates strength state information indicating that the signal strength is strong, and transmits the generated strength state information to the indoor unit control unit 116. Send to

If the signal strength indicated by the information about the signal strength of the infrared signal received from signal strength measuring section 1132a is weaker than the appropriate signal strength, signal strength determination section 114 determines that the signal strength of the infrared signal transmitted from remote controller 14 is lower than the appropriate signal strength. judged to be weak. When the signal strength determination unit 114 determines that the signal strength of the infrared signal transmitted from the remote controller 14 is weak, the signal strength determination unit 114 generates strength state information indicating that the signal strength is weak, and transmits the generated strength state information to the indoor unit control unit 116. Send to

The notification unit 115 notifies the user of the contents of the operation instruction transmitted from the remote control 14 and the information of the entire air conditioner 10 including the indoor unit 11 . Notification unit 115 includes display unit 1151 and vocalization unit 1152 . The display unit 1151 notifies various notification contents by display. The voicing unit 1152 notifies various notification contents by voice.

The indoor unit controller 116 is an air conditioner controller that controls the operation of the entire air conditioner 10 including the indoor unit 11 . The indoor unit control unit 116 is a control unit that controls the air conditioner 10 by controlling the indoor unit 11 and the outdoor unit 12 in response to a control command from the user received by the remote controller 14 .

That is, when the indoor unit control unit 116 receives information corresponding to the infrared signal transmitted from the remote controller 14 from the indoor unit receiving unit 1132, the indoor unit control unit 116 controls the operation of the air conditioner 10 based on the information corresponding to the infrared signal. Further, when the indoor unit control unit 116 receives information corresponding to the infrared signal transmitted from the remote controller 14 from the indoor unit receiving unit 1132, the indoor unit control unit 116 responds to the infrared signal transmitted from the remote controller 14 via the indoor unit receiving unit 1132. and transmits a response signal to the remote control 14 by means of an infrared signal.

Also, the indoor unit control section 116 receives the strength state information transmitted from the signal strength determination section 114 . That is, indoor unit control section 116 selects any one of the strength state information indicating that the signal strength is appropriate, the strength state information indicating that the signal strength is strong, and the strength state information indicating that the signal strength is weak. Get information. The indoor unit control unit 116 includes the strength state information in a response signal and transmits the response signal to the remote controller 14 by an infrared signal.

In Embodiment 1, the case where the air conditioner 10 is a separate type air conditioner having the indoor unit 11 arranged indoors and the outdoor unit 12 arranged outdoors is described. The air conditioner 10 may be an integrated air conditioner.

The outdoor unit 12 has the functions of an outdoor unit of a general air conditioner, and includes an outdoor heat exchanger for exchanging heat between the outdoor air and the refrigerant flowing in the refrigerant circuit, a fan for sending air to the outdoor, A compressor that compresses the refrigerant in the refrigerant circuit, various sensors for measuring pressure and various temperatures at predetermined intervals, an outdoor unit communication unit for transmitting and receiving information with the indoor unit 11, and the operation of the outdoor unit 12 It includes a configuration unit (not shown) such as an outdoor unit control unit that controls the .

The remote controller 14 includes an operation button 141 for receiving a user's operation to input control commands for various operations to the air conditioner 10, a controller display unit 142 for displaying various information about the air conditioner 10, an indoor unit 11 and an infrared ray. A controller communication unit 143 that performs communication, a battery 144 that is a power supply unit that supplies power for operating the remote control 14, and a controller control unit 145 that is a control unit that controls the operation of the entire remote control 14.

The operation button 141 is an operation unit that accepts setting operations related to the operation of the air conditioner 10 . Upon receiving an operation from the user, the operation button 141 transmits information corresponding to the user's operation to the controller control section 145 as an operation signal.

The controller communication unit 143 communicates with the indoor unit 11 by infrared communication. The controller communication unit 143 includes a controller transmission unit 1431 that transmits an infrared signal to the indoor unit 11 and a controller reception unit 1432 that receives the infrared signal transmitted from the indoor unit 11 .

