AIR CONDITIONER

Abstract
An outdoor unit of an air conditioner includes a plurality of constant capacity compressors, a variable capacity compressor and a controller. The plurality of constant capacity compressors compress refrigerant in a predetermined capacity. The variable capacity compressor is capable of having its capacity changed and compressing varying amounts of refrigerant. The controller sequentially causes the plurality of constant capacity compressors to start up and regulates the operating frequency of the variable capacity compressor after start up of the plurality of constant capacity compressors.
Description
TECHNICAL FIELD

The present invention relates to an outdoor unit of an air conditioner, an air conditioner, and a compressor startup method in an outdoor unit of an air conditioner.


BACKGROUND ART

Conventionally, in a facility such as the outdoor unit of an air conditioner that is disposed with plural constant speed compressors and at least one variable speed compressor described in Patent Document 1, the operating capacities of the compressors are brought closer to a target capacity by the following procedure during startup of the compressors.


First, the variable speed compressor starts up and is raised to a predetermined capacity (about 50% of its target capacity). Thereafter, the plural constant speed compressors are sequentially raised one at a time. The variable speed compressor performs capacity control so as to vary its consumed power linearly in correspondence to fluctuations in the amount of air that is used that arise when the individual constant speed compressors raise.

    • <Patent Document 1>
      • JP-A No. 2001-140768


DISCLOSURE OF THE INVENTION

Problem that the Invention is to Solve


However, in the facility of Patent Document 1, the plural constant speed compressors must stand by without starting up until the variable speed compressor raises to the predetermined capacity, and the variable speed compressor performs capacity control each time the individual constant speed compressors raise, so a long amount of time is required until the outdoor unit finally reaches its target capacity.


It is an object of the present invention to provide an outdoor unit of an air conditioner that can quickly cause a compressor to start up, an air conditioner, and a compressor startup method in an outdoor unit of an air conditioner.


Means for Solving the Problem

An outdoor unit of an air conditioner according to a first invention comprises plural constant capacity compressors, a variable capacity compressor and a controller. The plural constant capacity compressors compress refrigerant in a predetermined capacity. The variable capacity compressor is capable of having its capacity changed and compressing refrigerant. The controller sequentially causes the plural constant capacity compressors to start up and thereafter regulates the operating frequency of the variable capacity compressor.


Here, the controller sequentially causes the plural constant capacity compressors to start up and thereafter regulates the operating frequency of the variable capacity compressor, so the controller is capable of quickly performing startup of the variable capacity compressor and the constant capacity compressors in comparison to a conventional air conditioner.


An outdoor unit of an air conditioner according to a second invention comprises the outdoor unit of an air conditioner according to the first invention, wherein the controller sets an interval of the startup of the plural constant capacity compressors to 15 seconds or more.


Here, the controller sets the interval of the startup of the plural constant capacity compressors to 15 seconds or more, so the controller is capable of ensuring time for an outdoor expansion valve that is included in the outdoor unit to follow the startup of the constant capacity compressors.


An air conditioner according to a third invention is disposed with plural outdoor units. The plural outdoor units include plural constant capacity compressors, variable capacity compressors and controllers. The plural constant capacity compressors compress refrigerant in a predetermined capacity. The variable capacity compressors are capable of having their capacities changed and compressing refrigerant. The controllers sequentially cause the plural constant capacity compressors to start up and thereafter regulate the operating frequencies of the variable capacity compressor. The controllers of the individual outdoor units perform startup of the constant capacity compressors at a timing that is shifted by a predetermined amount of time with respect to the startup of the constant capacity compressors of the other outdoor units.


Here, the controllers of the individual outdoor units perform startup of the constant capacity compressors at a timing that is shifted by a predetermined amount of time with respect to the startup of the constant capacity compressors of the other outdoor units, so even when the air conditioner is disposed with plural outdoor units, the controllers are capable of quickly performing startup of the variable capacity compressors and the constant capacity compressors.


An air conditioner according to a fourth invention comprises the air conditioner according to the third invention, wherein the predetermined amount of time is 15 seconds or more.


Here, the predetermined amount of time is set to 15 seconds or more, so the controllers are capable of ensuring time for outdoor expansion valves of the outdoor units to follow the startup of the constant capacity compressors.


An air conditioner according to a fifth invention comprises the air conditioner according to the third invention, wherein the controllers of the individual outdoor units perform startup of the variable capacity compressors in time with the startup of the variable capacity compressors of the other outdoor units.


Here, the controllers of the individual outdoor units perform startup of the variable capacity compressors in time with the startup of the variable capacity compressors of the other outdoor units, so the controllers are capable of quick capacity control.


