JP2010002073A - Air conditioning device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide the technology capable of preventing degradation of energy efficiency and comfort even when a serviceman forgets a switching operation from an emergency operation mode to a normal operation mode, in an air conditioning device having coordination work of an invertor compressor and a constant-velocity compressor. <P>SOLUTION: When an instruction to switch a mode to the emergency operation mode is input (YES in #1), a mode setting section switches the operation mode of the air conditioning device 1 to the emergency operation mode, and a timer starts its time measuring operation (#2). Then a determining section determines whether the measured time of the timer reaches an emergency operation time memorized in an emergency operation time memorizing section or not (#3), so that when the measured time does not reach the emergency operation time (NO in #3), the mode setting section keeps the emergency operation mode, while, when the measured time reaches the emergency operation time (YES in #3), the mode setting section switches the mode from the emergency operation mode to the normal operation mode (#4). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention belongs to the technical field of an air conditioner that performs an air conditioning operation including air conditioning of indoor air.

  2. Description of the Related Art Conventionally, an air conditioner that performs an air conditioning operation such as cooling and heating indoor air includes a compressor that compresses a refrigerant, and is mounted on an indoor heat exchanger mounted on a so-called indoor unit and on a so-called outdoor unit. The outdoor heat exchanger and the indoor exchanger function as a condenser that condenses the refrigerant compressed by the compressor or an evaporator that evaporates the condensed refrigerant. By carrying out, the cooling operation or the heating operation is performed.

  By the way, in such an air conditioner, as the compressor, there is an air conditioner including both an inverter compressor whose ability to be exhibited is variable and a constant speed compressor whose ability to be exhibited is constant. . This air conditioner takes advantage of the advantages of an inverter compressor that can change the capacity finely according to the air conditioning load, and the advantage of a constant speed compressor that has a larger capacity than the inverter compressor. It is intended to perform driving that pursues energy efficiency, comfort, etc. by the cooperative operation of the aircraft.

  The constant speed compressor is generally controlled more easily than an inverter compressor, which is repeatedly turned on and off with respect to a set temperature, and various configurations including an electric circuit are also simpler than an inverter compressor. It has a configuration. Therefore, the constant speed compressor has a lower occurrence rate of abnormality than the inverter compressor. Therefore, in an air conditioner that performs a cooperative operation between an inverter compressor and a constant speed compressor, if an abnormality occurs in the inverter compressor, the air conditioning operation is not completely stopped, but only the constant speed compressor is used. May be provided as an operation mode for emergency measures (hereinafter referred to as an emergency operation mode).

On the other hand, in the following Patent Document 1, “the timer built in the microcomputer 1 for counting the emergency operation time in step 206 is reset, and the emergency operation end time is set to a predetermined time (for example, 30 minutes). In step 208, the emergency operation end time is changed to the received time (for example, 60 minutes) if the turn-off timer set time (for example, 60 minutes) is received from the remote controller 5. Then, in step 209, the timer for counting the emergency operation time is changed. If the count value has not reached the emergency operation end time, the process returns to step 207, and if it is equal to or greater than the emergency operation end time, the process proceeds to step 210 and the emergency operation is terminated. Set the emergency operation end time to a predetermined time, and if the emergency operation time exceeds the emergency operation end time in step 209, To end the emergency operation in-up 210, can automatically terminate the emergency operation from emergency operation start after a predetermined period of time and becomes ([0025], [0026]) have described the ".
JP 2006-214600 A

  In the air conditioner equipped with the emergency operation mode, when an abnormality occurs in the inverter compressor, repair of the inverter compressor or an abnormality check is performed mainly by a service person, and the operation mode of the air conditioner is changed. An operation for switching to the emergency operation mode is performed. When the repair of the inverter compressor is completed, the power supply of the air conditioner is usually turned off once, and the power supply is turned on again after the inverter compressor is installed.