The controller transmission unit 1431 is a transmission unit for performing two-way communication of information with the indoor unit 11 by infrared communication. The controller transmission unit 1431 is a general transmission unit for infrared communication, includes an infrared light emitting LED, and transmits an infrared signal including various information corresponding to user's operation on the operation button 141 to the indoor unit 11 .

The controller receiver 1432 is a receiver for two-way communication of information with the indoor unit 11 by infrared communication. The controller receiver 1432 is a general transmitter for infrared communication, includes a light receiving element for receiving an infrared signal, and receives the infrared signal transmitted from the indoor unit 11 . Controller receiving section 1432 transmits information corresponding to the received infrared signal to controller control section 145 .

Also, the controller receiving unit 1432 receives from the indoor unit 11 a response signal to the infrared signal transmitted from the controller transmitting unit 1431 to the indoor unit 11 . Controller receiving section 1432 then transmits information corresponding to the received response signal to controller control section 145 . The response signal contains intensity state information, which is the result of determining the signal intensity of the infrared signal transmitted from the remote controller 14 .

The controller display unit 142 displays information and status required for air conditioning by the air conditioner 10, such as the set temperature and operation mode of the air conditioner 10. In addition, the controller display unit 142 displays transmission/reception enable/disable information 150 .

The transmission/reception availability information 150 is information indicating whether normal transmission/reception of infrared signals with the indoor unit 11 is possible. The transmission/reception availability information 150 can be rephrased as information indicating whether or not the infrared signal transmitted from the remote controller 14 to the indoor unit 11 has an appropriate signal strength for infrared communication with the indoor unit 11 .

FIG. 5 is a diagram showing an example of communication availability information 150a, which is the transmission/reception availability information 150 displayed on the controller display unit 142 of the remote controller 14 according to the first embodiment. FIG. 6 is a diagram showing an example of communication disabled information 150b, which is the transmission/reception enabled/disabled information 150 displayed on the controller display unit 142 of the remote controller 14 according to the first embodiment.

The communicable information 150a is information indicating that normal transmission/reception of infrared signals is possible between the remote controller 14 and the indoor unit 11, that is, the current infrared communication between the remote controller 14 and the indoor unit 11 is proper. This is information indicating the status.

The communication disabled information 150b is information indicating that normal transmission and reception of infrared signals between the remote controller 14 and the indoor unit 11 is impossible. This is information indicating that the In a state in which normal transmission and reception of infrared signals between the remote control 14 and the indoor unit 11 is impossible, transmission and reception of the infrared signals between the remote control 14 and the indoor unit 11 are impossible because the signal strength of the infrared signal is too weak. a state in which it is completely impossible; a state in which the infrared signal can be transmitted and received between the remote controller 14 and the indoor unit 11 although the signal strength of the infrared signal is weak; and a state in which transmission and reception are impossible.

As shown in FIGS. 5 and 6, on the controller display unit 142, communication enabled information 150a or communication disabled information 150b is displayed based on the strength state information, which is the determination result of the signal strength of the infrared signal transmitted from the remote control 14. Is displayed. That is, on the controller display unit 142, communication enabled information 150a or communication disabled information 150b is displayed based on the signal strength of the infrared signal transmitted from the remote control 14 to the indoor unit 11. FIG.

When infrared communication is possible between the remote controller 14 and the indoor unit 11, the controller display unit 142 displays communication enable information 150a, which is the transmission/reception enable/disable information 150 represented by icons as shown in FIG. be done. When normal transmission/reception of infrared signals between the remote control 14 and the indoor unit 11 is impossible, the controller display unit 142 displays the transmission/reception propriety information 150 represented by icons as shown in FIG. Impossible information 150b is displayed.

