JP5461677B1 - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner with improved convenience.
An air conditioner includes an indoor unit having an information generation unit that generates air conditioning operation information related to an air conditioning operation, and a transmission unit that transmits air conditioning operation information generated by the information generation unit; A remote control unit that controls the air conditioning operation and that has a reception unit that receives the air conditioning operation information transmitted from the transmission unit of the indoor unit and a display unit that displays the air conditioning operation information received by the reception unit. The receiving unit intermittently and automatically becomes a receivable state.
[Selection] Figure 5

Description

  The present invention relates to an air conditioner for performing indoor air conditioning.

  2. Description of the Related Art Conventionally, in order to improve the energy saving performance (energy saving performance) of an air conditioner, there is one that advises a user about energy saving operation from an air conditioner (see, for example, Patent Document 1).

  The air conditioner described in Patent Document 1 includes a remote controller (remote control device), and the remote controller transmits an information request button for requesting information transmission to the indoor unit, and transmits from the indoor unit when the information request button is pressed. And a display unit for displaying information signals (related to energy saving operation).

  In the air conditioner configured as described above, when the user presses the information request button on the remote controller, a signal is transmitted from the remote controller, and in response to the signal, the indoor unit transmits an information signal to the remote controller. The remote controller that has received the signal displays the information signal on the display unit. As a result, the user confirms the information signal from the indoor unit, and performs the energy saving operation based on the information signal.

JP 2011-33285 A

  However, in the conventional air conditioner, in order for the remote controller to receive and display information from the indoor unit, it is necessary for the user to operate the remote controller each time to transmit an information request signal to the indoor unit. was there. Thus, when the user recognizes information from the indoor unit, there is still room for improvement from the viewpoint of convenience.

  An object of the present invention is to provide an air conditioner that solves the problems of the conventional air conditioner and improves the convenience.

In order to achieve the above object, in the air conditioner according to the present invention, an information generation unit that generates air conditioning operation information related to air conditioning operation, and a transmission that transmits the air conditioning operation information generated by the information generation unit An indoor unit having a section;
A control unit that controls the air conditioning operation of the indoor unit and that receives the air conditioning operation information transmitted from the transmission unit of the indoor unit, and a display unit that displays the air conditioning operation information received by the receiving unit. A remote control with
The receiving unit of the remote controller becomes intermittently and automatically receivable.

  According to the present invention, it is possible to improve user convenience by having the above-described configuration.

The schematic diagram which shows schematic structure of the air conditioner of embodiment which concerns on this invention. Front view of remote control in air conditioner of embodiment The schematic diagram which shows the internal structure of the indoor unit and remote control in the air conditioner of embodiment The flowchart regarding transmission / reception of the air-conditioning operation information in the air conditioner of the embodiment Timing chart regarding transmission / reception of air conditioning operation information in air conditioner of embodiment The figure which shows an example of the calculation method of the eco degree in the air conditioner of embodiment The figure which shows the example of a display of the eco degree and energy-saving advice in the air conditioner of embodiment Timing chart regarding transmission / reception of air conditioning operation information in an air conditioner according to a modification of the embodiment

An air conditioner according to a first aspect of the present invention includes an information generation unit that generates air conditioning operation information related to air conditioning operation, and a transmission unit that transmits the air conditioning operation information generated by the information generation unit. Indoor unit,
A control unit that controls the air conditioning operation of the indoor unit and that receives the air conditioning operation information transmitted from the transmission unit of the indoor unit, and a display unit that displays the air conditioning operation information received by the receiving unit. A remote control with
The receiving unit of the remote controller becomes intermittently and automatically receivable.
The air conditioner according to the first aspect of the present invention configured as described above improves convenience because air conditioning operation information related to the air conditioning operation is transmitted to the remote controller without the user operating the remote controller. be able to. In addition, by intermittently setting the receiving unit of the remote control to the receivable state, it is possible to suppress the power consumption of the remote control compared to the case where the receiving unit is always in a receivable state.