  Heretofore, there have been the following problems. That is, the air conditioner is provided with a memory for storing various types of information, and as one of the mode switching operations, information indicating that the emergency operation mode is on (hereinafter, referred to as “mode”). , Emergency operation mode on information) is stored, but as the memory, non-volatile memory such as EEPROM (Electrically Erasable and Programmable Read Only Memory) is adopted for cost reduction and capacity increase. There may be. In this nonvolatile memory, even if the power is turned on / off as described above, the stored data is not erased. Therefore, the emergency operation mode on information is retained in the nonvolatile memory even after the power is turned on again. Has been.

  Therefore, there is no particular problem if the service person does not forget to change the operation mode of the air conditioner from the emergency operation mode to the normal operation mode in which the cooperative operation is performed when installing the inverter compressor after repair. However, if this work is forgotten, the emergency operation function continues to operate even after the power is turned on again, and the inverter compressor does not operate, which is not preferable in terms of energy efficiency and comfort. In the cited document 1, there is no description about the driving method after the emergency driving is finished.

  The present invention has been made to solve the above-described problems. In an air conditioner that performs a cooperative operation of an inverter compressor and a constant speed compressor, a service person switches from an emergency operation mode to a normal operation mode. The purpose is to provide a technology that can prevent a decrease in energy efficiency and comfort even if work is forgotten.

  The invention according to claim 1 is an air conditioner (1) including first and second compressors (8a, 8b) having different control forms, the first compressor (8a) and the first compressor (8a). The operation mode is alternatively selected between a first operation mode in which cooperative operation with the second compressor (8b) is performed and a second operation mode in which only the first compressor (8a) is controlled. A mode setting unit (30) for setting, and a determination unit (29) for determining whether or not the operation time of the second operation mode has reached a predetermined time limit, the mode setting unit (30 ) Is determined by the determination unit (29) that the operation time in the second operation mode has reached the time limit, the operation mode is changed from the second operation mode to the first operation. Switch to mode.

  According to the present invention, when the determination unit determines that the operation time in the second operation mode has reached the predetermined time limit, the operation mode is set to the second operation mode by the mode setting unit. The operation mode is switched to the first operation mode.

  Thus, in the present invention, even if a service person forgets the work of switching from the second operation mode to the first operation mode, the first operation is automatically performed from the second operation mode after a predetermined time has elapsed. A configuration capable of switching to the mode is realized.

  As a mode for determining whether or not the operation time of the second operation mode has reached the predetermined time limit, for example, the inventions of claims 2 and 3 are assumed. That is, according to the second aspect of the present invention, the operation mode is changed from the first operation mode to the first operation mode by the storage unit (27) that stores the predetermined time limit in advance and the mode setting unit (30). And a timing unit (28) that starts a timing operation based on the timing when the operation mode is switched to the second operation mode, and the determination unit (29) is configured to limit the predetermined time of the timing unit (28). It is determined whether or not the operation time of the second operation mode has reached the predetermined time limit based on whether or not the time has been reached.

  According to a third aspect of the present invention, the time setting operation is started based on the timing when the mode setting unit (30) switches from the first operation mode to the second operation mode. A time measuring unit (28) that repeatedly measures the passage of time, and a time limit for operation in the second operation mode, starting from the predetermined time limit, the time measuring unit (28) sets the fixed time. Each time the passage of time is measured, the storage unit (27) for renewably storing the time limit to be stored while subtracting the fixed time by the predetermined time, and the determination unit (29) include the storage unit (27) It is determined whether or not the operation time in the second operation mode has reached the predetermined time limit based on whether or not the time limit stored in the table is zero or less.

  According to a fourth aspect of the present invention, in the invention according to the third aspect, the storage unit (27) is configured so that the air conditioner (1) is measured before the lapse of the predetermined time is measured by the time measuring unit (28). When the main power source of the air conditioner (1) is turned on again, the time obtained by subtracting the predetermined time from the currently stored time is stored in an updated manner. It is.