This allows the user to check whether normal infrared communication is possible between the remote controller 14 and the indoor unit 11, that is, whether the current infrared communication between the remote controller 14 and the indoor unit 11 is normal. It can be recognized by looking at the display of the controller display section 142 .

The controller control unit 145 controls the remote controller 14 based on the operation signal transmitted from the operation button 141. Based on the information corresponding to the operation signal transmitted from the operation button 141 , the controller control section 145 transmits information regarding the remote control of the remote control 14 to the indoor unit 11 via the controller transmission section 1431 using an infrared signal. The controller control unit 145 also receives information corresponding to the response signal to the infrared signal transmitted to the indoor unit 11 from the controller reception unit 1432 . The response signal contains intensity state information, which is the result of determining the signal intensity of the infrared signal transmitted from the remote controller 14 .

The controller control section 145 includes a signal strength setting section 146 , a remote control signal strength determination section 147 , a storage section 148 and a timer section 149 .

The signal strength setting unit 146 sets the signal strength level of the infrared signal transmitted and received between the remote controller 14 and the indoor unit 11 in the storage unit 148 . The signal strength setting unit 146 can select and set the signal strength level of the infrared signal to be transmitted to the indoor unit 11 from multiple levels. For example, the signal strength setting unit 146 sets the signal strength level of the infrared signal transmitted and received between the remote control 14 and the indoor unit 11 to any one of five levels from level 1 to level 5 in ascending order of signal strength of the infrared signal. can be set to any level.

The signal strength setting unit 146 transmits information on the signal strength level of the infrared signal transmitted and received between the remote controller 14 and the indoor unit 11 set in the storage unit 148 to the indoor unit 11 via the controller communication unit 143, stored in machine storage unit 112 . The indoor unit transmitter 1131 of the indoor unit 11 transmits the infrared signal at the signal strength level of the infrared signal stored in the indoor unit storage unit 112 .

Further, when infrared communication is possible between the remote controller 14 and the indoor unit 11, the controller control unit 145 controls the infrared rays stored in the storage unit 148 so that the signal strength of the infrared signal becomes appropriate. Change the signal strength level setting for the signal.

Based on the strength state information included in the response signal received from the indoor unit 11, the remote control signal strength determining unit 147 determines whether the signal strength of the infrared signal transmitted from the controller transmitting unit 1431 of the remote controller 14 to the indoor unit 11 is equal to that of the indoor unit. In order to perform infrared communication normally between 11 and remote control 14, it is determined whether the signal strength was appropriate, strong, or weak.

When the information indicated by the strength state information is information indicating that the signal strength is appropriate, the remote control signal strength determination unit 147 determines that the signal strength of the infrared signal transmitted from the controller transmission unit 1431 to the indoor unit 11 is appropriate. It is determined that When the information indicated in the strength state information is information indicating that the signal strength is high, the remote control signal strength determination section 147 determines that the signal strength of the infrared signal transmitted from the controller transmission section 1431 to the indoor unit 11 is determined as the strength state information. determined to be stronger. When the information indicated by the strength state information is information indicating that the signal strength is weak, the remote control signal strength determination section 147 determines that the signal strength of the infrared signal transmitted from the controller transmission section 1431 to the indoor unit 11 is determined to be the strength state information. judged to be weaker.

Then, the controller control unit 145 causes the controller display unit 142 to display communication enabled information 150a or communication disabled information 150b based on the determination result of the remote control signal strength determination unit 147. FIG. That is, the controller control unit 145 causes the controller display unit 142 to display the communication enabled information 150a or the communication disabled information 150b based on the signal strength of the infrared signal transmitted from the remote controller 14 to the indoor unit 11 .

The storage unit 148 stores various information necessary for remotely controlling the operation of the air conditioner 10 and various information necessary for controlling the remote controller 14 . The storage unit 148 also stores the signal strength level of the infrared signal transmitted and received between the remote controller 14 and the indoor unit 11 set by the signal strength setting unit 146 . The storage unit 148 also stores the signal strength of the infrared signal transmitted to the indoor unit 11 via the controller transmission unit 1431 .