  In the air conditioner according to the second aspect of the present invention, the receiving unit of the remote controller according to the first aspect may be in a receivable state at a predetermined timing.

In the air conditioner of the third aspect according to the present invention, the remote control in the second aspect further includes a transmission unit that transmits an information request signal for requesting the air conditioning operation information to the indoor unit,
The indoor unit further includes a reception unit that receives the information request signal transmitted from the transmission unit of the remote control,
When the information request signal is transmitted from the transmission unit of the remote control to the reception unit of the indoor unit at a predetermined timing, the reception unit of the remote control becomes in a receivable state, and the indoor unit The air conditioning operation information is transmitted from the transmission unit to the reception unit of the remote controller.
The air conditioner of the third aspect according to the present invention configured as described above is configured to transmit air conditioning operation information from the indoor unit to the remote controller after ensuring that the receiver of the remote controller can receive, Air-conditioning operation information can be transmitted and received with high accuracy. In addition, by setting the period during which the receiving unit of the remote control is ready for reception to include the time when the air conditioning operation information is transmitted from the indoor unit, the air conditioning operation information is accurately transmitted and received and the power consumption of the remote control is reduced. Can be suppressed.

In the air conditioner according to the fourth aspect of the present invention, the remote controller according to the third aspect is an information request button for transmitting the information request signal from the transmitter of the remote controller to the receiver of the indoor unit. Is provided.
The air conditioner according to the fourth aspect of the present invention configured as described above can be recognized by displaying air-conditioning operation information on the remote controller in response to a user request in addition to a predetermined timing. The property can be further improved.

In the air conditioner of the fifth aspect according to the present invention, a timing at which the transmission unit of the indoor unit in the second aspect transmits the air conditioning operation information to the reception unit of the remote controller, and the remote controller of the remote controller The timing at which the receiving unit is ready to receive is synchronized.
The air conditioner according to the fifth aspect of the present invention configured as described above can automatically view the air conditioning operation information without transmitting an information request signal from the remote controller to the indoor unit by synchronizing. .

In the air conditioner according to the sixth aspect of the present invention, the indoor unit and the remote controller in the fifth aspect are synchronized when the operation of the indoor unit is started.
The air conditioner according to the fifth aspect of the present invention configured as described above can be accurately synchronized.

  In the air conditioner of the seventh aspect according to the present invention, the starting point of the predetermined timing in any one of the second to sixth aspects may be when the indoor unit starts operation. .

  In the air conditioner according to an eighth aspect of the present invention, the remote control according to any one of the second to seventh aspects may include a button for resetting a starting point of the predetermined timing.

In the air conditioner according to the ninth aspect of the present invention, the period during which the reception unit of the remote controller according to any one of the first to eighth aspects is in a receivable state once is the indoor unit The transmission unit is set to be longer than the time per transmission process.
The air conditioner according to the ninth aspect of the present invention configured as described above can accurately transmit and receive air conditioning operation information between the remote controller and the indoor unit.

In the air conditioner according to a tenth aspect of the present invention, the remote controller or the indoor unit according to any one of the first to ninth aspects deletes the received or transmitted air conditioning operation information after a predetermined time has elapsed. To do.
The air conditioner according to the tenth aspect of the present invention configured as described above can reduce the memory amount and improve the reliability of the air conditioner.

  Hereinafter, embodiments of the air conditioner according to the present invention will be described with reference to the accompanying drawings. In addition, in the air conditioner of the following embodiment, although a specific structure is demonstrated, this invention is not limited to the specific structure of the following embodiment, and is based on the same technical idea. Various air conditioners to which the configuration is applied are included.

  FIG. 1 shows a schematic configuration of an air conditioner 1 of the present invention. As shown in FIG. 1, the air conditioner 1 includes an indoor unit 2, a remote controller 3, and an outdoor unit 4. The indoor unit 2 is connected to the outdoor unit 4 by a refrigerant pipe 5 to constitute a refrigeration cycle. The remote controller 3 performs bidirectional communication with the indoor unit 2. The operation of the indoor unit 2 is controlled by the user operating the remote controller 3. The indoor unit 2 includes an illuminance sensor 6 that detects the illuminance in the room. Furthermore, the indoor unit 2 and the remote controller 3 have a clock function by including a first timer and a second timer (not shown), respectively.

  2A and 2B are external views of the remote controller 3 of the air conditioner 1. FIG. 2A shows the remote controller 3 when the cover 20 is opened and placed vertically, and FIG. 2B shows the remote controller 3 when the cover 20 is closed and placed horizontally.

  As shown in FIGS. 2A and 2B, the remote controller 3 includes an operation unit 7 including a plurality of buttons, a display unit 8, and a notification unit 9. The operation unit 7 is a part for the user to control the ON / OFF of the operation of the indoor unit 2 and the setting of the indoor set temperature and the wind direction, and is disposed on the inside so as to be covered by the cover 20. The operation unit 7 a and the operation unit 7 b disposed on the cover 20 are configured. The display unit 8 is a part that displays information related to the air conditioning operation of the air conditioner 1 (air conditioning operation information) and the like. In the present embodiment, a liquid crystal screen is used as the display unit 8, but is not limited thereto. The notification unit 9 is a part for notifying that the air conditioning operation information exists in the remote controller 3. In the present embodiment, as the notification unit 9, an LED that notifies by lighting is used, but is not limited thereto. The display unit 8 can also be a notification unit by turning on the liquid crystal or turning on the backlight. In the present embodiment, the eco degree and the energy saving advice are used as the air conditioning operation information, and specific contents thereof will be described later. FIGS. 2A and 2B show a screen on which a message “Set temperature is 25 ° C.” is displayed as an example of the screen displayed on the display unit 8.

  Of the operation unit 7 b arranged on the cover 20 shown in FIG. 2B, the operation on / off button 10 is a button for the user to switch on / off the operation of the indoor unit 2. The “notification button 12” is a button for the user to request air conditioning operation information.

  Of the operation unit 7 a arranged on the inner side illustrated in FIG. 2A, the determination button 11 is a button for determining an option displayed on the display unit 8. The selection button 21 is a button for scrolling the options displayed on the display unit 8 in the vertical and horizontal directions.

  In the remote controller 3 configured as described above, the air conditioning operation information of the air conditioner 1 displayed on the display unit 8 is transmitted from the indoor unit 2 to the remote controller 3 by performing bidirectional communication between the indoor unit 2 and the remote controller 3. Sent. The communication method will be described with reference to FIGS.

  FIG. 3 is a block diagram showing a schematic configuration of the indoor unit 2 and the remote controller 3. As shown in FIG. 3, the indoor unit 2 includes a reception unit 13, an information generation unit 14, a transmission unit 15, and a memory 22. The remote controller 3 includes a transmission unit 16, a reception unit 17, and a memory 23 in addition to the operation unit 7, the display unit 8, and the notification unit 9 described above.

  The transmission unit 16 of the remote controller 3 is configured to transmit a signal to the reception unit 13 of the indoor unit 2. The information generation unit 14 of the indoor unit 2 is configured to generate air conditioning operation information. Specific generation of air conditioning operation information by the information generation unit 14 will be described later. The memory 22 of the indoor unit 2 is configured to store the air conditioning operation information generated by the information generation unit 14. The transmission unit 15 of the indoor unit 2 is configured to transmit the air conditioning operation information stored in the memory 22 of the indoor unit 2 to the reception unit 17 of the remote controller 3. The memory 23 of the remote controller 3 is configured to store the air conditioning operation information received by the receiving unit 17 of the remote controller 3. The air conditioning operation information stored in the memory 23 of the remote controller 3 is displayed on the display unit 8 of the remote controller 3.

  The receiving unit 13, the information generating unit 14, the transmitting unit 15, and the memory 22 described above exist in the control unit of the indoor unit 2, and the operation unit 7, the display unit 8, the notification unit 9, the transmitting unit 16, the receiving unit 17, and the memory 23. Exists in the control unit of the remote controller 3.

  FIG. 4 shows a flowchart of transmission and reception of signals and air conditioning operation information in the indoor unit 2 and the remote controller 3 configured as described above. As shown in FIG. 4, first, when the user operates the remote controller 3, the operation of the indoor unit 2 is started (step S1). Specifically, when the power of the indoor unit 2 is OFF, the remote controller 3 communicates with the indoor unit 2 when the user presses the operation on / off button 10 shown in FIG. The air conditioning operation of the unit 2 and the outdoor unit 4 is started (the power of the indoor unit 2 is turned on).

  Here, after the power of the indoor unit 2 is turned on, the information generation unit 14 of the indoor unit 2 generates the air conditioning operation information at that time every predetermined time (for example, every 5 minutes). The generated air conditioning operation information is overwritten and stored in the memory 22 as needed, and the latest air conditioning operation information is stored in the memory 22.

  Next, the transmission unit 16 of the remote controller 3 transmits a signal to the reception unit 13 of the indoor unit 2 (step S2). Specifically, when a predetermined time has elapsed since the start of the operation of the indoor unit 2 (30 minutes in the present embodiment), the transmission unit 16 of the remote controller 3 transmits an information request signal to the reception unit 13 of the indoor unit 2. .

  Here, simultaneously with the transmission of the signal by the transmitter 16 of the remote controller 3, the receiver 17 of the remote controller 3 is switched to a receivable state. In the present embodiment, the period during which reception is possible in the receiver 17 of the remote controller 3 is set to 1 second.

  Next, the transmission unit 15 of the indoor unit 2 transmits the air conditioning operation information stored in the memory 22 of the indoor unit 2 to the reception unit 17 of the remote controller 3 (step S3). Specifically, the transmission function of the air conditioning operation information stored in the memory 22 is performed by operating the transmission function of the transmission unit 15 of the indoor unit 2. In this embodiment, the time per transmission required by the transmission unit 15 of the indoor unit 2 is set to 0.5 seconds. As described above, since the reception unit 17 of the remote control 3 is switched to the receivable state in step S2, the reception unit 17 of the remote control 3 receives the air conditioning operation information transmitted from the transmission unit 15 of the indoor unit 2. be able to. The air conditioning operation information received by the receiving unit 17 of the remote controller 3 is overwritten and saved in the memory 23 of the remote controller 3 as needed.

  Next, the notification unit 9 of the remote control 3 notifies the user that the reception unit 17 of the remote control 3 has received the air conditioning operation information (step S4). Specifically, when the receiving unit 17 of the remote control 3 receives the air conditioning operation information from the transmission unit 15 of the indoor unit 2, the notification unit 9 of the remote control 3 shown in FIGS. 2A and 2B is turned on. The presence of air conditioning operation information in the remote controller 3 is notified, and the user can recognize it. At this time, a message requesting the user to open the air conditioning operation information is displayed on the display unit 8 of the remote controller 3.

  Next, the display unit 8 of the remote controller 3 displays the air conditioning operation information stored in the memory 23 of the remote controller 3 (step S5). Specifically, the user who recognizes the presence of the air conditioning operation information by the notification unit 9 and confirms the opening request message on the display unit 8 presses the decision button 11 of the remote control 3 shown in FIG. Thus, the air conditioning operation information is displayed on the display unit 8 of the remote controller 3.

  In the indoor unit 2 and the remote controller 3, the transmitted / received air conditioning operation information is deleted after a predetermined time (for example, after 2 minutes).

  As described above, the user can recognize the air conditioning operation information on the display unit 8 of the remote controller 3 by performing the steps S1 to S5.

  In the present embodiment, since the air conditioning operation information is the eco degree and the energy saving advice, the user can perform the energy saving operation by controlling the air conditioning operation based on the air conditioning operation information, and the air conditioner 1 Can improve energy saving.

