JP3815199B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an indoor air conditioning unit connected to an outdoor air conditioning unit capable of controlling the operation of a plurality of indoor air conditioning units, an outdoor air conditioning unit capable of operating and controlling the plurality of indoor air conditioning units, and a plurality of indoors in the outdoor air conditioning unit. The present invention relates to an air conditioner to which an air conditioning unit is connected.
[0002]
[Prior art]
In a separate air conditioner including an outdoor air conditioning unit and an indoor air conditioning unit, the control unit is provided on the outdoor air conditioning unit side, and this control unit opens the operating frequency of the compressor and the opening of the electric expansion valve. In many cases, degree control is performed.
[0003]
In this case, on the indoor air conditioning unit side, a set temperature difference, which is a difference between the current room temperature and the set temperature set by the user, is transmitted to the outdoor air conditioning unit. The control unit of the outdoor air conditioning unit adjusts the output frequency of the inverter circuit that controls the operation of the compressor based on the transmitted set temperature difference and the opening degree of the electric expansion valve in the refrigerant circuit to achieve proper air conditioning. Do the driving.
[0004]
When multiple indoor air conditioning units are connected to one outdoor air conditioning unit, especially when there is a possibility that indoor air conditioning units of various specifications may be connected, the indoor air conditioning unit will automatically Transmit the rated capacity of the machine as a control parameter. The control unit of the outdoor air conditioning unit determines the initial value of the output frequency of the inverter circuit that controls the operation of the compressor based on the total rated capacity of the operating indoor air conditioning units and the maximum value of the set temperature difference. At the same time, the opening degree of the electric expansion valve in the refrigerant circuit is determined, and the air conditioning operation control is performed based on the opening degree.
[0005]
[Problems to be solved by the invention]
In the air conditioner as described above, the actual air conditioning capacity may be different depending on the form of the indoor air conditioning unit and the same rated capacity class depending on the development year. For example, in the case of a wall-mounted indoor air-conditioning unit and a built-in type indoor air-conditioning unit, even in the same rated capacity class, the wall-mounted type air-conditioning capacity tends to be smaller. In addition, if the thermal efficiency of indoor heat exchangers and the like improves with technological improvements, even in the same rated capacity class, the new development year will have a larger air conditioning capacity than the old one. .
[0006]
As described above, when the rated capacity of the indoor air conditioning unit is transmitted to the outdoor air conditioning unit as an operation control parameter, the actual air conditioning capacity varies depending on the form of the indoor air conditioning unit and the development year. It may not be possible. In particular, at the start of the air conditioning operation, there is a problem in that comfort is impaired due to the inadequate blowout temperature from the indoor air conditioning unit to the room.
[0007]
An object of the present invention is to make it possible to perform an air-conditioning operation suitable for an indoor air-conditioning unit and improve comfort even when the form and the development year of the indoor air-conditioning unit are different.
[0008]
[Means for Solving the Problems]
An indoor air conditioning unit according to the present invention is an indoor air conditioning unit connected to an outdoor air conditioning unit capable of performing operation control of a plurality of indoor air conditioning units, It has a data storage unit that stores the actual capacity value that is the actual air conditioning capacity corresponding to the installation mode of the indoor air conditioning unit or the development year, The actual capacity value is configured to be transmitted to the outdoor air conditioning unit as a parameter for air conditioning operation control.
[0009]
In this case, the operation control by the outdoor air-conditioning unit becomes appropriate according to the actual capacity value of the indoor air-conditioning unit, and it is possible to maintain comfort especially at the start of the air-conditioning operation.
Here, an indoor heat exchanger is provided, and the refrigerant evaporating temperature in the indoor heat exchanger when outputting the rated capacity during the cooling operation can be transmitted to the outdoor air conditioning unit as an actual capacity value.
[0010]
In this case, it is possible to improve the stand-up performance during the cooling operation and maintain comfort.
Moreover, it can comprise so that an indoor heat exchanger may be provided and the refrigerant | coolant condensing temperature in the indoor heat exchanger at the time of outputting the rated capability at the time of heating operation may be transmitted to an outdoor air conditioning unit as an actual capability value.
[0011]
In this case, the start-up performance during heating operation can be improved, and comfort can be maintained.