The timer unit 149 measures the elapsed time after the controller transmission unit 1431 transmits the infrared signal to the indoor unit 11, and determines whether a predetermined time has passed since the infrared signal was transmitted to the indoor unit 11. judge.

Next, the operation of infrared communication between the air conditioner 10 and the remote controller 14 will be described. FIG. 7 is a flowchart showing an example of an operation related to display of transmission/reception availability information 150 during infrared communication between air conditioner 10 and remote controller 14 according to the first embodiment. The operations of the air conditioner 10 and the remote control 14 shown in FIG. 7 are automatically started when the operation button 141 is operated by the user, or are automatically started periodically at predetermined timing.

In step S10, an infrared signal is transmitted from the remote control 14 to the indoor unit 11. Specifically, the controller transmission unit 1431 of the remote controller 14 transmits an infrared signal having the signal strength set in the storage unit 148 to the indoor unit 11 . When the signal strength level of the infrared signal is not set in the storage unit 148, the level 3 infrared signal, that is, the central signal strength among the signal strength levels of the multistage infrared signals set in the storage unit 148 A level infrared signal is sent.

In the indoor unit 11 , the indoor unit receiver 1132 receives the infrared signal and transmits information corresponding to the infrared signal to the indoor unit controller 116 . Also, the signal strength measuring section 1132 a measures the signal strength of the infrared signal transmitted from the remote controller 14 and received by the indoor unit receiving section 1132 . The signal strength measurement unit 1132a transmits information on the signal strength of the infrared signal, which is the measurement result, to the signal strength determination unit 114. FIG.

The signal strength determination unit 114 compares the signal strength information of the infrared signal received from the signal strength measurement unit 1132a with the proper signal strength, thereby determining whether the signal strength of the infrared signal transmitted from the remote controller 14 is proper. strong compared to the proper signal strength, or weak compared to the proper signal strength. Signal strength determination section 114 selects any one of strength state information indicating that the signal strength is appropriate, strength state information indicating that the signal strength is strong, and strength state information indicating that the signal strength is weak. It is generated and transmitted to the indoor unit control section 116 .

When indoor unit control unit 116 receives information corresponding to the infrared signal transmitted from remote controller 14 from indoor unit receiving unit 1132 and receives strength state information from signal strength determination unit 114, indoor unit control unit 116 receives the infrared signal transmitted from remote controller 14. As a response to the above, a response signal is transmitted to the remote controller 14 via the indoor unit receiver 1132 as an infrared signal.

In step S20, it is determined whether or not the response signal transmitted from the indoor unit 11 has been received by the controller receiving section 1432. Specifically, the controller control unit 145 transmits the information corresponding to the response signal to the infrared signal transmitted to the indoor unit 11 in step S10 after the infrared signal is transmitted to the indoor unit 11. It is determined whether or not it has been received from the controller reception unit 1432 before the time elapses. Information corresponding to the response signal includes intensity state information, which is the determination result of the signal intensity of the infrared signal transmitted from the remote controller 14 . A predetermined waiting time T is counted by the timer section 149 .

If it is determined that the information corresponding to the response signal has been received within the predetermined standby time T after the infrared signal is transmitted to the indoor unit 11, the result is Yes in step S20, and the process proceeds to step S30. If it is determined that the information corresponding to the response signal has not been received from when the infrared signal was transmitted to the indoor unit 11 until the predetermined standby time T has elapsed, the result is No in step S20, and the process proceeds to step S70. move on.

In step S30, it is determined whether the signal strength of the infrared signal transmitted to the indoor unit 11 in step S10 was appropriate, strong, or weak. Specifically, based on the strength state information included in the information corresponding to the response signal, the remote control signal strength determination unit 147 determines whether the signal strength of the infrared signal transmitted to the indoor unit 11 in step S10 was appropriate. judge.