  When the main power supply of the air conditioner is turned off before the elapsed time is measured by the time measuring unit, the time until the main power supply is turned off from the most recent time of the fixed time is left as it is. The minute is not reflected in the time limit stored in the storage unit (this time is not subtracted from the time limit) in spite of the operation time in the second operation mode. As a result, there is a possibility that the operation time in the second operation mode exceeds the predetermined time limit by the time from the most recent elapse of the certain time until the main power is turned off.

  Therefore, when the main power is turned on and the time obtained by subtracting the predetermined time from the currently stored time is updated and stored as in the present invention, the above-described problem occurs. It can be avoided.

  According to a fifth aspect of the present invention, in the air conditioner according to any one of the first to fourth aspects, the first compressor (8a) is a constant speed compressor (8a). The second compressor (8b) is an inverter compressor (8b).

  According to the present invention, when the first compressor is a constant speed compressor and the second compressor is an inverter compressor, the invention according to any one of claims 1 to 4 is particularly effective. It will be something.

  According to the present invention, even if a service person forgets the work of switching from the second operation mode to the first operation mode, the second operation mode is automatically changed from the second operation mode to the first operation mode after a predetermined time has elapsed. Since the switchable configuration has been realized, the energy efficiency and comfort of the air conditioner are reduced even when the service person forgets to switch from the second operation mode to the first operation mode. Can be avoided.

  Hereinafter, embodiments of an air-conditioning apparatus according to the present invention will be described with reference to the drawings. Drawing 1 is a figure showing the composition of a 1st embodiment of an air harmony device.

  As shown in FIG. 1, the air conditioner 1 includes an indoor unit 2 that is attached to an indoor ceiling surface, a wall surface, and the like, and an outdoor unit 3 that is installed in a suitable outdoor location. The outdoor unit 3 and the outdoor unit 3 are connected by a piping unit 4. The indoor unit 2, the outdoor unit 3, and the piping unit 4 constitute an annular refrigerant circuit, and the indoor air is cooled or heated by circulating the refrigerant in the refrigerant circuit.

  The indoor unit 2 includes a heat transfer tube that is bent back multiple times and a plurality of fins through which the heat transfer tube is inserted, and an indoor heat exchanger 5 that exchanges heat with the air in contact with the indoor unit 2, The indoor fan 6 that introduces (inhales) the air into the indoor unit 2 and discharges the air after the heat exchange with the indoor heat exchanger 5 to the room, and the indoor fan 6 is rotationally driven. And an indoor fan motor 7.

  The outdoor unit 3 includes a compression unit 8 that compresses refrigerant, a switching valve 9 connected to the discharge side of the compression unit 8, an accumulator 10 connected to the suction side of the compression unit 8, and the switching valve 9. A connected outdoor heat exchanger 11, an electric valve 12 as an expansion mechanism connected to the outdoor heat exchanger 11, and an outdoor fan 13 for discharging the air after heat exchange by the outdoor heat exchanger 11 to the outside Have The compression unit 8 includes a constant speed compressor 8a having a constant ability to be exhibited and an inverter compressor 8b having a variable ability according to a load (see FIG. 2). The constant speed compressor 8a is controlled to be repeatedly turned on and off, and the output of the inverter compressor 8b is controlled steplessly or in multiple stages by an unillustrated inverter circuit.

  The electric valve 12 is connected to a pipe 17 having a filter 14 and a liquid closing valve 15, and is connected to one end of the indoor heat exchanger 5 of the indoor unit 2 through the pipe 17. The switching valve 9 is connected to a pipe 18 having a gas closing valve 16, and is connected to the other end of the indoor heat exchanger 5 of the indoor unit 2 through the pipe 18. The pipes 17 and 18 are pipes through which a refrigerant flows, and constitute the pipe part 4. The outdoor fan 13 is rotationally driven by an outdoor fan motor 19.

  In the air conditioner 1 having such a configuration, during the cooling operation, the refrigerant discharged from the compression unit 8 is supplied to the outdoor heat exchanger 11, and the refrigerant is condensed in the outdoor heat exchanger 11. Thereafter, the refrigerant is supplied to the indoor heat exchanger 5 through the electric valve 12, the filter 14, the liquid closing valve 15 and the pipe 17, and the refrigerant is evaporated in the indoor heat exchanger 5. By this operation, cool air is generated in the indoor heat exchanger 5, and the cool air is discharged into the room by the indoor fan 6. In this cooling operation, the indoor heat exchanger 5 functions as the evaporator, and the outdoor heat exchanger 11 functions as the condenser.

  On the other hand, during the heating operation, the refrigerant discharged from the compression unit 8 is supplied to the indoor heat exchanger 5 through the pipe 18, and after the refrigerant is condensed in the indoor heat exchanger 5, the pipe 17, the liquid The refrigerant is supplied to the outdoor heat exchanger 11 through the closing valve 15, the filter 14, and the electric valve 12, and the refrigerant is evaporated in the outdoor heat exchanger 11. By this operation, warm air is generated in the indoor heat exchanger 5, and the warm air is released into the room by the indoor fan 6. During the heating operation, the indoor heat exchanger 5 functions as the condenser, and the outdoor heat exchanger 11 functions as the evaporator.

  FIG. 2 is a block diagram showing the configuration of the air conditioner 1. In addition, the same number is attached | subjected about the structure same as the structure shown in FIG. 1, and the description is abbreviate | omitted.

  As shown in FIG. 2, in the air conditioner 1, a ROM (Read Only Memory) and data for storing a program for defining the operation of the CPU are stored in a CPU (Central Processing Unit) not shown. It has a microcomputer (hereinafter referred to as a microcomputer) configured with a RAM (Random Access Memory) having a temporary storage function and a function as a work area, and performs overall control of the air conditioner 1. An overall control unit 20 is provided.

  A constant speed compressor drive unit 21 that drives the constant speed compressor 8a is electrically connected (communicable) to the overall control unit 20, and the constant speed compressor drive unit 21 is connected to the overall control unit 20. It is designed to receive direct on / off control.

  The air conditioner 1 is provided with a plurality of microcomputers in addition to the microcomputer constituting the overall control unit 20, and one microcomputer operates the inverter compressor drive unit 22 that drives the inverter compressor 8b. The microcomputer functions as an inverter compressor control unit 23 provided exclusively for control, and the other one microcomputer is a fan control unit 25 provided exclusively for operation control of the fan drive unit 24 that drives the outdoor fan 13. It is a microcomputer that functions as

  The inverter compressor control unit 23 and the fan control unit 25 are electrically (communicatably) connected to the overall control unit 20, and the rotation speed of the inverter compressor 8 b and the outdoor fan 13 from the overall control unit 20. And the operation of the inverter compressor 8b or the outdoor fan 13 is controlled based on the command.

  Although not described in detail, the input operation unit 26 includes various buttons and switches installed on a remote controller (not shown) that controls the operation of the air conditioner 1.

  In the air conditioner 1 of the present embodiment, the advantage of the inverter compressor 8b that the capacity can be finely changed in accordance with the air conditioning load is usually obtained in order to perform an operation with further pursuit of energy efficiency and comfort, and the inverter compression Utilizing the advantages of the constant speed compressor 8a having a larger capacity than the machine 8b, operation by the cooperative operation of these compressors 8a and 8b is performed (hereinafter, this operation mode is referred to as a normal operation mode).

  In addition to the normal operation mode, the air conditioner 1 includes a mode (hereinafter referred to as an emergency operation mode) in which an air conditioning operation is performed only by the constant speed compressor 8a when an abnormality occurs in the inverter compressor 8b. ing.

  And the air conditioning apparatus 1 of this embodiment has a function of automatically switching the operation mode to the normal operation mode when the operation time in the emergency operation mode reaches a predetermined time (corresponding to the time limit). This is different from the prior art.

