JP6268477B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner, and more particularly to a configuration for notifying a user of operation information related to energy-saving operation.

Conventionally, an air conditioner having a function of notifying a user of operation information related to energy-saving operation is disclosed in Patent Document 1, for example.
This air conditioner provides the estimated value of electricity cost per unit time when operating with the current settings on the remote controller display before starting the operation of the air conditioner even for users without energy saving operation knowledge. It is provided with a function for clarifying the financial burden on the user by informing the user and raising awareness for the user to perform the energy saving operation.

  This air conditioner has a calculation unit that calculates the integrated electric energy per unit time and the average value of the setting information during operation, and the unit time at the start of the air conditioner or immediately after the operation is stopped. And a transmission unit that transmits the accumulated electric energy per unit and the setting information average value during operation to the remote controller.

  Then, when the air conditioner is stopped, the remote controller calculates a predicted value of the integrated electric energy per unit time when the operation is started with at least the current setting contents, and displays it on the display unit.

  By the way, when using an air conditioner at home, for example, when a user leaves a room temporarily equipped with an air conditioner for a restroom or a meal, or shopping at a convenience store in the neighborhood For this reason, there are frequent cases such as going out temporarily for a short time. The user seems to leave the room while continuing the operation of the air conditioner for about 5 to 10 minutes. However, when the absence time is longer than that, the user often leaves the room after stopping the operation.

  However, when the user leaves the room and returns to the room in a short time in this way, the user does not know which is the energy saving operation, when the operation of the air conditioner is stopped or when the operation is continued as it is. . In the case of an inverter type air conditioner, it operates at a high capacity at the start of operation, and continues to operate at a low capacity after the room temperature reaches the set temperature. Therefore, the user grasps the power consumption in each operation. This is because it cannot be done. For this reason, even if the operation is stopped, the energy saving operation may not always be performed.

  In addition, Patent Document 1 has a function of notifying the user of the expected electric energy per unit time, but from that information, which is energy saving when the operation of the air conditioner is stopped or when the operation is continued as it is. The user could not determine whether it would be driving.

JP 2012-21733 A (page 6-7, FIG. 6)

  The present invention solves the above-described problems, which is energy saving operation when the user temporarily leaves the room, when the operating air conditioner is stopped, or when the operation is continued. It aims at providing the air conditioner provided with the function which alert | reports to a user the branch point time (absence time) used as a branch point.

In order to solve the above-mentioned problems, the present invention according to claim 1 of the present invention is an air conditioner including an inverter device for driving a compressor,
The air conditioner
Advice request means for accepting a user's advice request operation during operation of the air conditioner and outputting advice request data;
An informing means for informing the user of the informing information;
When the advice request data is input,
The above-mentioned operation for making the electric energy for starting the operation after the operation stop time once stopped to be the same as the current room temperature and the electric energy for continuing the operation under the current operating conditions the same. And a branch point calculating means for calculating a branch point time which is a stop time and outputting it to the notification means.

  By using the above means, according to the air conditioner of the present invention, the branch point calculation means starts the operation after the operation stop time once the operation is stopped via the notification means, and is the same as the current room temperature. In order to inform the user of the branching point time, which is the operation stop time for making the same amount of power to maintain the same amount of power when the operation is continued under the current operating conditions, By comparing the planned absence time and the branch point time, it is possible to easily determine whether the operation continues or the operation stops is the energy saving operation with a small amount of power consumption.

It is a block diagram which shows the Example of the air conditioner by this invention. It is explanatory drawing explaining operation | movement of the air conditioner by this invention.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail as examples based on the attached drawings.

FIG. 1 is a block diagram showing an embodiment of an air conditioner according to the present invention. The air conditioner 1 includes a heat exchanger, a refrigerant circuit, a blower fan, and the like in addition to those described in the block diagram, but the illustration and description are omitted because they are not directly related to the description of the present invention.
This air conditioner 1 includes an indoor unit 4 to which an AC power supply 2 is connected, an outdoor unit 3, a remote controller 41 as advice request means, and a communication line 5 that connects between the indoor unit 4 and the outdoor unit 3. And a power line 6.