When the information indicated by the strength state information is information indicating that the signal strength is appropriate, the remote controller signal strength determination unit 147 determines that the signal strength of the infrared signal transmitted to the indoor unit 11 in step S10 is appropriate. I judge. The remote controller signal strength determination unit 147 determines that the signal strength of the infrared signal transmitted to the indoor unit 11 in step S10 is strong when the information indicated by the strength state information is information indicating that the signal strength is high. The remote controller signal strength determination unit 147 determines that the signal strength of the infrared signal transmitted to the indoor unit 11 in step S10 is weak when the information indicated by the strength state information is information indicating that the signal strength is weak.

If it is determined that the signal strength of the infrared signal is appropriate, proceed to step S40. When it is determined that the signal strength of the infrared signal is strong, the process proceeds to step S50. When it is determined that the signal strength of the infrared signal is weak, the process proceeds to step S70.

If it is determined in step S30 that the signal strength of the signal transmitted to the air conditioner 10 is appropriate, proceed to step S40. If it is determined that the signal strength of the signal transmitted to the air conditioner 10 is not appropriate and the signal strength is strong, the process proceeds to step S50. If it is determined that the signal strength of the signal transmitted to the air conditioner 10 is not appropriate and the signal strength is weak, the process proceeds to step S70.

In step S40, the communicable information 150a is displayed on the controller display section 142. Specifically, the controller control unit 145 controls the controller display unit 142 to display the communicable information 150a. By displaying the communication enabled/disabled information 150a on the controller display unit 142, a series of display processing of the transmission/reception enabled/disabled information 150 ends.

In step S50, the signal strength level of the infrared signal set in the storage unit 148 as the signal strength of the infrared signal to be transmitted to the indoor unit 11 is within the signal strength that can be set in the storage unit 148 as the signal strength of the infrared signal. It is determined whether it is the weakest signal strength level. Specifically, remote controller signal strength determination section 147 determines whether the signal strength level of the infrared signal set in storage section 148 is level 1 or not.

The signal strength level of the infrared signal set in the storage unit 148 is determined to be the weakest signal strength level among the signal strengths that can be set in the storage unit 148 as the signal strength of the infrared signal, that is, level 1. If so, it becomes Yes in step S50, and the process proceeds to step S40. If the signal strength level of the infrared signal set in the storage unit 148 is not the weakest signal strength level among the signal strengths that can be set in the storage unit 148 as the signal strength of the infrared signal, that is, it is from level 2 to level 5 If so, the result in step S50 is No, and the process proceeds to step S60.

In step S60, the signal intensity level of the infrared signal that is one level lower than the signal intensity level of the infrared signal set in the storage unit 148 is set and stored in the storage unit 148. Specifically, the signal strength setting unit 146 resets and updates the signal strength level of the infrared signal currently set in the storage unit 148 to the signal strength level of the infrared signal that is one level lower. After that, the process returns to step S10.

In step S70, the signal strength level of the infrared signal set in the storage unit 148 as the signal strength of the infrared signal to be transmitted to the indoor unit 11 is within the signal strength that can be set in the storage unit 148 as the signal strength of the infrared signal. It is determined whether it is the strongest signal strength level. Specifically, remote control signal strength determination section 147 determines whether the signal strength level of the infrared signal set in storage section 148 is level 5 or not.

The signal strength level of the infrared signal set in the storage unit 148 is determined to be the strongest signal strength level among the signal strengths that can be set in the storage unit 148 as the signal strength of the infrared signal, that is, level 5. If so, the determination in step S70 is Yes, and the process proceeds to step S80. It is determined that the signal strength level of the infrared signal set in the storage unit 148 is not the strongest signal strength level among the signal strengths that can be set in the storage unit 148 as the signal strength of the infrared signal, that is, the level 1 to level 4. If so, the determination in step S70 is No, and the process proceeds to step S90.