Furthermore, an indoor heat exchanger is provided, and the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value can be set to the actual capacity value.
In this case, the start-up performance during cooling operation can be improved, and comfort can be maintained.
[0012]
Moreover, an indoor heat exchanger is provided, and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value can be set to the actual capacity value.
In this case, the start-up performance during heating operation can be improved, and comfort can be maintained.
Furthermore, it is provided with an indoor fan that introduces indoor air and generates an air flow for exchanging heat with the indoor heat exchanger, and is configured to correct the actual capacity value based on the rotational speed of the indoor fan. Can do.
[0013]
In this case, the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value are the same as those of the indoor fan at that time. By correcting based on the rotational speed, the operation control at the start of operation can be made appropriate, and comfort can be maintained.
An outdoor air conditioning unit according to the present invention is an outdoor air conditioning unit capable of operating and controlling a plurality of indoor air conditioning units. Corresponding to the installation mode or development year of the indoor air conditioning unit stored in the data storage unit An actual capacity value that is an actual air conditioning capacity is received from the indoor air conditioning unit, and the actual capacity value is used as an air conditioning operation control parameter for operation control.
[0014]
In this case, appropriate operation control can be performed without depending on the form of the connected indoor air conditioning unit or the development year.
Here, the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant evaporation temperature in the indoor heat exchanger when outputting the rated capacity during the cooling operation can be set to the actual capacity value.
[0015]
In this case, it is possible to improve the stand-up performance during the cooling operation and maintain comfort.
Further, the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant condensing temperature in the indoor heat exchanger when outputting the rated capacity during the heating operation can be set to the actual capacity value.
In this case, it is possible to improve the start-up performance during heating operation and maintain comfort.
[0016]
Further, the indoor air conditioning unit includes an indoor heat exchanger, and the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value can be set to the actual capacity value.
In this case, the start-up performance during cooling operation can be improved. Comfort can be maintained.
In addition, the indoor air conditioning unit includes an indoor heat exchanger, and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value can be set to the actual capacity value.
[0017]
In this case, the start-up performance during heating operation can be improved, and comfort can be maintained.
Further, the indoor air conditioning unit includes an indoor fan that introduces indoor air and generates an air flow for heat exchange with the indoor heat exchanger, and corrects the actual capacity value based on the rotational speed of the indoor fan. Can be configured.
[0018]
In this case, the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value, the rotational speed of the indoor fan at that time As a result of the correction, the driving control at the start of driving can be made appropriate, and the comfort can be maintained.
Moreover, the output of an inverter circuit is supplied, the compressor which can control an operation state with the output frequency of an inverter circuit is provided, and it can comprise so that the initial frequency supplied to a compressor may be determined based on an actual capability value.
[0019]
In this case, the operation frequency of the compressor can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
Furthermore, an outdoor heat exchanger is provided, and the opening degree of the electric expansion valve for pressure reduction provided in each branch pipe for branching refrigerant from the outdoor heat exchanger to the plurality of indoor heat exchangers is determined based on the actual capacity value Can be configured to
[0020]
In this case, the opening degree control of the electric expansion valve can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
The air conditioner according to the present invention is It has a data storage unit that stores the actual capacity value that is the actual air conditioning capacity corresponding to the installation mode of the indoor air conditioning unit or the development year, A plurality of indoor air conditioning units that send actual capacity values to the outdoor air conditioning unit as parameters for air conditioning operation control, and outdoor air conditioning that receives actual capacity values from the indoor air conditioning unit and performs operation control using the actual capacity values as parameters for air conditioning operation control A unit.
[0021]
In this case, it is possible to perform operation control according to the actual capacity value of the indoor air conditioning unit, and particularly, it is possible to improve the start-up performance at the start of operation and maintain comfort.
Here, the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant evaporation temperature in the indoor heat exchanger when outputting the rated capacity during the cooling operation can be set to the actual capacity value.
[0022]
In this case, it is possible to improve the stand-up performance during the cooling operation and maintain comfort.
Further, the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant condensing temperature in the indoor heat exchanger when outputting the rated capacity during the heating operation can be set to the actual capacity value.
In this case, it is possible to improve the start-up performance during heating operation and maintain comfort.