A compressor startup method in outdoor units of an air conditioner according to a sixth invention is a compressor startup method in outdoor units of an air conditioner. The outdoor units of the air conditioner are disposed with plural constant capacity compressors and variable capacity compressors. The compressor startup method includes a first step and a second step. The first step sequentially causes the plural constant capacity compressors to start up. The second step regulates the operating frequencies of the variable capacity compressors after the first step.


Here, the method sequentially causes the plural constant capacity compressors to start up and thereafter regulates the operating frequencies of the variable capacity compressors, so the method is capable of quickly performing startup of the variable capacity compressors and the constant capacity compressors in comparison to a conventional air conditioner.


EFFECTS OF THE INVENTION

According to the first invention, the controller can quickly perform startup of the variable capacity compressor and the constant capacity compressors.


According to the second invention, the controller can ensure time for the outdoor expansion valve that is included in the outdoor unit to follow the startup of the constant capacity compressors.


According to the third invention, even when the air conditioner is disposed with plural outdoor units, the controllers can quickly perform startup of the variable capacity compressors and the constant capacity compressors.


According to the fourth invention, the controllers can ensure time for the outdoor expansion valves of the outdoor units to follow the startup of the constant capacity compressors.


According to the fifth invention, the controllers can perform quick capacity control.


According to the sixth invention, the method can quickly perform startup of the variable capacity compressors and the constant capacity compressors.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a diagram showing the overall configuration of an air conditioner according to an embodiment of the present invention.



FIG. 2 is a graph showing, in a time-series, the startup of constant capacity compressors and variable capacity compressors in an outdoor unit of FIG. 1.



FIG. 3 is a flowchart showing a procedure of the startup of the constant capacity compressors and the variable capacity compressors in the outdoor unit of FIG. 1.





DESCRIPTION OF THE REFERENCE SYMBOLS




  • 1 Air Conditioner


  • 2
    a to 2c Outdoor Units


  • 3
    a, 3b, etc. Indoor Units


  • 4, 5 Refrigerant Communication Pipes


  • 6
    a to 6c Controllers


  • 21
    a to 21c Compression Mechanisms


  • 22
    a to 22c, 27a to 27c, 28a to 28c Compressors


  • 24
    a to 24c Outdoor Heat Exchangers


  • 29
    a to 29c Outdoor Expansion Valves


  • 31
    a, 31b, etc. Indoor Expansion Valves


  • 32
    a, 32b, etc. Indoor Heat Exchangers



BEST MODE FOR CARRYING OUT THE INVENTION

<Configuration of Air Conditioner 1>FIG. 1 shows a general refrigerant circuit diagram of an air conditioner 1 of a first embodiment of the present invention. The air conditioner 1 is used to air-condition a building or the like and is configured as a result of plural (in the present embodiment, three) air-cooling type outdoor units 2a to 2c and numerous indoor units 3a, 3b, etc. being interconnected in parallel with respect to a refrigerant liquid communication pipe 4 and a refrigerant gas communication pipe 5. Here, just two indoor units 3a and 3b are shown. The plural outdoor units 2a to 2c are disposed with compression mechanisms 21a to 21c, each of which includes one capacity-variable type variable capacity compressor 22a to 22c and plural (in the present embodiment, two) capacity-constant type constant capacity compressors 27a to 27c and 28a to 28c.


The indoor units 3a, 3b, etc. are mainly configured by indoor expansion valves 31a, 31b, etc., indoor heat exchangers 32a, 32b, etc., and pipes that interconnect these. In the present embodiment, the indoor expansion valves 31a, 31b, etc. are electrically powered expansion valves that are connected to refrigerant liquid communication pipe 4 sides (below, “liquid sides”) of the indoor heat exchangers 32a, 32b, etc. in order to regulate refrigerant pressure and regulate refrigerant flow rate. In the present embodiment, the indoor heat exchangers 32a, 32b, etc. are cross fin-and-tube type heat exchangers and are devices for exchanging heat with indoor air. In the present embodiment, the indoor units 3a, 3b, etc. are disposed with indoor fans (not shown) for taking the indoor air into the insides of the units and sending out the indoor air, and the indoor units 3a, 3b, etc. are capable of exchanging heat between the indoor air and refrigerant that flows through the indoor heat exchangers 32a, 32b, etc.


The outdoor units 2a to 2c are mainly configured by compression mechanisms 21a to 21c, four-way switch valves 23a to 23c, outdoor heat exchangers 24a to 24c, liquid close valves 25a to 25c, gas close valves 26a to 26c, outdoor expansion valves 29a to 29c, and pipes that interconnect these. In the present embodiment, the outdoor expansion valves 29a to 29c are electrically powered expansion valves that are connected to refrigerant liquid communication pipe 4 sides (below, “liquid sides”) of the outdoor heat exchangers 24a to 24c in order to perform regulation of refrigerant pressure and regulation of refrigerant flow rate.


Each of the compression mechanisms 21a to 21c includes one variable capacity compressor 22a to 22c and two constant capacity compressors 27a to 27c and 28a to 28c.


The variable capacity compressors 22a to 22c are devices for compressing refrigerant gas that has sucked in and are capacity-variable type compressors that are capable of having their capacities changed by inverter control and compressing refrigerant.


The constant capacity compressors 27a to 27c and 28a to 28c are devices for compressing refrigerant gas that has been sucked in and are compressors that compress refrigerant in a predetermined capacity.


The four-way switch valves 23a to 23c are valves for switching the direction of the flow of refrigerant when switching between cooling operation and heating operation such that, during cooling operation, the four-way switch valves 23a to 23c are capable of interconnecting the compression mechanisms 21a to 21c and refrigerant gas communication pipe 5 sides (below, “gas sides”) of the outdoor heat exchangers 24a to 24c and interconnecting suction sides of the compression mechanisms 21a to 21c and the refrigerant gas communication pipe 5 (see the solid lines of the four-way switch valves 23a to 23c in FIG. 1) and such that, during heating operation, the four-way switch valves 23a to 23c are capable of interconnecting outlets of the compression mechanisms 21a to 21c and the refrigerant gas communication pipe 5 and interconnecting the suction sides of the compression mechanisms 21a to 21c and the gas sides of the outdoor heat exchangers 24a to 24c (see the dotted lines of the four-way switch valves 23a to 23c in FIG. 1).


The outdoor heat exchangers 24a to 24c are, in the present embodiment, cross fin-and-tube type heat exchangers and are devices for exchanging heat with the refrigerant using air as a heat source. In the present embodiment, the outdoor units 2a to 2c are disposed with outdoor fans (not shown) for taking outdoor air into the insides of the units and sending out the outdoor air, and the outdoor units 2a to 2c are capable of exchanging heat between the outdoor air and refrigerant flowing through the outdoor heat exchangers 24a to 24c.


The liquid close valves 25a to 25c and the gas close valves 26a to 26c of the outdoor units 2a to 2c are connected in parallel to the refrigerant liquid communication pipe 4 and the refrigerant gas communication pipe 5. The refrigerant liquid communication pipe 4 interconnects the liquid sides of the indoor heat exchangers 32a, 32b, etc. of the indoor units 3a, 3b, etc. and the liquid sides of the outdoor heat exchangers 24a to 24c of the outdoor units 2a to 2c. The refrigerant gas communication pipe 5 interconnects gas sides of the indoor heat exchangers 32a, 32b, etc. of the indoor units 3a, 3b, etc. and the four-way switch valves 23a to 23c of the outdoor units 2a to 2c.


<Configuration of Controllers>

The controllers 6a to 6c are housed in the outdoor units 2a to 2c and are capable of performing the above-described operation control using just the controller (here, 6a) of the outdoor unit (here, 2a) that is set as a parent device. Additionally, the controllers (here, 6b and 6c) of the outdoor units (here, 2b and 2c) that are set as child devices are capable of transmitting operating statuses of devices such as the compression mechanisms and detection data of various types of sensors to the parent device controller 6a and functioning so as to perform operation and stop commands to devices such as the compression mechanisms by a command from the parent device controller 6a.


The controllers 6a to 6c sequentially cause the constant capacity compressors 27a to 27c and 28c to 28c to start up during heating operation of the air conditioner 1 and thereafter regulate the operating frequencies of the variable capacity compressors 22a to 22c. Thus, in comparison to a conventional air conditioner, the controllers 6a to 6c can quickly perform startup of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c. That is, in a conventional air conditioner, the variable capacity compressor is once raised, and thereafter capacity control is performed by the variable capacity compressor while raising the constant capacity compressors one at a time. In contrast, in the air conditioner 1 of the present embodiment, first, the controllers 6a to 6c sequentially cause the constant capacity compressors 27a to 27c and 28a to 28c to start up and then rapidly raise the compressors to predetermined operating capacities of the constant capacity compressors 27a to 27c and 28a to 28c. Thereafter, the controllers 6a to 6c regulate the operating frequencies of the variable capacity compressors 22a to 22c to thereby regulate the total operating capacity of the outdoor units 2a, 2b and 2c to match the operating statuses of the indoor units 3a, 3b, etc. Consequently, time in which the constant capacity compressors are caused to stand by until the variable capacity compressor first reaches a predetermined operating capacity and time in which capacity control is performed by the variable capacity compressor each time the plural constant capacity compressors are raised, as in a conventional air conditioner, become unnecessary, and quick startup of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c becomes possible.