In step S80, the communication disabled information 150b is displayed on the controller display section 142. Specifically, the controller control unit 145 controls the controller display unit 142 to display the communication disabled information 150b. When the communication disabled information 150b is displayed on the controller display unit 142, the series of display processing of the transmission/reception enabled/disabled information 150 ends.

In step S90, the signal strength level of the infrared signal that is one level higher than the signal strength level of the infrared signal set in the storage section 148 is set and stored in the storage section 148. Specifically, the signal strength setting unit 146 resets and updates the signal strength level of the infrared signal currently set in the storage unit 148 to the signal strength level of the infrared signal that is one level higher. After that, the process returns to step S10.

By performing the above operations, the remote controller 14 can display the communication enabled information 150a or the communication disabled information 150b, which is the transmission/reception enabled/disabled information 150, on the controller display unit 142. By viewing the transmission/reception availability information 150 displayed on the controller display unit 142, the user can easily and quickly recognize whether infrared communication is possible between the remote controller 14 and the indoor unit 11. can be done.

In the above, the operation of the air conditioner 10 and the remote control 14 shown in FIG. 7 is automatically started when the operation button 141 is operated by the user, or automatically and periodically at a predetermined timing. shall be started. However, adjusting the signal strength level each time the user operates the operation button 141 or periodically adjusting the signal strength may be excessive control. Therefore, after the signal strength level of the infrared signal transmitted and received between the remote control 14 and the indoor unit 11 is set to an appropriate level in the storage unit 148, the flow shown in FIG. Instead, the signal strength level of the infrared signal stored in the storage unit 148 may be held. As a result, excessive control can be prevented, and the effect of saving energy in the air conditioner 10 and the remote control 14 can also be obtained.

Each of the indoor unit control unit 116 and the controller control unit 145 is realized, for example, as a processing circuit having the hardware configuration shown in FIG. 8 is a diagram illustrating an example of a hardware configuration of a processing circuit according to the first embodiment; FIG. When each component constituting each of the indoor unit control unit 116 and the controller control unit 145 is realized by the processing circuit shown in FIG. 8, each component constituting each of the indoor unit control unit 116 and the controller control unit 145 , is implemented by the processor 201 executing a program stored in the memory 202 . Also, multiple processors and multiple memories may work together to achieve the above functions. A part of each of the indoor unit control section 116 and the controller control section 145 may be implemented as an electronic circuit, and the other part may be realized using the processor 201 and the memory 202 .

As described above, in the air-conditioning system 100 according to Embodiment 1, the remote control signal strength determination unit 147 of the remote control 14 determines the strength of the remote control 14 based on the strength state information included in the response signal received from the indoor unit 11. Whether the signal strength of the infrared signal transmitted from the controller transmitter 1431 to the indoor unit 11 was appropriate for normal infrared communication between the indoor unit 11 and the remote controller 14, was strong, or was weak. determine whether or not Then, the controller control section 145 causes the controller display section 142 to display communication enabled information 150 a or communication disabled information 150 b based on the determination result of the remote control signal strength determination section 147 . That is, the controller control unit 145 causes the controller display unit 142 to display the communication enabled information 150a or the communication disabled information 150b based on the signal strength of the infrared signal transmitted from the remote controller 14 to the indoor unit 11 .

Therefore, whether normal infrared communication is possible between the remote controller 14 and the indoor unit 11, that is, whether the current infrared communication between the remote controller 14 and the indoor unit 11 is normal This can be recognized by looking at the display on the controller display section 142 . As a result, when an infrared signal is transmitted from the remote controller 14 to the indoor unit 11 for remote control, the user can confirm the sound emitted by the utterance unit 1152 of the indoor unit 11 and display the display unit 1151 of the indoor unit 11. or a change in the operation of the indoor unit 11, it can be recognized whether the infrared signal has been normally transmitted to the indoor unit 11.例文帳に追加

Further, when infrared communication is possible between the remote controller 14 and the indoor unit 11, the controller control unit 145 controls the infrared rays stored in the storage unit 148 so that the signal strength of the infrared signal becomes appropriate. Change the signal strength level setting for the signal. As a result, even when infrared communication is possible between the remote controller 14 and the indoor unit 11, communication can be performed with a more appropriate signal strength of the infrared signal corresponding to the communication distance between the remote controller 14 and the indoor unit 11. This allows longer battery life and allows communication from longer distances.