  The indoor unit 4 includes an indoor unit power supply unit 42 that supplies power to each block in the indoor unit 4, a remote control communication unit 43 that communicates with the remote controller 41 using radio waves, and an indoor unit control unit 44 that controls the indoor unit. , Advice advisability judging means 45 for judging whether or not advice concerning energy saving operation is possible, electric energy storage means 46 for storing the electric energy per unit time sent from the outdoor unit 3, and branching whether or not energy saving operation is to be performed A branch point calculating means 47 for calculating the point time and an informing means 48 for informing information on the energy saving operation are provided. Note that the energy-saving operation described in this example is when the user temporarily leaves the room while operating the air conditioner, when the operation of the air conditioner is stopped, and when the operation is continued as it is And shows the operation when less energy is consumed.

  On the other hand, the outdoor unit 3 includes an inverter power supply unit 35 that supplies power to the inverter device 36, an outdoor unit control unit 32 that controls the outdoor unit 3, an outdoor temperature detection unit 31 that detects the outdoor temperature, and an inverter power supply unit power supply. A current detection means 34 for detecting a current flowing through the unit 35; a power amount calculation means 33 for calculating a power amount per unit time from the start of operation based on the current detected by the current detection means 34; a compressor 37; And an inverter device 36 for driving the compressor 37.

  The AC power supply 2 is connected to the indoor unit power supply unit 42, and the AC power supply 2 is connected from the current detection means 34 to the outdoor unit power supply unit 35 via the power supply line 6. The indoor unit control unit 44 and the outdoor unit control unit 32 are communicatively connected via the communication line 5.

  The outdoor unit control unit 32 receives the outside temperature data detected by the outside temperature detecting unit 31 and transmits the outside temperature data to the advice availability determination unit 45 via the indoor unit control unit 44. Further, the outdoor unit control unit 32 transmits the unit time power amount calculated by the power amount calculation unit 33 to the power amount storage unit 46 via the indoor unit control unit 44.

  The electric energy storage means 46 stores the received unit time electric energy in two types. One is a power amount at start-up that is unit time power at the start of operation (at the time of start-up), and the other is a steady-state power amount that is sequentially received following the power amount at start-up. The electric energy storage means 46 always stores only the latest data of the steady-state electric energy. Only the new data is saved when the same type of data comes next. The starting power amount is the amount of power used when the air conditioner 1 starts operation, the compressor 37 is rotated at high speed by the inverter device 36, and the room temperature is rapidly set to the set temperature. The amount of electric power is the amount of electric power necessary to maintain the room temperature after the room temperature reaches the set temperature.

  On the other hand, the remote controller 41 of the indoor unit 4 is a wireless remote controller capable of bidirectional communication with the indoor unit control unit 44, and includes a display unit 41b made of a liquid crystal display and an operation key 41a together with a plurality of operation keys (not shown). The display unit 41 b displays setting contents and designated operation contents, and also displays advice (notification information) regarding energy saving operation output by the notification unit 48 via the indoor unit control unit 44.

  Each time the user presses the operation key 41 a, the remote controller 41 transmits an operation start / operation stop signal to the indoor unit controller 44 via the remote controller communication unit 43. Further, when the user performs a specific operation of long-pressing the operation key 41 a, the remote controller 41 does not send an operation request / operation stop signal but an advice request data requesting advice on energy saving operation via the remote control communication unit 43. To the machine control unit 44.

  The indoor unit control unit 44 controls the operation of the indoor unit 4 according to an instruction from the remote controller 41, and always advises whether or not the indoor unit operation state data, for example, the air conditioning operation mode, the operation start time, and the elapsed operation time are advised. Is output to. When the indoor unit control unit 44 receives advice request data transmitted from the remote controller 41, the indoor unit control unit 44 outputs the advice request data to the advice availability determination unit 45.

  The advice availability determination unit 45 outputs the outdoor temperature request data to the outdoor unit 3 via the indoor unit control unit 44, and the corresponding outdoor temperature data is input via the indoor unit control unit 44. . Further, the advice availability determination unit 45 determines whether advice regarding energy-saving operation is possible from the indoor unit operation state data output from the indoor unit controller 44 and the input outside air temperature when advice request data is input. To do. The determination method will be described later in detail.

  The advice availability determination unit 45 outputs notification information indicating that advice is not possible to the notification unit 48 when advice regarding energy-saving operation cannot be performed. The advice availability determination unit 45 outputs branch point time calculation instruction data to the branch point calculation unit 47 when advice regarding energy saving operation is possible.

  When the calculation instruction data is input, the branch point calculation unit 47 reads the start-up power amount and the steady-state power amount stored in the power amount storage unit 46 and temporarily stops the operation. Annunciating the branch point time, which is the operation stop time for making the same amount of power to start operation after the current and the same room temperature as the current room temperature, Information is output to the notification means 48.

  The notification means 48 notifies the branch point time notification information or the advice disapproval notification information output from the advice availability determination means 45 by the speech synthesis function provided in the notification means 48. Further, the notification unit 48 transmits the notification information to the remote controller 41 via the indoor unit control unit 44, and the remote control 41 that has received the notification information displays the notification information on the display unit 41b.

Next, each block of the outdoor unit 3 will be described.
The outdoor unit control unit 32 can perform bidirectional communication with the indoor unit control unit 44, and the outdoor unit control unit 32 controls the compressor 37 via the inverter device 36 in response to an instruction related to the air conditioning operation of the indoor unit 4. In addition, the operation of the outdoor unit 3 is controlled by controlling a fan motor and an electronic expansion valve (not shown), and data on the outdoor unit operation state, for example, the operation start time and the operation elapsed time are always output to the electric energy calculation means 33 doing. In addition, when the outdoor unit 3 receives the outdoor temperature request data transmitted by the indoor unit control unit 44, the outdoor unit 3 returns the outdoor temperature data detected by the outdoor temperature detection unit 31.

  When the electric energy calculation means 33 recognizes the start of the operation of the air conditioner 1 based on the outdoor unit operation state data, the current consumption data from the current detection means 34, the voltage of the alternating current power source 2 and the air conditioner which are defined in advance. The power consumption is calculated from the power factor of 1, and this is integrated every 30 minutes as a unit time to obtain the unit time power amount, and the obtained unit time power amount is calculated for each end time of the unit time. 32 and the indoor unit control unit 44 to transmit to the electric energy storage means 46.

  In this embodiment, in order to calculate the power consumption of the air conditioner 1, the current consumption detected by the current detection means 34 for detecting the current flowing through the inverter device 36 is used. For this reason, the current consumption of the outdoor unit 3 excluding the inverter device 36 and the current consumption in the indoor unit 4 are not included. Therefore, in order to obtain the power consumption more accurately, the power storage unit 46 uses the power consumption per unit time. Alternatively, the predetermined average power consumption of the indoor unit 4 or the power consumption of the outdoor unit 3 excluding the inverter device 36 may be added to the unit time electric energy.

The operation of the present invention will be described using the configuration described above.
FIG. 2 is an explanatory view for explaining the operation of the air conditioner according to the present invention. In FIG. 2, the horizontal axis indicates time, and on the vertical axis, FIG. 2 (1) indicates the operating state of the air conditioner 1, FIG. 2 (2) indicates the current consumption detected by the current detection means 34, and FIG. 2 shows the amount of power calculated by the power amount calculation means 33, FIG. 2 (4) shows the advice request output by the indoor unit control unit 44, and FIG. 2 (5) shows the unit time power amount output by the power amount calculation means 33. 2 (6) shows the outside air temperature detected by the outside air temperature detecting unit 31, FIG. 2 (7) shows the calculation instruction output by the advice availability determination unit 45, and FIG. FIG. 2 (9) shows the notification information input to the notification means 48, respectively. Note that t1 to t10 are times. Moreover, the unit time in a present Example is 30 minutes, and shows the period for every 30 minutes after the air conditioner 1 starts an operation | movement.

  First, when the user presses the operation key 41a of the remote controller 41 of the air conditioner 1 whose operation is stopped at t1, the remote controller 41 transmits an operation start instruction to the indoor unit control unit 44 correspondingly. Receiving this, the indoor unit control unit 44 shifts the indoor unit 4 to an operation for starting operation, and instructs the outdoor unit control unit 32 to start operation. As a result, the indoor unit control unit 44 outputs the indoor unit operation state (operation start) data to the advice availability determination unit 45, while the outdoor unit control unit 32 outputs the outdoor unit operation state (operation start) to the power amount calculation unit 33. ) Data is output.

  When the data on the outdoor unit operation state (operation start) is input, the electric energy calculation means 33 starts calculating the electric energy from t1 as shown in FIG. 2 (3), and as shown in FIG. 2 (5). At t3 which is the end time of the unit time, the unit time electric energy for the period from t1 to t3, which is 1.0 kWH in this embodiment, is transmitted to the electric energy storage means 46. Further, the power amount calculation means 33 calculates the power amount in the same way for the next unit times t3 to t5, and the unit time power amount at the time t5, 0.5 kWH in this embodiment, is supplied to the power amount storage means 46. Send. Similarly, this process is repeated when the vehicle is in an operating state.

  On the other hand, when the power amount storage means 46 receives the unit time power amount from the power amount calculation means 33, it stores it. However, the unit time power amount received first from the start of operation is stored as the startup power amount, and the unit time power amount received thereafter is stored as the steady state power amount. Note that the electric energy storage means 46 always stores only the electric energy in the latest unit time with respect to the steady-state electric energy.

  By the way, the air conditioner 1 by a present Example uses the inverter control system. The feature of the inverter control method is that the operation time from the start of air conditioning operation to the set temperature is fast, and the temperature is finely controlled in the steady operation that maintains the room temperature after the room temperature reaches the set temperature. It can be done. For this reason, the outdoor unit control unit 32 operates the compressor 37 of the outdoor unit 3 at a high speed during start-up operation, and operates the compressor 37 at a low speed that can maintain room temperature during a steady operation.

  For this reason, as shown in FIG. 2 (2), the consumption current in the unit time of t1 to t3 during the startup operation is larger than the consumption current in the unit time of t3 to t5 during the steady operation. Yes. Once the air conditioner 1 enters steady operation, the consumption current does not change significantly unless the outside air temperature changes significantly.

  Therefore, the air conditioner 1 estimates the amount of power after the next unit time consumed by the air conditioner 1 that is in steady operation based on the latest steady-state power amount stored in the power amount storage unit 46. It is possible. For this reason, it is assumed that the same amount of power as that at the time of start-up will be consumed at the start of the next operation, and the steady-state power amount that is continuously consumed and the start-up power amount that is consumed at the start of the next operation is the same Calculate time. Then, the time for the branch point related to the energy saving operation for determining whether the operation is continued or once stopped is obtained and notified to the user. Then, the user compares the scheduled time of returning after the absence and the notified branch point time to determine whether to continue the operation or to stop the operation. That is, if the user returns before this branch point time, the user can determine that the operation is continued as it is to save energy.

  Specifically, when the user requests advice for continuing / stopping the operation of the air conditioner 1 at time t6, the user presses the operation key 41a of the remote controller 41 for a long time. Receiving this operation, the remote controller 41 transmits advice request data to the advice availability determination unit 45 via the remote controller communication unit 43 and the indoor unit control unit 44.

When the advice request data is input, the advisability determination unit 45 outputs calculation instruction data to the branch point calculation unit 47 if the data necessary for the branch point calculation process is available. The branch point calculation means 47 calculates the branch point time related to the energy saving operation using the following equation.

Junction point time = (power consumption at start-up / power consumption at steady state) * unit time-unit time ... Formula 1

The reason for subtracting the unit time in Equation 1 is that after obtaining the unit time in which the integration result of the steady-state energy consumed continuously and the starting power consumed at the start of the next operation is the same, This is because the start time of unit time (time for restarting operation) is obtained.

  Note that, here, the measurement period of the starting power amount and the steady state power amount is a unit time period, and in this embodiment, the unit time is 30 minutes. In the case of the inverter control method, although it depends on the outside temperature and the size of the room, in general, it reaches the set temperature in about 15 to 20 minutes and shifts to steady operation. Yes.

  As shown in FIG. 2 (5), the power amount storage means 46 includes the power amount during startup (1.0 kilowatt hour) from t1 to t3 and the steady state power amount (0.5 kilowatt hour) from t3 to t5. Therefore, when calculation instruction data is input, the branch point calculation means 47 uses the equation 1 to calculate branch point time = (1.0 / 0.5) * 30 minutes−30 minutes = 30 minutes. calculate.

In other words, whether or not to restart the operation 30 minutes after the time t6 when the user has requested the advice to continue or stop the operation of the air conditioner 1 is the branch point time of whether or not the energy saving operation is performed. The user who has received the information of “branch point time is 30 minutes” via the notification means 48 determines that it is better to stop driving if the scheduled time for returning to the room is longer than 30 minutes. If the estimated time to return to the room is shorter than 30 minutes, it can be determined that it is better to continue driving. It should be noted that if the branch point time is the same as the scheduled time for returning to the room, either may be used. However, the continuation of driving is more comfortable because the room is at a suitable temperature.

  As described above, in order to accurately calculate the branch point time, it is necessary to satisfy the conditions. This condition requires that the startup power amount and the steady state power amount are measured and stored in the power storage means 46. That is, it is necessary that a time twice as long as the unit time has elapsed since the start of operation. In addition, it is necessary that the outside air temperature does not change greatly between the time of starting and the time of accepting advice to continue / stop operation. In this embodiment, this temperature difference can be advised when the temperature difference is within 5 ° C. Therefore, the advice availability determination unit 45 executes the following processing.

  When the advice availability determination unit 45 recognizes the start of operation based on the indoor unit operation state data output from the indoor unit control unit 44 at t1, the advice availability determination unit 45 outputs the outdoor temperature request data to the indoor unit control unit 44, and corresponds to this. The outside air temperature data is received from the indoor unit control unit 44. The advice availability determination means 45 stores the received data in itself as the operation start outside temperature. Further, when the advisability determination unit 45 recognizes the start of driving, it starts counting the number of elapsed times of unit time.

  When the advice request data is input, the advice availability determination unit 45 outputs the outside air temperature request data to the indoor unit control unit 44 and receives the corresponding outside air temperature data from the indoor unit control unit 44. . The advice availability determination unit 45 stores the received data in itself as the current outside temperature. Then, the advisability determination unit 45 calculates a difference between the operation start outside air temperature and the current outside air temperature.

  The advice availability determination means 45 starts operation when this temperature difference is larger than a predetermined temperature difference (5 ° C.), or when an advice request is made, as indicated by t2 and t4 in FIG. When the number of elapsed unit times from 2 is less than 2 (less than 60 minutes), it is assumed that the conditions for responding to the advice request are not met, and the notification means 48 indicates “Not advised” as shown at t2 and t4 in FIG. ”Is output.

  On the other hand, when the advice request data is input, the advice availability determination unit 45 calculates a difference between the outside temperature at which the operation is started and the current outside temperature, and the temperature difference is equal to or less than a predetermined temperature difference (5 ° C.). At the same time, and when the number of elapsed unit times from the start of operation is 2 or more, the calculation instruction data is output to the branch point calculation means 47 on the assumption that the conditions for responding to the advice request are met.

  The advisability determination unit 45 does not execute the advice when the conditions are not met, but is not limited to this. When the conditions are not met, the energy amount data used for branch point calculation is corrected. You may do it. For example, when the difference between the starting outside air temperature and the current outside air temperature is larger than a predetermined temperature difference, the branch point calculating means 47 increases the value of the starting power amount in proportion to the calculated temperature difference. Also good.

  Alternatively, instead of using actual measurement values as energy data, standard startup energy and steady-state energy corresponding to the combination of the outside temperature and the temperature difference between the set temperature and room temperature. Are preliminarily tabulated and stored in the branch point calculation means 47. The branch point calculation means 47 extracts the power amount data from this table and branches based on the actual difference between the outside air temperature, the set temperature and the room temperature. The point time may be calculated.

  As described above, the branching point calculation means 47, via the notification means 48, starts the operation after the operation stop time once the operation is stopped, and the electric energy for making the current room temperature the same as the current room temperature, In order to inform the user of the branch point time, which is the operation stop time to keep the same amount of power when the operation is continued under the operating conditions, the scheduled time and the branch point time when the user is absent from the exit to the entrance By comparing the above, it is possible to easily determine whether the operation is continued or the operation is stopped and the energy saving operation is performed with less power consumption.

DESCRIPTION OF SYMBOLS 1 Air conditioner 2 AC power source 3 Outdoor unit 4 Indoor unit 5 Communication line 6 Power supply line 31 Outdoor temperature detection part 32 Outdoor unit control part 33 Electric energy calculation means 34 Current detection means 35 Inverter power supply part 41 Remote control (advice request means)
41a Operation key 41b Display unit 42 Indoor unit power supply unit 43 Remote control communication unit 44 Indoor unit control unit 45 Advice availability determination unit 46 Electric energy storage unit 47 Branch point calculation unit 48 Notification unit

Claims (1)

An air conditioner equipped with an inverter device for driving a compressor,
The air conditioner
Advice request means for accepting a user's advice request operation during operation of the air conditioner and outputting advice request data;
An informing means for informing the user of the informing information;
When the advice request data is input,
The above-mentioned operation for making the electric energy for starting the operation after the operation stop time once stopped to be the same as the current room temperature and the electric energy for continuing the operation under the current operating conditions the same. An air conditioner comprising: a branch point calculation unit that calculates a branch point time that is a stop time and outputs the branch point time to the notification unit.

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