  In order to have such a function, the overall control unit 20 includes an emergency operation time storage unit 27 that stores in advance an upper limit value (hereinafter referred to as an emergency operation time; the time limit) for the execution time of the emergency operation mode, and an emergency operation. A timer 28 that starts a time measuring operation from the timing set in the mode, and a determination unit that determines whether or not the time measured by the timer 28 has reached the emergency operation time stored in the emergency operation time storage unit 27 29, a mode setting unit 30 that alternatively selects between the normal operation mode and the emergency operation mode as the operation mode in the air conditioner 1, and the operation mode set by the mode setting unit 30 A constant speed compressor drive unit 21, an inverter compressor drive unit 22 and a command information output unit 31 for outputting command information for instructing the operation of the fan drive unit 24. .

  FIG. 3 is a flowchart showing the operation mode switching process by the overall control unit 20.

  As shown in FIG. 3, when an instruction to switch to the emergency operation mode is input (YES in step # 1), the mode setting unit 30 switches the operation mode of the air conditioner 1 to the emergency operation mode, and the timer 28 Starts the time measuring operation (step # 2).

  Next, the determination unit 29 determines whether or not the time measured by the timer 28 has reached the emergency operation time stored in the emergency operation time storage unit 27 (step # 3). When the timekeeping time has not reached the emergency operation time (NO in step # 3), the mode setting unit 30 maintains the emergency operation mode, while the timekeeping time of the timer 28 has reached the emergency operation time. In this case (YES in step # 3), mode setting unit 30 switches from the emergency operation mode to the normal operation mode (step # 4).

  As described above, in this embodiment, after the operation mode of the air conditioner 1 is switched from the normal operation mode to the emergency operation mode, the operation mode of the air conditioner 1 is changed after a predetermined time (the emergency operation time) has elapsed. Since the emergency operation mode is automatically switched to the normal operation mode, even if the service person forgets the work of switching from the emergency operation mode to the normal operation mode, only the constant speed compressor 8a is used. A decrease in energy efficiency and comfort caused by driving can be avoided.

  In this case, the following modifications may be employed instead of or in addition to the embodiment.

  [1] As a method for determining whether or not the emergency operation time has elapsed since the operation mode of the air conditioner 1 was switched to the emergency operation mode, the following method can also be employed.

  That is, as shown in FIG. 4, when an instruction to switch to the emergency operation mode is input (YES in step # 11), the mode setting unit 30 sets the operation mode of the air conditioner 1 to the emergency operation mode. (Step # 12), the timer 28 starts a time measuring operation (step # 13).

  Next, the determination unit 29 determines whether or not a predetermined time t (for example, 1 hour) has elapsed (step # 14), and waits if the predetermined time t has not elapsed. If the predetermined time t has elapsed (YES in step # 14), the predetermined time t is subtracted from the emergency operation time stored in the emergency operation time storage unit 27. The subtraction result is stored in the emergency operation time storage unit 27 as the remaining time in an update manner (step # 15).

  Then, the determination unit 29 determines whether or not the remaining time currently stored in the emergency operation time storage unit 27 is greater than zero (step # 16), and if greater than zero (YES in step # 16). On the other hand, the process returns to step # 13, but if it is less than or equal to zero (NO in step # 16), mode setting unit 30 determines that the emergency operation time has elapsed and changes from emergency operation mode to normal operation mode. (Step # 17).

  Thus, whenever the predetermined time t elapses, the time stored in the emergency operation time storage unit 27 is subtracted by the predetermined time t, and the subtraction value is used as the remaining time for performing the emergency operation. The storage unit 27 may be stored in an update manner.

  By the way, in this embodiment, since the remaining time of the emergency operation is updated only when the predetermined time t has elapsed, when the main power supply of the air conditioner 1 is turned off before the predetermined time t has elapsed, In this state, the time from the previous elapse of the predetermined time t until the main power is turned off is stored in the emergency operation time storage unit 27 even though it is the operation time in the emergency operation mode. It is not reflected in the remaining time (this time is not subtracted from the remaining time). As a result, there is a possibility that the operation time in the emergency operation mode may exceed the time limit by the time from the previous elapse of the predetermined time t until the main power is turned off.