That is, the signal transmission strength between the indoor unit 11 and the remote controller 14 is fixed. Therefore, when the distance between the indoor unit 11 and the remote controller 14 is short, the signal strength of the infrared signal becomes excessive and the battery 144 is consumed more than necessary. There are problems such as inability to transmit and receive infrared signals normally due to insufficient signal strength.

However, in the air conditioning system 100 according to Embodiment 1, such problems are resolved.

As described above, according to the remote controller 14 and the air conditioning system 100 according to Embodiment 1, the effect of improving user convenience when remotely controlling the air conditioner 10 from the remote controller 14 can be obtained. Play.

The configuration shown in the above embodiment is an example, and can be combined with another known technique, and part of the configuration can be omitted or changed without departing from the scope of the invention. It is possible.

10 air conditioner, 11 indoor unit, 12 outdoor unit, 13 refrigerant pipe, 14 remote controller, 100 air conditioning system, 111 indoor unit air conditioning unit, 112 indoor unit storage unit, 113 indoor unit communication unit, 114 signal strength determination unit , 115 notification unit, 116 indoor unit control unit, 141 operation button, 142 controller display unit, 143 controller communication unit, 144 battery, 145 controller control unit, 146 signal strength setting unit, 147 remote controller signal strength determination unit, 148 storage unit, 149 timer unit, 150 transmission/reception availability information, 150a communication available information, 150b communication unavailable information, 201 processor, 202 memory, 1131 indoor unit transmission unit, 1132 indoor unit reception unit, 1132a signal strength measurement unit, 1151 display unit, 1152 vocalization unit , 1431 controller transmitter, 1432 controller receiver, T standby time.

Claims

An air conditioner remote controller for remotely controlling an air conditioner,
a controller communication unit that performs infrared communication with the air conditioner;
In addition to controlling the air conditioner remote controller, normal transmission and reception of infrared signals with the air conditioner is possible based on the signal strength of the infrared signal transmitted from the controller communication unit to the air conditioner. A controller control unit that determines whether or not
a controller display unit that displays transmission/reception propriety information indicating whether normal transmission/reception of an infrared signal is possible with the air conditioner;
A remote controller for an air conditioner.
In the controller control unit, the signal strength of the infrared signal transmitted from the controller communication unit to the air conditioner is such that the infrared signal can be normally transmitted and received between the air conditioner and the air conditioner remote controller. If it is stronger than a predetermined appropriate signal strength, perform control to weaken the signal strength of the infrared signal transmitted from the controller communication unit to the air conditioner,
The remote controller for an air conditioner according to claim 1.
In the controller control unit, the signal strength of the infrared signal transmitted from the controller communication unit to the air conditioner is such that the infrared signal can be normally transmitted and received between the air conditioner and the air conditioner remote controller. When the signal strength is weaker than a predetermined appropriate signal strength, control is performed to increase the signal strength of the infrared signal transmitted from the controller communication unit to the air conditioner,
The air conditioner remote controller according to claim 1 or 2.
An air conditioner system comprising an air conditioner and the air conditioner remote controller according to any one of claims 1 to 3, wherein infrared communication is performed between the air conditioner and the air conditioner,
The air conditioner is
a signal strength determination unit that determines the signal strength of the infrared signal transmitted from the air conditioner remote controller;
an indoor unit communication unit that performs infrared communication with the air conditioner remote controller, and transmits the determination result of the signal strength of the infrared signal determined by the signal strength determination unit to the air conditioner remote controller; ,
An air conditioner system comprising: