JP2013231549A - Air conditioner system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner system capable of improving amenity in the space where a user is present, being excellent in energy saving.SOLUTION: An air conditioner system includes an air conditioner containing an outdoor unit 3 and an indoor unit 4, and a plurality of remote controllers (wired remote controller 1, wireless remote controller 2) capable of bidirectional communication with the indoor unit 4 arranged in one or a plurality of rooms. The remote controllers include room temperature detecting means (103 and 203) for detecting room temperature around themselves, and operation parts (102 and 202) allowing input of operation information of the remote controllers, and when the operation information is input through the operation part, transmits at least a room temperature detected by the room temperature detecting means and the operation information to the indoor unit 4. The indoor unit 4 includes a control part 401 which, when receives the room temperature and the operation information from a remote controller on which remote control operation has been made, always performs temperature adjustment control by using the room temperature, with the room temperature as an object of control.

Description

  The present invention relates to an air conditioner system for air conditioning the same space or a plurality of spaces.

  In a conventional air conditioner system, a temperature sensor that measures the temperature of the surrounding space and a composite sensor that has a reporting means for reporting whether it is hot or cold by user operation, and a temperature of the composite sensor that has been reported by the reporting means. Some include control means for controlling the air conditioning equipment based on the temperature measured by the sensor (see, for example, Patent Document 1). In this configuration, the temperature control is performed based on the room temperature (report location temperature) of the space where the user is located by operating the reporting means.

  Some conventional air conditioner systems switch between a room temperature sensor used for temperature control and a set temperature by schedule setting or manual setting (see, for example, Patent Document 2).

JP 2008-45779 A JP 2004-279000 A

  However, in the air conditioner system described in Patent Literature 1, although the room temperature of the user's space can be directly controlled, the sensor setting operation such as the operation of the reporting means is required, and the user is conscious. Therefore, if the set temperature is changed without changing the sensor setting, the temperature of the user's space is not subject to direct temperature control, and comfort and energy saving There was a problem that decreased.

  In the air conditioner system described in Patent Document 2, the room temperature sensor used for temperature control and the set temperature are switched according to the schedule setting, but the temperature control is actually controlled based on the room temperature in the space where there is no user. As a result, the temperature of the space where the user is actually may be too high or lower than the preset temperature, which may reduce comfort and energy efficiency. there were.

  The present invention has been made in view of the above, and an object of the present invention is to provide an air conditioner system that can improve the comfort of a space where a user is present and is excellent in energy saving.

  In order to solve the above-described problems and achieve the object, an air conditioner system according to the present invention includes an air conditioner having an outdoor unit and an indoor unit, and a bidirectional arrangement with the indoor unit arranged in one or a plurality of rooms. A plurality of remote controllers capable of communicating with each other, each remote controller having a room temperature detecting means for detecting the room temperature around each of the remote controllers, and an operation unit capable of inputting operation information of the remote controller, When the operation information is input via the operation unit, at least the room temperature detected by the room temperature detection unit and the operation information are transmitted to the indoor unit, and the indoor unit is configured to transmit the room temperature and the room temperature from a remote-controlled remote controller. When the operation information is received, a control unit that performs temperature control using the room temperature as a control target is always provided.

  According to the present invention, it is possible to provide an air conditioner system that can improve the comfort of a space where a user is present and is also excellent in energy saving.

1 is a diagram illustrating an example of an arrangement configuration of an air conditioner system according to Embodiment 1. FIG. FIG. 2 is a functional block diagram of the air conditioner system according to Embodiment 1. FIG. 3 is a diagram showing an operation image of selecting a room temperature detection means (temperature sensor).

  Embodiments of an air conditioner system according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram illustrating an example of an arrangement configuration of an air conditioner system according to the present embodiment. As shown in FIG. 1, this air conditioner system is installed in a house 40 composed of a plurality of rooms, for example. The house 40 includes, for example, three rooms, and specifically includes a living dining room 50, a bedroom 51, and a western room 52.

  An outdoor unit 3 of an air conditioner is installed outdoors. An indoor unit 4 of an air conditioner is installed indoors, and the indoor unit 4 is connected to the outdoor unit 3. In the living dining room 50, for example, a floor heating 6 is disposed as a heating facility, and the floor heating 6 is connected to the indoor unit 4 and the outdoor unit 3 through a water pipe. Furthermore, a wired remote controller 1 and a wireless remote controller 2 are arranged in the living dining room 50. The wired remote controller 1 is connected to the indoor unit 4 by wire and can communicate bidirectionally with the indoor unit 4. The wireless remote controller 2 can perform two-way wireless communication with the indoor unit 4. In the bedroom 51, for example, a radiator heating 5 is disposed as a heating facility, and the radiator heating 5 is connected to the indoor unit 4 and the outdoor unit 3 through water pipes. Further, a wireless remote controller 2 is disposed in the bedroom 51. The wireless remote controller 2 can perform two-way wireless communication with the indoor unit 4. In the western room 52, for example, a radiator heating 5 is disposed as a heating facility, and the radiator heating 5 is connected to the indoor unit 4 and the outdoor unit 3 through a water pipe. Further, a wireless remote controller 2 is disposed in the western room 52. The wireless remote controller 2 can perform two-way wireless communication with the indoor unit 4.

  Thus, in the present embodiment, the air conditioner system targets a plurality of spaces (a plurality of rooms) for air conditioning, and one or a plurality of remote controllers (remote devices) capable of communicating with the indoor unit 4 are provided in each space. Controller). The remote control may be either wired or wireless. Note that this embodiment can also be applied to a case where a single room (the same space) is to be air-conditioned. In this case, a plurality of remote controllers may be arranged in a single room.

  Moreover, in this Embodiment, the air conditioner system has described the hot water supply heating system which heats or cools with the hot water or the cold water supplied through the water piping from the heat source unit (outdoor unit 3) as an example. However, the present invention is not limited to this, and a system that performs cooling and heating with a refrigerant supplied from a heat source device may be used.

  FIG. 2 is a functional block diagram of the air conditioner system according to the present embodiment. The indoor unit 4 includes a communication unit 402 that performs communication with the wired remote controller 1 and each wireless remote controller 2, and a control unit 401 that performs temperature control based on room temperature data transmitted from the wired remote controller 1 and each wireless remote controller 2. And.

  The wired remote controller 1 includes a room temperature detecting means 103 (temperature sensor) for detecting a room temperature around itself, an operation unit 102 that allows a user to perform various setting operations and input operation information, and setting information and driving information. Etc., and a communication unit 104 that communicates with the indoor unit 4.

  The wireless remote controller 2 includes a room temperature detecting means 203 (temperature sensor) for detecting the room temperature around itself, an operation unit 202 that allows a user to perform various setting operations and input operation information, A display unit 201 for displaying operation information and the like, and a communication unit 204 for communicating with the indoor unit 4 are provided.

  Next, the operation of the present embodiment will be described. When the operation information is input by the user via the operation unit 102, the wired remote controller 1 transmits at least the room temperature detected by its own room temperature detection means 103 and the operation information operated by the user by the operation unit 102 by remote control communication. Transmit to the indoor unit 4. The remote control communication is performed via the communication unit 104. In addition, each wireless remote controller 2 receives at least the room temperature detected by its own room temperature detection means 203 and the operation information operated by the user by the operation unit 202 when the operation information is input by the user via the operation unit 202. It transmits to the indoor unit 4 by remote control communication. The remote control communication is performed via the communication unit 204.

  For example, when a user in the bedroom 51 operates the wireless remote controller 2 in the bedroom 51 and changes the set temperature, the wireless remote controller 2 displays the operation information regarding the room temperature in the bedroom 51 and the changed set temperature in the room. Transmit to machine 4. The user operation is not limited to the temperature setting operation, and can be any remote control operation.

  For example, when the user who exists in the living dining room 50 operates the wired remote control 1 and changes the setting temperature, the wired remote control 1 is the room temperature around the wired remote control 1 in the living dining room 50 and the changed setting. Operation information related to temperature is transmitted to the indoor unit 4. The user operation is not limited to the temperature setting operation, and can be any remote control operation. The same applies to other wireless remote controllers 2.

  The control unit 401 of the indoor unit 4 can receive the room temperature and the operation information transmitted from the wired remote controller 1 or the wireless remote controller 2, and can specify from which remote controller these are transmitted. Here, the control unit 401 can specify which remote controller is the transmission source from the transmission source information included in the received data. Note that the control unit 401 receives received data via the communication unit 402.