  Therefore, if the main power supply of the air conditioner 1 is turned off before the predetermined time t has elapsed, the emergency operation time storage unit 27 currently stores the power when the main power supply is turned on again. If the predetermined time t is subtracted from the remaining time, it is possible to avoid the occurrence of the above-described problems.

  [2] You may comprise so that the upper limit (henceforth emergency operation time) about the implementation time of emergency operation mode can be changed by the input operation part 26 grade | etc.,.

  [3] In the above embodiment, the target for performing the cooperative operation is a combination of the constant speed compressor 8a and the inverter compressor 8a. However, a combination of compressors having different control forms may be used. The number of compressors is not limited to two and may be three or more. Moreover, although the compressor operated in the emergency operation mode is the constant speed compressor 8a, other compressors may be used.

It is a figure which shows the structure of 1st Embodiment of an air conditioning apparatus. It is a block diagram which shows the structure of an air conditioning apparatus. It is a flowchart which shows the switching process of the operation mode by a whole control part. It is a flowchart which shows the modification of the switching process of the operation mode by a whole control part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioning apparatus 2 Indoor unit 3 Outdoor unit 6 Indoor fan 7 Indoor fan motor 8 Compression part 8a Constant speed compressor 8b Inverter compressor 13 Outdoor fan 19 Outdoor fan motor 20 Overall control part 21 Constant speed compressor drive part 22 Inverter compression Machine drive unit 23 inverter compressor control unit 24 fan drive unit 25 fan control unit 27 emergency operation time storage unit 28 timer 29 determination unit 30 mode setting unit 31 command information output unit

Claims (5)

An air conditioner (1) including first and second compressors (8a, 8b) having different control forms,
A first operation mode in which cooperative operation of the first compressor (8a) and the second compressor (8b) is performed, and a second operation mode in which only the first compressor (8a) is controlled. A mode setting unit (30) for alternatively setting the operation mode between
A determination unit (29) for determining whether or not the operation time of the second operation mode has reached a predetermined time limit,
When the mode setting unit (30) determines that the operation time in the second operation mode has reached the time limit by the determination unit (29), the mode setting unit (30) sets the operation mode to the second operation mode. An air conditioner that switches to the first operation mode. A storage unit (27) for storing the predetermined time limit in advance;
A timing unit (28) for starting a timing operation based on the timing when the operation mode is switched from the first operation mode to the second operation mode by the mode setting unit (30),
The determination unit (29) determines the operation time of the second operation mode based on whether or not the time measured by the time measurement unit (28) has reached the predetermined time limit. The air conditioning apparatus according to claim 1, wherein it is determined whether or not a time limit has been reached. A timing unit (28) that starts a timing operation based on the timing when the mode setting unit (30) switches from the first operation mode to the second operation mode, and repeatedly measures the passage of a predetermined time. )When,
The time limit for driving in the second operation mode starts from the predetermined time limit, and the time limit (28) counts the target to be stored each time the fixed time has elapsed. A storage unit (27) for renewably storing the time while subtracting the predetermined amount of time,
The determination unit (29) determines whether the operation time of the second operation mode is the predetermined time limit based on whether or not the time limit stored in the storage unit (27) has become zero or less. The air conditioning apparatus according to claim 1, wherein it is determined whether or not the air pressure has reached.   When the main power of the air conditioner (1) is turned off before the lapse of the predetermined time is measured by the time measuring unit (28), the storage unit (27) The air conditioning apparatus according to claim 3, wherein when the main power source is turned on again, a time obtained by subtracting the predetermined time from the currently stored time is renewably stored. The first compressor (8a) is a constant speed compressor (8a),
The air conditioner according to any one of claims 1 to 4, wherein the second compressor (8b) is an inverter compressor (8b).

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