[0023]
Further, the indoor air conditioning unit includes an indoor heat exchanger, and the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value can be set to the actual capacity value.
In this case, it is possible to improve the stand-up performance during the cooling operation and maintain comfort.
In addition, the indoor air conditioning unit includes an indoor heat exchanger, and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value can be set to the actual capacity value.
[0024]
In this case, it is possible to improve the start-up performance during heating operation and maintain comfort.
Further, the indoor air conditioning unit includes an indoor fan that introduces indoor air and generates an air flow for heat exchange with the indoor heat exchanger, and corrects the actual capacity value based on the rotational speed of the indoor fan. Can be configured.
[0025]
In this case, the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value, the rotational speed of the indoor fan at that time As a result of the correction, the driving control at the start of driving can be made appropriate, and the comfort can be maintained.
In addition, the outdoor air conditioning unit is provided with a compressor that is supplied with the output of the inverter circuit and whose operation state can be controlled by the output frequency of the inverter circuit, and determines the initial frequency supplied to the compressor based on the actual capacity value. Can be configured.
[0026]
In this case, the operating frequency of the compressor can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
Furthermore, the outdoor air conditioning unit includes an outdoor heat exchanger, and the opening degree of the electric expansion valve for decompression provided in each branch pipe that branches the refrigerant from the outdoor heat exchanger to the plurality of indoor heat exchangers It can be configured to determine based on the value.
[0027]
In this case, the opening degree control of the electric expansion valve can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
[Refrigerant circuit]
FIG. 1 shows a refrigerant circuit of an air conditioner in which one embodiment of the present invention is employed.
In FIG. 1, the outdoor air conditioning unit 1 is connected to three indoor air conditioning units 2A to 2C.
[0029]
The outdoor air conditioning unit 1 includes a compressor 11, a four-way switching valve 12, an outdoor heat exchanger 13, an accumulator 15, and the like.
The outlet side of the outdoor heat exchanger 13 constitutes a liquid pipe side pipe 15, and includes a liquid pipe side branch portion 16 branched by the number of connectable indoor air conditioning units.
The liquid pipe side branch portion 16 is provided with electric expansion valves 17A to 17C for pressure reduction.
[0030]
Further, the outlet side of the four-way switching valve 12 constitutes a gas pipe side pipe 18 and includes a gas pipe side branching portion 19 that is branched by the number of connectable indoor air conditioning units.
The indoor air conditioning units 2A to 2C are provided with indoor heat exchangers 21A to 21C, respectively, and are installed in the outdoor air conditioning unit 1 via the liquid pipe side branching portion 16 and the gas pipe side branching portion 19 of the outdoor air conditioning unit 1. Connected to the refrigerant circuit.
[0031]
(Control part)
An example of a control block diagram of the outdoor air conditioning unit 1 and the indoor air conditioning unit 2 is shown in FIG.
The outdoor air conditioning unit 1 includes an outdoor unit control unit 101 including a microprocessor, ROM, RAM, various interfaces, and the like.
[0032]
The outdoor unit control unit 101 detects a discharge side pressure protection switch 102 provided in the discharge pipe of the compressor 11, a discharge pipe thermistor 103 for detecting the discharge pipe temperature of the compressor 11, and a suction side pressure of the compressor 11. Various sensors such as a suction side pressure sensor 104, an outdoor thermistor 105 for detecting the outside air temperature, and an outdoor heat exchanger thermistor 106 for detecting the heat exchange intermediate temperature of the outdoor heat exchanger 13 are connected, and the detection signal of each sensor Is entered.
[0033]
The outdoor unit control unit 101 is connected to the compressor 11, the four-way switching valve 12, the electric expansion valves 17A to 17C, the outdoor fan motor 107, and the like constituting the outdoor refrigerant circuit, and supplies a control signal. It is configured to control each part during operation. The compressor 11 is configured to be supplied with an output from the inverter circuit and to control the operation state according to the frequency.
[0034]
The indoor air conditioning unit 2 includes an indoor unit controller 201 including a microprocessor, ROM, RAM, various interfaces, and the like.
The indoor unit control unit 201 is connected to various sensors such as a liquid pipe thermistor 202, a gas pipe thermistor 203, an indoor heat exchange thermistor 204, and a room temperature sensor 205, and a detection signal of each sensor is input.
[0035]
The indoor unit control unit 201 is connected to an indoor fan motor 206, a horizontal blade operation motor 207, a vertical blade operation motor 208, a display unit 209, an infrared transmission / reception unit 210, and the like connected to the indoor unit control unit 201. Is configured to control each part during operation.
The indoor unit control unit 201 includes a data storage unit composed of ROM, EEPROM, or the like, and rated capacity data related to the rated capacity class of the air conditioning operation and actual capacity value data related to the actual air conditioning capacity during the air conditioning operation. And are stored.
[0036]
When there is an instruction input from the user by operating the remote control, the infrared transmission / reception unit 210 receives an instruction signal from the remote control. As the instruction signal to be received, instruction signals relating to various operation instructions such as an operation mode instruction signal, a set temperature signal, an air volume setting signal, a timer setting signal, and an air direction setting signal can be considered. When the operation mode instruction signal is transmitted, the set temperature signal transmitted at the same time is acquired. In the case of automatic setting, a temperature set as a default instead of the set temperature signal is set as the set temperature.
[0037]
At this time, the detection value of the room temperature sensor 205 is acquired at the same time, and the difference from the set temperature is calculated as the set temperature difference. Further, the actual capability value data stored in the data storage unit is read, and the operation mode signal, the set temperature difference, and the actual capability value are transmitted to the outdoor unit control unit 101.
The outdoor unit control unit 101 determines an initial frequency to be supplied to the compressor 11 based on the set temperature difference and the actual capacity value transmitted from the indoor unit control unit 201, and the opening degrees of the electric expansion valves 17A to 17C. decide.
[0038]
[Control of indoor air conditioning unit]
The operation in the indoor unit control unit 201 is shown in FIG.
In step S11, the set temperature TS, the room temperature TD, and the operation mode are read. Here, the preset temperature transmitted from the remote controller or the default value set in accordance with the operation mode when automatic operation is instructed is read as the preset temperature TS. Further, the detection value of the room temperature sensor 205 is read and set as the room temperature TD. The operation mode is set based on the operation mode signal transmitted from the remote controller.
[0039]
In step S12, a set temperature difference ΔT is calculated. The set temperature difference ΔT can be calculated by (set temperature TS−room temperature TD) during heating operation, and can be calculated by (room temperature TD−set temperature TS) during cooling operation.
In step S <b> 13, various data and instruction signals are transmitted to the outdoor unit control unit 101. Here, when an operation on / off signal is transmitted from the remote controller, the operation on / off signal is transferred to the outdoor unit control unit 101.
[0040]
Further, the operation mode set based on the set temperature difference ΔT calculated in step S12 and the instruction from the user is transmitted to the outdoor unit control unit 101.
Further, the rated capacity class of the own device stored in the data storage unit is transmitted to the outdoor unit control unit 101. This rated capacity class is conventionally used as a control parameter, and is used to determine the upper limit frequency and the lower limit frequency of the power supply frequency supplied to the compressor 11.
[0041]
In addition, the actual capability value stored in the data storage unit is transmitted to the outdoor unit control unit 101. Here, the actual capacity value can be the refrigerant evaporation temperature in the indoor heat exchanger 21 when the rated capacity during the cooling operation is output. In the heating operation, the refrigerant condensing temperature in the indoor heat exchanger 21 when the rated capacity is output can be set to the actual capacity value.
[0042]
The actual capacity value can be the cooling capacity (kW) when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value during the cooling operation, and the refrigerant condensing in the indoor heat exchanger during the heating operation. It can be set as the heating capability (kW) in case temperature is a predetermined value. In this case, it is also possible to correct the actual capacity value according to the number of rotations of the indoor fan motor 206. For example, the number of rotations of the indoor fan motor 206 is divided into “H”, “M”, and “L” in descending order, and a value obtained by multiplying the coefficient set for each of the above cooling capacity or heating capacity by the actual capacity value. Calculate as
[0043]
[Control of outdoor air conditioning unit]
The operation in the outdoor unit control unit 101 is shown in FIG.
In step S21, transmission data transmitted from the indoor unit control unit 201 is read. Here, the on / off signal, the set temperature difference, the operation mode, the rated capacity class, the actual capacity value, and the like transmitted by each indoor unit controller 201 in step S13 are received and read.
[0044]
In step S22, the operation mode is determined based on the transmitted operation mode signal.
In step S23, it is determined whether or not the compressor 11 is turned off. If it is determined that the compressor 11 should be turned off based on the transmitted transmission data, the operation of the compressor 11 is stopped and the process proceeds to step S21. Otherwise, the process proceeds to step S24.
[0045]
In step S24, it is determined whether or not the number of operating rooms has changed. If there is an instruction to start operation in a room where air-conditioning operation has been stopped, or there is a room where operation has been stopped in a room where air-conditioning operation has been performed, or if there is an instruction to change the operation mode, It is determined that the number of rooms has changed, and the process proceeds to step S25.
In step S25, the initial frequency of the compressor 11 and the opening degrees of the electric expansion valves 17A to 17C are determined based on the data transmitted from each indoor unit control unit 201.
[0046]
The initial frequency of the compressor 11 can be determined from a matrix as shown in FIG. Here, it is determined whether the maximum value of the set temperature difference ΔT transmitted from each indoor unit control unit 201 is in the numerical range of α, β, or γ. Further, it is determined whether the sum of the actual ability values transmitted from each indoor unit control unit 201 is in a numerical range of A, B, C, and D. Based on this matrix, the initial frequency for the compressor 11 is determined as one of f1 to f12.
[0047]
The opening degrees of the electric expansion valves 17A to 17C are determined according to the initial frequency determined by the matrix in FIG. 5 and the actual capacity value transmitted from each indoor unit control unit 201. Here, when the opening degree DA for the electric expansion valve 17A, the coefficient relating to the refrigerant circulation amount is K, the intercept coefficient is B, the actual capacity value of the indoor air conditioning unit 2A is CA, the total actual capacity value is CT, and the initial frequency is F,
DA = K × (CA / CT) × F + B × (CA / CT)
= (K x F + B) x (CA / CT)
Can be calculated.
[0048]
Thus, since the initial frequency supplied to the compressor 11 and the initial openings of the electric expansion valves 17A to 17C are determined based on the actual capacity values of the indoor air conditioning units 2A to AC, appropriate operation control is performed. The air temperature blown out from each of the indoor air conditioning units 2A to 2C at the start of operation can be appropriately maintained.
Other Embodiment
The electric expansion valves 17A to 17C can be provided in the outdoor air conditioning unit 1, and can also be provided in the corresponding indoor air conditioning units 2A to 2C, respectively.
[0049]
Also, a refrigerant relay unit is provided between the outdoor air conditioning unit 1 and the indoor air conditioning units 2A to 2C, and a refrigerant branch pipe that branches to each of the indoor air conditioning units 2A to 2C is arranged in the refrigerant relay unit, and each refrigerant branch pipe It is also possible to provide a configuration in which an electric expansion valve is provided.
The number of indoor air-conditioning units connected to the outdoor air-conditioning unit 1 is not limited to the embodiment, and can be one or more indoor air-conditioning units.
[0050]
【The invention's effect】
In the indoor air-conditioning unit according to claim 1 of the present invention, the operation control by the outdoor air-conditioning unit becomes appropriate according to the actual capacity value of the indoor air-conditioning unit, and it is possible to maintain comfort especially at the start of the air-conditioning operation. It becomes.
Claim 3 In the indoor air conditioning unit according to the above, it is possible to improve the start-up performance during the cooling operation and to maintain comfort.
[0051]
Claim 4 In the indoor air conditioning unit according to the above, it is possible to improve the start-up performance during the heating operation and maintain comfort.
Claim 5 In the indoor air conditioning unit according to the above, it is possible to improve the start-up performance during the cooling operation and maintain comfort.
Claim 6 In the indoor air conditioning unit according to the above, it is possible to improve the start-up performance during the heating operation and maintain comfort.
[0052]
Claim 7 In the indoor air conditioning unit according to the present invention, the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value are By correcting with the rotation speed of the fan, the operation control at the start of operation can be made appropriate, and the comfort can be maintained.
[0053]
Further, the claims of the present invention 8 In the outdoor air conditioning unit according to the above, it is possible to perform appropriate operation control without depending on the form of the connected indoor air conditioning unit or the development year.
Claim 9 In the outdoor air conditioning unit according to the above, it is possible to improve the start-up performance during the cooling operation and maintain comfort.
[0054]
Claim 10 In the outdoor air conditioning unit according to the above, it is possible to improve the start-up performance during the heating operation and maintain comfort.
Claim 11 In the outdoor air conditioning unit according to the above, it is possible to improve the start-up performance during the cooling operation. Comfort can be maintained.
Claim 12 In the outdoor air conditioning unit according to the above, it is possible to improve the start-up performance during the heating operation and maintain comfort.
[0055]
Claim 13 In the outdoor air conditioning unit according to the present invention, the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value and the heating capacity when the refrigerant condensation temperature in the indoor heat exchanger is a predetermined value are By correcting with the rotation speed of the fan, the operation control at the start of operation can be made appropriate, and the comfort can be maintained.
[0056]
Claim 14 In the outdoor air conditioning unit according to the above, the operation frequency of the compressor can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
Claim 15 In the outdoor air conditioning unit according to the above, the opening degree control of the electric expansion valve can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
[0057]
Claims of the invention 16 In the air conditioner according to the present invention, it is possible to perform operation control according to the actual capacity value of the indoor air conditioning unit, and particularly, it is possible to improve start-up performance at the start of operation and maintain comfort. Become.
Claim 17 In the air conditioner according to the above, it is possible to improve the start-up performance during cooling operation and maintain comfort.
[0058]
Claim 18 In the air conditioner according to the above, it is possible to improve the start-up performance during the heating operation and maintain comfort.
Claim 19 In the air conditioner according to the above, it is possible to improve the start-up performance during cooling operation and maintain comfort.
Claim 20 In the air conditioner according to the above, it is possible to improve the start-up performance during the heating operation and maintain comfort.
[0059]
Claim 21 In the air conditioner according to the present invention, the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value, By correcting with the rotation speed of the fan, the operation control at the start of operation can be made appropriate, and the comfort can be maintained.
[0060]
Claim 22 In the air conditioner according to the above, the operating frequency of the compressor can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
Claim 23 In the air conditioner according to the above, the opening degree control of the electric expansion valve can be adapted to the actual capacity value of the indoor air conditioning unit, and the start-up performance at the start of operation can be improved.
[Brief description of the drawings]
FIG. 1 is a refrigerant circuit of an air conditioner in which one embodiment of the present invention is employed.
FIG. 2 is a control block diagram thereof.
FIG. 3 is a flowchart of the control.
FIG. 4 is a control flowchart thereof.
FIG. 5 is an explanatory diagram showing a table for determining the initial frequency of the compressor.
[Explanation of symbols]
1 outdoor air conditioning unit
2 Indoor air conditioning unit
11 Compressor
13 Outdoor heat exchanger
17 Electric expansion valve
21 Indoor heat exchanger
101 Outdoor unit controller
201 Indoor unit controller
206 Indoor fan motor

Claims (23)

An indoor air conditioning unit connected to an outdoor air conditioning unit capable of operating control of a plurality of indoor air conditioning units,
An indoor air-conditioning unit is provided with a data storage unit that stores an actual capacity value that is an actual air-conditioning capacity corresponding to an installation mode or a development year, and transmits the actual capacity value to the outdoor air-conditioning unit as an air-conditioning operation control parameter. Air conditioning unit. The data storage unit stores the rated capacity data related to the rated capacity class of the air conditioning operation together with the actual capacity value.
The indoor air conditioning unit according to claim 1. Having an indoor heat exchanger transmits the refrigerant evaporation temperature in said indoor heat exchanger when outputting the rated capacity in the cooling operation in the outdoor air conditioning unit as the actual capacity value, to claim 1 or 2 The indoor air conditioning unit described. Having an indoor heat exchanger transmits the refrigerant condensing temperature of said indoor heat exchanger when outputting the rated capacity during heating operation to the outdoor air conditioning unit as the actual capacity value, any one of claims 1 to 3 The indoor air conditioning unit described in 1.   The indoor air conditioning unit according to any one of claims 1 to 3, further comprising an indoor heat exchanger, wherein the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value is the actual capacity value. Having an indoor heat exchanger, the refrigerant condensing temperature in the indoor heat exchanger and the actual capacity value heating capacity when a predetermined value, according to claim 1, the indoor air conditioning unit according to any one of 2, 5 . Having an indoor fan for generating an air flow for heat exchange between the introduced indoor air indoor heat exchanger, to correct the actual capacity value based on the rotation speed of the indoor fan according to claim 5, Or the indoor air-conditioning unit of 6 . An outdoor air conditioning unit capable of operating and controlling a plurality of indoor air conditioning units,
The actual capacity value, which is the actual air conditioning capacity corresponding to the installation form or development year of the indoor air conditioning unit stored in the data storage unit provided in the indoor air conditioning unit , is received from the indoor air conditioning unit, and the actual capacity value is air-conditioned. An outdoor air conditioning unit that controls operation as a parameter for operation control. The outdoor air-conditioning unit according to claim 8 , wherein the indoor air-conditioning unit includes an indoor heat exchanger, and the refrigerant evaporating temperature in the indoor heat exchanger when outputting the rated capacity during cooling operation is the actual capacity value. . The outdoor air conditioning unit according to claim 8 or 9 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant condensing temperature in the indoor heat exchanger when outputting the rated capacity during heating operation is the actual capacity value. Air conditioning unit. The outdoor air conditioning unit according to claim 8 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value is the actual capacity value. The outdoor air conditioning unit according to claim 8 or 11 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value is the actual capacity value. . The indoor air conditioning unit includes an indoor fan that introduces indoor air and generates an air flow for heat exchange with the indoor heat exchanger, and corrects the actual capacity value based on the number of rotations of the indoor fan. The outdoor air conditioning unit according to claim 11 or 12 . The output of the inverter circuit is supplied, the inverter circuit includes a controllable compressor operation state by the output frequency of determining the initial frequency to be supplied to the compressor on the basis of the actual capacity value, claims 8 to The outdoor air conditioning unit according to any one of 13 . Based on the actual capacity value, the opening degree of the electric expansion valve for pressure reduction provided in each branch pipe that includes an outdoor heat exchanger and that branches refrigerant from the outdoor heat exchanger to the plurality of indoor heat exchangers The outdoor air conditioning unit according to any one of claims 8 to 14 , which is determined. A plurality of data storage units storing actual capacity values that are actual air conditioning capacity corresponding to the installation mode of the indoor air conditioning unit or the development year, and transmitting the actual capacity value to the outdoor air conditioning unit as parameters for air conditioning operation control Indoor air conditioning unit,
An outdoor air conditioning unit that receives the actual capacity value from the indoor air conditioning unit and performs operation control using the actual capacity value as a parameter for air conditioning operation control;
Air conditioner equipped with. The air conditioner according to claim 16 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant evaporation temperature in the indoor heat exchanger when outputting the rated capacity during cooling operation is the actual capacity value. . The air according to claim 16 or 17 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the refrigerant condensing temperature in the indoor heat exchanger when outputting the rated capacity during heating operation is the actual capacity value. Harmony machine. The air conditioner according to claim 16 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the cooling capacity when the refrigerant evaporation temperature in the indoor heat exchanger is a predetermined value is the actual capacity value. The air conditioner according to claim 16 or 19 , wherein the indoor air conditioning unit includes an indoor heat exchanger, and the heating capacity when the refrigerant condensing temperature in the indoor heat exchanger is a predetermined value is the actual capacity value. . The indoor air conditioning unit includes an indoor fan that introduces indoor air and generates an air flow for heat exchange with the indoor heat exchanger, and corrects the actual capacity value based on the number of rotations of the indoor fan. The air conditioner according to claim 19 or 20 . The outdoor air conditioning unit includes a compressor that is supplied with an output of an inverter circuit and whose operation state can be controlled by an output frequency of the inverter circuit, and determines an initial frequency supplied to the compressor based on the actual capacity value. The air conditioner according to any one of claims 16 to 21 . The outdoor air conditioning unit includes an outdoor heat exchanger, and the opening degree of the decompression electric expansion valve provided in each branch pipe that performs refrigerant branching from the outdoor heat exchanger to the plurality of indoor heat exchangers, The air conditioner according to any one of claims 16 to 22 , wherein the air conditioner is determined based on an actual capacity value.

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