  Next, the control unit 401 performs temperature control using only the room temperature as a control target using the room temperature included in the received data. That is, the control unit 401 performs temperature control using the detected room temperature detected by the room temperature detecting unit of the remote controller that has been operated by the user, and controls the room temperature in the room where the remote controller exists to approach the set temperature. For example, when a user in the bedroom 51 operates the wireless remote controller 2 in the bedroom 51 and changes the set temperature, the control unit 401 uses the room temperature detected by the wireless remote controller 2 in the bedroom 51. Perform temperature control. The control unit 401 continues such temperature control for a certain period of time, for example, unless another remote control operation by the user occurs. Note that the set temperature at this time is naturally transmitted as operation information from the remote control when the user operation is temperature setting adjustment, but is transmitted together with the room temperature and operation information from the remote control, for example, when the user operation is other than temperature adjustment. Alternatively, when the information on the set temperature has already been received and held, the set temperature may be used.

  Furthermore, the control unit 401 transmits room temperature detection means selection information indicating which room temperature detection means of any remote controller is selected and temperature control is being performed by remote control communication to all remote controllers (wired remote controller 1 and each remote controller 1). Transmit to the wireless remote control 2).

  If the detected remote room temperature is selected and used for temperature control based on the received room temperature detection means selection information, the wired remote controller 1 displays the content indicating that on the display unit 101 and If the detected room temperature is not selected, it can be hidden. That is, when the self-detected room temperature is selected and used for temperature control, the wired remote controller 1 displays the room temperature detection means selection information on the display unit 101, and when the self-detected room temperature is not selected. , Can be hidden. In this case, instead of not displaying, the room temperature detected by the room temperature detecting means is selected, and the contents for specifying another remote controller used for temperature control, that is, room temperature detecting means selection information is displayed. You may do it. Similarly, each wireless remote controller 2 displays, on the display unit 201, the content indicating that when its own room temperature is selected and used for temperature control based on the received room temperature detection means selection information. If the room temperature is not selected, it can be hidden. That is, each wireless remote controller 2 displays the room temperature detection means selection information on the display unit 201 when its own room temperature is selected and used for temperature control, and when its own room temperature is not selected, It can be hidden. In this case, instead of not displaying, the room temperature detected by the room temperature detecting means is selected, and the contents for specifying another remote controller used for temperature control, that is, room temperature detecting means selection information is displayed. You may do it.

  FIG. 3 is a diagram showing an operation image of selecting a room temperature detection means (temperature sensor). In FIG. 3, “in the case of only the schedule” represents a case in which it is determined in advance according to the schedule which remote controller of the room temperature detecting means (temperature sensor) to be used for temperature control is selected. For example, see Patent Document 2.) Specifically, the room temperature detected by the room temperature detecting means 203 of the wireless remote controller 2 in the bedroom 51 is selected and used for temperature control between 0:00 and 7:00, and between 7:00 and 21:00. The room temperature detecting means 103 of the wired remote controller 1 in the living dining room 50, for example, is selected and used for temperature control, and between 21:00 and 24:00, the room temperature detecting means of the wireless remote controller 2 in the bedroom 51 is used. The room temperature detected by 203 is selected and used for temperature control.

  In addition, in the case of “manually changing the sensor setting”, the room temperature used for the temperature control in the control unit 401 is set by the user executing a specific remote control operation under the situation set as described above. This represents a case where the sensor selection information (room temperature detection means selection information) is manually set so that the room temperature detected by the room temperature detection means (temperature sensor) of the remote controller is set (see, for example, Patent Document 2). Specifically, between 7:00 and 21:00, according to the schedule, the room temperature detected by the room temperature detecting means 103 of the wired remote controller 1 in the living dining room 50 was selected, but the setting was changed manually. Thus, between 15:00 and 21:00, the detected room temperature by the room temperature detecting means 203 of the wireless remote controller 2 in the western room 52 is selected and used for temperature control.

  Next, “in the case of user operation (for example, temperature setting change)” corresponds to the operation of the present embodiment, and between 15: 00 to 21: 00 in the Western-style room 52 by the above-described manual setting. When the room temperature detected by the room temperature detecting means 203 of the wireless remote controller 2 was selected, the user who was in the bedroom 51 at 19:00 operated the wireless remote controller 2 in the bedroom 51 (for example, changing the temperature setting). The control unit 401 represents that temperature control is performed using the room temperature detected by the wireless remote controller 2 in the bedroom 51 between 19:00 and 21:00.

  In this way, when the remote control is operated, the user's comfort can be improved by performing the temperature control using the detected room temperature of the remote control in the space where the user is surely provided. . In addition, since the room temperature detection means used for temperature control is switched even if the user is not conscious of it, complicated setting work is eliminated, operability is improved, and unnecessary temperature increases due to forgetting to change settings, etc. This eliminates the need to reduce power consumption and save energy.

  On the other hand, for example, in the air conditioner system described in Patent Document 1, in order to control the room temperature of the space where the user is present as a target of temperature control, the user for this purpose includes the operation of the reporting means. A specific sensor setting operation is required, and the user needs to change the sensor setting with awareness. For this reason, if the set temperature is changed without changing the sensor setting, the temperature of the user's space is not subject to direct temperature control, and comfort and energy savings such as an increase in room temperature more than necessary are achieved. There was a problem of lowering.

Embodiment 2. FIG.
In the first embodiment, the control unit 401 performs temperature control using the detected room temperature by the room temperature detecting means of the remote controller that has been operated by the user. In the present embodiment, the control unit 401 uses not only the room temperature detected by the room temperature detecting means of the remote controller that has been operated by the user but also the room temperature detected by the room temperature detecting means of another remote controller for temperature control. The control temperature is calculated by weighting the detected room temperature by the room temperature detecting means of the remote controller larger than the room temperature detected by the room temperature detecting means of the other remote controller, and temperature control is performed using this control temperature. Hereinafter, a specific example will be described. Note that the configuration of the present embodiment is the same as the configuration of the first embodiment shown in FIGS.

  For example, when a user in the bedroom 51 operates the wireless remote controller 2, the wireless remote controller 2 transmits the room temperature in the bedroom 51 and operation information to the indoor unit 4. The control unit 401 receives these room temperature and operation information and recognizes that these are transmitted from the wireless remote controller 2 in the bedroom 51.

  Next, the control unit 401 displays the room temperature (T1) in the bedroom 51 where the user operation is performed, the room temperature (T2) by the room temperature detection means 203 of the wireless remote controller 2 in the western room 52, and the room temperature of the wired remote controller 1 in the living dining room 50. Using the room temperature (T3) by the detection means 103 and the room temperature (T4) by the room temperature detection means 203 of the wireless remote controller 2 in the living dining room 50, the control temperature T = a1 · T1 + a2 · T2 + a3 · T3 + a4 · T4, for example, by weighted averaging. Is calculated. Here, a1 to a4 are weighting constants and satisfy a1> a2, a3, a4 and a1 + a2 + a3 + a4 = 1. That is, the weight of the room temperature T1 in the bedroom 51 where the user operation is performed is set larger than the weight for the detected room temperature by other remote controllers.

  As a1 to a4, for example, preset values can be used. In addition, a1-a4 can also be set according to the content (for example, setting temperature, an operation mode, a wind speed, etc.) of a user's operation information. For example, when the user operates the set temperature, a1 can be set larger than when other operations are performed. Moreover, a1-a4 can also be set according to the frequency | count of a user's operation within the preset preset time. For example, when a plurality of remote control operations are performed from the same remote controller in the same room within a specified time, a1 can be set larger as the number of operations increases.

  Further, for room temperature T2 to T4, for example, each remote controller may be periodically transmitted to the indoor unit 4 by remote control communication, and the most recently received value may be used, or the control unit 401 may use each remote controller. May be instructed to transmit room temperature T2 to T4, and the latest value returned from each remote controller may be used.

  Further, the control unit 401 sets the setting temperature (Ts1) of the wireless remote controller 2 in the bedroom 51 where the user operation is performed, the setting temperature (Ts2) of the wireless remote controller 2 in the western room 52, and the setting of the wired remote controller 1 in the living dining room 50. Using the temperature (Ts3) and the set temperature (Ts4) of the wireless remote controller 2 in the living dining room 50, the set temperature Ts = a1 · Ts1 + a2 · Ts2 + a3 · Ts3 + a4 · Ts4 is calculated. As for the set temperatures Ts1 to Ts4, the values can be used if they are already transmitted from the remote controller to the control unit 401, or the control unit 401 transmits the set temperatures Ts1 to Ts4 to each remote controller. The set value transmitted from each remote controller may be used.

  The control unit 401 performs temperature control so that the control temperature T approaches the set temperature Ts. The control unit 401 continues such temperature control for a certain period of time, for example, unless another remote control operation by the user occurs.

  Furthermore, the control unit 401 transmits weighting information indicating how much the control temperature is calculated and the temperature control is performed by the remote controller's room temperature detection means by using remote control communication for all remote controllers (wired remote controller 1 and each remote controller 1). Transmit to the wireless remote control 2). The wired remote controller 1 displays the received weighting information on the display unit 101. Similarly, each wireless remote controller 2 displays the received weighting information on the display unit 201.

  In this way, whenever a remote control is operated, the control temperature is calculated by weighting the detected room temperature of the remote control that has been operated by the user, and temperature control is performed to detect the remote control in the space where the user is surely located. By increasing the contribution of room temperature and performing temperature control, it is possible to improve user comfort. In addition, since the room temperature detected by the room temperature detection means of the remote control operated by the user is weighted and used for temperature control without being conscious of the user, complicated setting work is not required and operability is improved and setting change is possible. Since there is no unnecessary temperature rise due to forgetting, power consumption can be reduced and energy is saved.

  The present invention is suitable as an air conditioner system.

DESCRIPTION OF SYMBOLS 1 Wired remote control 2 Wireless remote control 3 Outdoor unit 4 Indoor unit 5 Radiator heating 6 Floor heating 40 House 50 Living dining 51 Bedroom 52 Western room 101,201 Display part 102,202 Operation part 103,203 Room temperature detection means 104,204,402 Communication part 401 control unit

Claims (8)

An air conditioner having an outdoor unit and an indoor unit;
A plurality of remote controllers arranged in one or a plurality of rooms and capable of bidirectional communication with the indoor unit;
With
Each remote controller has a room temperature detecting means for detecting a room temperature around the remote controller and an operation unit that allows input of operation information of the remote controller, and when operation information is input via the operation unit At least the room temperature detected by the room temperature detecting means and the operation information are transmitted to the indoor unit,
When the indoor unit receives the room temperature and the operation information from a remote controller operated by a remote controller, the indoor unit always includes a control unit that performs temperature control using the room temperature as a control target. Air conditioner system. Each of the remote controllers has a display unit,
After the control unit receives the room temperature and the operation information from the remote controller operated by remote control, the room temperature detection means selection indicating whether the temperature control by the room temperature detection means of which remote controller is selected and the temperature control is performed Send information to each remote control by communication,
2. The air conditioner system according to claim 1, wherein each of the remote controllers displays the room temperature detection unit selection information on the display unit after receiving the room temperature detection unit selection information from the control unit. . An air conditioner having an outdoor unit and an indoor unit;
A plurality of remote controllers arranged in one or a plurality of rooms and capable of bidirectional communication with the indoor unit;
With
Each remote controller has a room temperature detecting means for detecting a room temperature around the remote controller and an operation unit that allows input of operation information of the remote controller, and when operation information is input via the operation unit At least the room temperature detected by the room temperature detecting means and the operation information are transmitted to the indoor unit,
When the indoor unit receives the room temperature and the operation information from a remote controller operated by a remote controller, the indoor unit is always detected by the room temperature detection means of the remote controller operated by the remote controller and the room temperature detection means of all other remote controllers and acquired by communication The control temperature is calculated as a weighted average with the largest weighting of the room temperature from the remote control operated by the remote control using the room temperature, and the temperature control is performed using the control temperature as a control target The air conditioner system characterized by having a part.   The air conditioner system according to claim 3, wherein the control unit sets the weighting amount according to the content of the operation information when calculating the control temperature.   The said control part sets the magnitude | size of the said weight according to the frequency | count of operation of the said remote control operated by the said remote control within the regulation time, when calculating the said control temperature. Air conditioner system. Each of the remote controllers has a display unit,
The control unit communicates weighting information indicating how much the room temperature is detected by the room temperature detection means of which remote controller and how much the control temperature is calculated after receiving the room temperature and the operation information from the remote controller operated by the remote controller To send to each remote control,
6. The air conditioner according to claim 3, wherein each of the remote controllers displays the weighting information on the display unit after receiving the weighting information from the control unit. Machine system.   The air conditioner according to any one of claims 1 to 6, wherein the air conditioner is a hot water heater that performs heating or cooling using hot water or cold water supplied from the outdoor unit. system.   The air conditioner system according to any one of claims 1 to 6, wherein the air conditioner performs heating or cooling using a refrigerant supplied from the outdoor unit.

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