The controllers 6a to 6c set the interval between the startup of the constant capacity compressors 27a to 27c and the startup of the constant capacity compressors 28a to 28c to 15 seconds or more, so the controllers 6a to 6c are capable of ensuring time for the outdoor expansion valves 29a to 29c of the outdoor units 2a to 2c to follow the startup of the constant capacity compressors 27a to 27c and 28a to 28c.


The controllers 6a to 6c of the individual outdoor units 2a to 2c perform startup of the constant capacity compressors 27a to 27c and 28a to 28c at a timing that is shifted by a predetermined amount of time At (see FIG. 2) with respect to the startup of the constant capacity compressors 27a to 27c and 28a to 28c of the other outdoor units 2a to 2c, so that even when the air conditioner 1 is disposed with the plural outdoor units 2a to 2c, the controllers 6a to 6c are capable of quickly performing startup of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c.


For example, as shown in FIG. 2, the controller 6a of the outdoor unit 2a causes the constant capacity compressor 27a to start up (curved line I1), then the controller 6b of the outdoor unit 2b causes the constant capacity compressor 27b to start up (curved line I2) at a timing that is shifted by the predetermined amount of time Δt from the startup of the constant capacity compressor 27a, and thereafter the controller 6c of the outdoor unit 2c causes the constant capacity compressor 27c to start up (curved line I3) at a timing that is shifted by the predetermined amount of time Δt from the startup of the constant capacity compressor 27b. Moreover, the controller 6a of the outdoor unit 2a causes the constant capacity compressor 28a to start up (curved line II1) at a timing that is shifted by the predetermined amount of time Δt from the startup of the constant capacity compressor 27c, the controller 6b of the outdoor unit 2b causes the constant capacity compressor 28b to start up (curved line II2) at a timing that is shifted by the predetermined amount of time At from the startup of the constant capacity compressor 28a, and the controller 6c of the outdoor unit 2c causes the constant capacity compressor 28c to start up (curved line II3) at a timing that is shifted by the predetermined amount of time At from the startup of the constant capacity compressor 28b.


In this manner, the controllers 6a to 6c perform sequential startup of the constant capacity compressors 27a to 27c and 28a to 28c in the order of the curved lines I1 to I3 and II1 to II3 shown in FIG. 2, whereby the refrigerant pressure Pc in the indoor heat exchangers 32a, 32b, etc. (which become condensers during heating operation) of the indoor units 3a, 3b, etc. steadily rises and, meanwhile, in the outdoor units 2a to 2c, the outdoor expansion valves 29a to 29c follow the startup of the constant capacity compressors 27a to 27c and 28a to 28c and the refrigerant pressure Pe in the outdoor heat exchangers 24a, 24b and 24c (which become expanders during heating operation) gradually decreases.


The predetermined amount of time Δt is set to 15 seconds or more, so the controllers 6a to 6c are capable of ensuring time for the outdoor expansion valves 29a to 29c of the outdoor units 2a to 2c to follow the startup of the constant capacity compressors 27a to 27c and 28a to 28c.


The controllers 6a to 6c of the individual outdoor units 2a to 2c perform startup of the variable capacity compressors 22a to 22c in time with the startup of the variable capacity compressors 22a to 22c of the other outdoor units 2a to 2c, so the controllers 6a to 6c are


<Compressor Startup Method>

Next, a method of starting up the compressors (the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c) of the outdoor units 2a to 2c during heating operation will be described using the flowchart shown in FIG. 3. Here, in order to clarify operation of each of the outdoor units, the outdoor units 2a to 2c will be called a first outdoor unit 2a, a second outdoor unit 2b and a third outdoor unit 2c. Further, in the flowchart shown in FIG. 3, “First STD” corresponds to the constant capacity compressors 27a to 27c, “Second STD” corresponds to the constant capacity compressors 28a to 28c, and “INV” corresponds to the variable capacity compressors 22a to 22c.


First, when a signal to start heating operation is inputted to the controllers 6a to 6c of the first outdoor unit 2a, the second outdoor unit 2b and the third outdoor unit 2c, the controllers 6a to 6c cause the variable capacity compressors 22a to 22c to start up in a minimum operating capacity as preliminary operation. It will be noted that preliminary startup of the variable capacity compressors 22a to 22c may also be omitted. When preliminary startup is omitted, then it suffices for the controllers 6a to 6c to cause the variable capacity compressors 22a to 22c to start up beginning with later-described step S7 on.