  Further, according to the air conditioner 1 according to the present embodiment, the indoor unit 2 that has received the information request signal automatically transmitted from the remote controller 3 sends the air conditioning operation information from the transmitter 15 of the indoor unit 2 to the remote controller 3. The remote controller 3 notifies the user that the air conditioning operation information has been received. That is, since the air conditioning operation information is transmitted to the remote controller 3 without the user operating the remote controller 3, the convenience of the user can be improved.

  Moreover, in the air conditioner 1 concerning this embodiment, since the alerting | reporting part 9 alert | reports by lighting, a user can recognize air-conditioning driving | operation information at a more suitable timing. By recognizing the air-conditioning operation information, the user can promote more appropriate energy-saving operation and improve energy-saving performance.

  Moreover, according to the air conditioner 1 concerning this embodiment, since the indoor unit 2 and the remote control 3 erase | eliminate the transmitted / received air-conditioning operation information after progress for a predetermined time, the memory amount in the indoor unit 2 and the remote control 3 is reduced, The reliability of the air conditioner 1 can be improved.

  As described above, when steps S1 to S5 are performed, the air conditioning operation information is transmitted once from the indoor unit 2 to the remote controller 3. Thereafter, steps S1 to S5 are set as one cycle, and this cycle is repeatedly performed at a predetermined timing. Thereby, the air conditioning operation information is intermittently transmitted to the remote controller 3.

  The timing at which the transmission unit 16 of the remote controller 3 transmits a signal to the reception unit 13 of the indoor unit 2 and the timing at which the reception unit 17 of the remote control 3 is in a receivable state (predetermined timing) will be described with reference to FIG. FIG. 5 shows a timing chart in which the indoor unit 2 and the remote controller 3 transmit and receive signals and air conditioning operation information over time.

  As shown in FIG. 5, the predetermined timing in the present embodiment is set at an interval of 30 minutes starting from when the indoor unit 2 starts the air conditioning operation. Specifically, at the interval of 30 minutes from the start of the air conditioning operation of the indoor unit 2, the receiving unit 17 of the remote controller 3 becomes in a receivable state, and at the same time, the transmitting unit 16 of the remote controller 3 receives the receiving unit 13 of the indoor unit 2. Send a signal.

  By setting the predetermined timing in this way, the air conditioning operation information is automatically transmitted from the indoor unit 2 to the remote controller 3 every 30 minutes from the start of the air conditioning operation of the indoor unit 2. In the present embodiment, the predetermined timing is managed by the respective clock functions of the first timer provided in the indoor unit 2 and the second timer provided in the remote controller 3.

  As described above, in the air conditioner 1 according to the present embodiment, the receiving unit 17 of the remote controller 3 is intermittently and automatically receivable. In general, in order to transmit a signal from the remote control 3 to the indoor unit 2 at predetermined intervals from the time of activation, the battery is not consumed so much to keep the transmission function of the remote control 3 continuously. When the receiving function of the remote control 3 is activated, the battery is consumed drastically. Therefore, as in the air conditioner 1 according to the present embodiment, when the receiving unit 17 of the remote control 3 is intermittently made in a receivable state, the receiving unit 17 of the remote control 3 is always in a standby state to be in a receivable state. As compared with the above, the power consumption of the remote controller 3 can be greatly suppressed.

  Further, in the air conditioner 1 according to the present embodiment, when a signal is transmitted from the transmission unit 16 of the remote control 3 to the reception unit 13 of the indoor unit 2, the reception unit 17 of the remote control 3 becomes in a receivable state, Air conditioning operation information is transmitted from the transmission unit 15 of the machine 2 to the reception unit 17 of the remote controller 3. As described above, the air conditioner operation information is transmitted from the indoor unit 2 to the remote controller 3 after ensuring the receiving state of the receiving unit 17 of the remote controller 3, so that the air conditioning is performed between the indoor unit 2 and the remote controller 3 with high accuracy. Operation information can be transmitted and received, and the reliability of the air conditioner 1 can be improved. In addition, by setting the period in which the receiving unit 17 of the remote controller 3 is in a receivable state to include the time when the air conditioning operation information is transmitted from the transmission unit 15 of the indoor unit 2, the air conditioning operation information can be transmitted and received with high accuracy. In addition, the power consumption of the remote controller 3 can be further suppressed.

  Further, in the air conditioner 1 according to the present embodiment, the period in which the receiving unit 17 of the remote controller 3 is in a receivable state is determined from the time per time that the transmitting unit 15 of the indoor unit 2 performs the transmission process. Is set too long (1 second> 0.5 seconds). Thereby, the air conditioning operation information can be transmitted and received with high accuracy between the indoor unit 2 and the remote controller 3.

  In the present embodiment, the remote controller 3 includes a “notification button 12” that is an information request button that causes an information request signal to be transmitted from the transmission unit 16 of the remote control 3 to the reception unit 13 of the indoor unit 2. When the “notification button 12” is pressed, steps S2 to S5 shown in FIG. 4 are performed regardless of the predetermined timing, and the air conditioning operation information is transmitted once from the indoor unit 2 to the remote controller 3. Thereby, besides the predetermined timing, the user can recognize the air conditioning operation information at an arbitrary timing. Therefore, convenience can be further improved.

  Next, a method of generating air conditioning operation information by the information generation unit 14 of the indoor unit 2 will be specifically described.

  The information generation unit 14 in the present embodiment generates an eco degree and energy saving advice as air conditioning operation information. The eco degree is an index of energy saving calculated according to the operating state of the air conditioner 1, and the energy saving advice is a message for improving the eco degree according to the calculated eco degree.

  First, an eco degree calculation method will be described with reference to FIGS. As shown in FIG. 6A, the information generation unit 14 calculates the eco degree based on the three indicators of the indoor set temperature, the power save setting, and the current limit. The power save setting is one of the energy saving operation modes of the air conditioner 1. By reducing the upper limit of the current value of the outdoor unit 4 during the air conditioning operation (for example, 15A to 10A), the normal air conditioning operation is performed. The air-conditioning operation is performed while keeping the power consumption low compared to the time. Here, the energy-saving operation mode of the air conditioner 1 is an operation setting that contributes to energy saving and improves the ecology, and is not limited to the power save setting. In addition, when the current limit is applied, when the air conditioning load during air conditioning is high and the required capacity for remote control setting is high, the power used by the compressor of the outdoor unit increases, and the upper limit value of the outdoor unit current value is reached. It is to be caught.

  As shown in FIG. 6 (b), regarding the indoor set temperature, a score of 0 to 60 points is determined according to the indoor set temperature of 16 ° C to 30 ° C. About this score, the table is divided depending on whether the air conditioner 1 is performing a cooling operation or a heating operation. In the cooling operation, a higher score is given as the indoor set temperature is higher, and in the heating operation, a higher score is given as the indoor set temperature is lower.

  In addition, as shown in FIG. 6A, when the power save is set, 20 points are added to the points corresponding to the indoor set temperature described above. On the other hand, if the power save is not set, the score is not added.

  In addition, as shown in FIG. 6 (a), when the current limit is not caught, the total of the points added according to the above-described indoor set temperature and the power save setting, In addition, 20 points are added. On the other hand, points are not added when the current limit is reached.

  As described above, according to the air conditioner 1 according to the present embodiment, the information generation unit 14 of the indoor unit 2 uses a maximum of 100 points using three indexes (indoor set temperature, power save setting, and current limit). Eco degree is calculated by the score.

  FIG. 7A shows an example of calculating the eco value on the display unit 8 of the remote controller 3. In FIG. 7A, in the cooling operation, the indoor set temperature is 27 degrees (45 points), the power save setting is already set (20 points added), and the current limit is not caught (20 points added). ) Is displayed (85 points).

  Next, a specific method for generating energy saving advice by the information generating unit 14 will be described.

  First, the air conditioner 1 determines whether or not an energy saving operation mode (for example, power save setting) is set.

  In the case where the energy saving operation mode is not set, the content that prompts the user to set the energy saving operation mode that is not set is generated as energy saving advice. FIG. 7B is a display example of the energy saving advice when the power saving setting is not performed on the display unit 8.

  When all the energy saving operation modes are set, general energy saving advice stored in advance is generated. Examples of general energy saving advice include an operation that leads to an energy saving operation other than the energy saving operation mode, and an operation that encourages an energy saving action other than the air conditioning operation setting of the air conditioner 1. FIG. 7C shows a message prompting the change of the indoor set temperature as a display example when prompting an operation that leads to energy saving other than the energy saving operation mode, and FIG. 7D shows the air conditioning operation setting of the air conditioner 1. As a display example of what prompts an energy saving action other than, a message for estimating opening / closing of a window is shown.

  Further, in the present embodiment, the information generation unit 14 of the indoor unit 2 saves energy by encouraging the opening and closing of the curtain according to, for example, the indoor illuminance detected by the illuminance sensor 6 in the indoor unit 2 and the time grasped by the clock function. Advice can be generated. FIG. 7E is a display example of energy saving advice for estimating opening / closing of the curtain on the display unit 8.

  As described above, according to the air conditioner 1 according to the present embodiment, the eco-degree and the energy-saving advice are generated by the information generation unit 14 of the indoor unit 2, and then transmitted to the remote controller 3, so that the user can Can be confirmed. Thereby, based on the eco degree and the energy saving advice displayed on the remote controller 3, the air conditioning operation of the air conditioner 1 can be controlled so as to lead to further energy saving, and the energy saving performance of the air conditioner 1 can be improved. it can.

  In addition, the air conditioner 1 according to the present embodiment has an energy saving operation mode in which the ecological degree is improved, and the content of the energy saving advice prompts the setting of the energy saving operation mode. Thereby, the energy-saving property of the air conditioner 1 can further be improved.

  Further, in the air conditioner 1 according to the present embodiment, when all the energy saving operation modes have been set, a general energy saving method is generated as energy saving advice, and the energy saving operation mode is included in the general energy saving method. There are those that promote unexpected energy saving operation and those that encourage energy saving actions other than the air conditioning operation setting of the air conditioner 1. Thereby, the energy-saving property of the air conditioner 1 can further be improved.

  In addition, this invention is not limited to the said embodiment, It can implement with another various aspect. For example, in the present embodiment, the case where a signal is transmitted from the transmission unit 16 of the remote controller 3 to the reception unit 13 of the indoor unit 2 is described. However, the present invention is not limited thereto, and for example, the first and second timers are used. As shown in FIG. 8, the air conditioning operation information can be transmitted from the indoor unit 2 to the remote controller 3 while omitting a signal from the remote controller 3 to the indoor unit 2.

  In FIG. 8, synchronization is established between the indoor unit 2 and the remote controller 3 at the start of operation of the indoor unit 2. By synchronizing in advance as described above, the air conditioning operation information is transmitted from the indoor unit 2 to the remote controller 3 without making the receiving unit 17 of the remote controller 3 always receivable while omitting the signal from the remote controller 3 to the indoor unit 2. Is sent. Thereby, similarly to the case where a signal is transmitted from the remote controller 3 to the indoor unit 2, the power consumption of the remote controller 3 can be suppressed. Moreover, it can synchronize with a sufficient precision by synchronizing at the time of the operation start of the indoor unit 2.

  Further, in the present embodiment, the case where the transmission unit 16 of the remote control 3 transmits a signal and the reception unit 17 of the remote control 3 is in a receivable state at the same time has been described. As long as the transmission / reception of the air-conditioning operation information is established between the remote controller 3 and the remote controller 3, the timing may be slightly different.

  Further, in the present embodiment, the case where the eco degree is calculated based on the three indicators of the indoor set temperature, the power save setting, and the current limit has been described. However, the present invention is not limited to this, for example, the strength of the wind blown from the indoor unit 2 Settings or the like may be used as an index.

  In this embodiment, the predetermined timing is set to 30 minutes, but the present invention is not limited to this. For example, the predetermined timing may be set to 1 hour or a combination of 30 minutes and 1 hour.

  In the present embodiment, the case where the starting point of the predetermined timing is when the operation of the indoor unit 2 starts is described. However, the present invention is not limited to this. For example, the user operates the remote controller 3 to change the wind direction to the indoor unit 2. The starting point may be the time when the instruction signal is transmitted. Further, the remote controller 3 may be provided with a button for resetting the starting point of the predetermined timing so that the user can reset the starting point of the predetermined timing.

  Moreover, although this embodiment demonstrated the case where it alert | reports by the alerting | reporting part 9 lighting, it does not restrict to this. For example, the remote controller 3 may be notified by vibrating or generating a sound.

  Further, in this embodiment, the period in which reception is possible in the receiver 17 of the remote controller 3 is set to 1 second, and the period in which the transmission function in the transmitter 15 of the indoor unit 2 operates is set to 0.5 seconds. Not limited to this, other times may be set.

  The air conditioner of the present invention is useful as an air conditioner used in general households.

DESCRIPTION OF SYMBOLS 1 Air conditioner 2 Indoor unit 3 Remote control 4 Outdoor unit 5 Refrigerant piping 6 Illuminance sensor 7 Operation part 8 Display part 9 Notification part 10 Operation on / off button 11 Decision button 12 Notification button 13 Reception part 14 Information generation part 15 Transmission part 16 Transmission unit 17 Reception unit 20 Cover 21 Selection button 22 Memory 23 Memory

Claims (7)

An information generation unit that generates air conditioning operation information related to air conditioning operation, a transmission unit that transmits the air conditioning operation information generated by the information generation unit, and a reception that receives an information request signal transmitted from a transmission unit of a remote controller An indoor unit having a section;
The air conditioner operation of the indoor unit is controlled, a receiving unit that receives the air conditioning operation information transmitted from the transmitting unit of the indoor unit, and an information request signal that requests the air conditioner operation information to the indoor unit A remote controller having a transmission unit, an information request button for transmitting the information request signal from the transmission unit to the reception unit of the indoor unit, and a display unit for displaying the air conditioning operation information received by the reception unit. Prepared,
The information generation unit of the indoor unit generates air conditioning operation information every predetermined time,
The receiver of the remote control is intermittently and automatically ready to receive,
When the information request button is pressed or the information request signal is automatically transmitted from the transmitter of the remote controller to the receiver of the indoor unit at a predetermined time interval , the reception of the remote controller And the air conditioning operation information is transmitted from the transmission unit of the indoor unit to the reception unit of the remote controller.
The air conditioning operation information generated by the information generation unit is an energy saving index that is an energy saving index calculated according to an operating state, and a message for improving the energy saving degree according to the calculated energy saving degree. only contains the advice,
The predetermined time for the information generating unit to generate the air conditioning operation information is shorter than the predetermined time for the remote controller to automatically transmit the information request signal to the indoor unit.   The air conditioner according to claim 1, wherein the information generation unit calculates an ecological degree based on an indoor set temperature, a power save setting, and a current limit index.   The air conditioner according to claim 1 or 2, wherein the information generation unit changes an eco-degree index between a cooling operation and a heating operation.   The air conditioner according to any one of claims 1 to 3, wherein the starting point of the predetermined timing is when the indoor unit starts operation.   The air conditioner according to any one of claims 1 to 4, wherein the remote controller includes a button for resetting a starting point of the predetermined timing.   The period during which the reception unit of the remote controller is in a receivable state once is set longer than the time per transmission for the transmission unit of the indoor unit to perform transmission processing. The air conditioner as described in any one.   The air conditioner according to any one of claims 1 to 6, wherein the remote controller or the indoor unit deletes the received or transmitted air conditioning operation information after a predetermined time has elapsed.

Images