As shown in the flowchart of FIG. 3, first, in step S1, the controller 6a of the first outdoor unit 2a causes the constant capacity compressor 27a of the first outdoor unit 2a to start up.


At this time, in step S11, the controller 6b of the second outdoor unit 2b determines whether or not the constant capacity compressor 27a of the first outdoor unit 2a has started up. When the controller 6b determines that the constant capacity compressor 27a has started up, then in step S12, the controller 6b counts 15 seconds in order to shift the timing with respect to the startup of the constant capacity compressor 27a immediately before. Thereafter, in step S13, the controller 6b causes the constant capacity compressor 27b of the second outdoor unit 2b to start up.


At this time, in step S21, the controller 6c of the third outdoor unit 2c determines whether or not the constant capacity compressor 27b of the second outdoor unit 2b has started up. When the controller 6c determines that the constant capacity compressor 27b has started up, then in step S22, the controller 6c counts 15 seconds and thereafter, in step S23, causes the constant capacity compressor 27c of the third outdoor unit 2c to start up.


Next, in step S2, the controller 6a of the first outdoor unit 2a determines whether or not the constant capacity compressor 27c of the third outdoor unit 2c has started up. When the controller 6a determines that the constant capacity compressor 27c has started up, then in step S3, the controller 6a counts 15 seconds and thereafter, in step S4, causes the constant capacity compressor 28a of the first outdoor unit 2a to start up.


At this time, in step S14, the controller 6b of the second outdoor unit 2b determines whether or not the constant capacity compressor 28a of the first outdoor unit 2a has started up. When the controller 6b determines that the constant capacity compressor 28a has started up, then in step S15, the controller 6b counts 15 seconds and thereafter, in step S16, causes the constant capacity compressor 28b of the second outdoor unit 2b to start up.


At this time, in step S24, the controller 6c of the third outdoor unit 2c determines whether or not the constant capacity compressor 28b of the second outdoor unit 2b has started up. When the controller 6c determines that the constant capacity compressor 28b has started up, then in step S25, the controller 6c counts 15 seconds and thereafter, in step S26, causes the constant capacity compressor 28c of the third outdoor unit 2c to start up.


Next, in step S5, the controller 6a of the first outdoor unit 2a determines whether or not the constant capacity compressor 28c of the third outdoor unit 2c has started up. When the controller 6a determines that the constant capacity compressor 28c has started up, then in step S6, the controller 6a counts 15 seconds and thereafter, in step S7, regulates the operating frequency of the variable capacity compressor 22a of the first outdoor unit 2a so as to correspond to the operating capacities of the indoor units 3a, 3b, etc. Further, in conjunction with the variable capacity compressor 22a of the first outdoor unit 2a, the controllers 6b and 6c the regulate the operating frequencies of the variable capacity compressor 22b of the second outdoor unit 2b and the variable capacity compressor 22c of the third outdoor unit 2c so as to correspond to the operating capacities of the indoor units 3a, 3b, etc.


Specifically, in step S17, the controller 6b of the second outdoor unit 2b determines whether or not the variable capacity compressor 22a of the first outdoor unit 2a has started up. When the controller 6b determines that the variable capacity compressor 22a has started up, then in step S18, the controller 6b regulates the operating frequency of the variable capacity compressor 22b of the second outdoor unit 2b so as to correspond to the operating capacities of the indoor units 3a, 3b, etc.


Together with that, in step S27, the controller 6c of the third outdoor unit 2c determines whether or not the variable capacity compressor 22a of the first outdoor unit 2a has started up. When the controller 6c determines that the variable capacity compressor 22a has started up, then in step S28, the controller 6c regulates the operating frequency of the variable capacity compressor 22c of the third outdoor unit 2c so as to correspond to the operating capacity of the indoor units 3a, 3b, etc.


<Operation of Air Conditioner 1>

Next, operation of the air conditioner 1 will be described using FIG. 1.


<Normal Operation>
(Heating Operation)

First, heating operation will be described. During heating operation, in all of the outdoor units 2a to 2c, the four-way switch valves 23a to 23c are in the state indicated by the dotted lines in FIG. 1, that is, a state where discharge sides of the compression mechanisms 21a to 21c are connected to the gas sides of the indoor heat exchangers 32a, 32b, etc. via the refrigerant gas communication pipe 5 and where the suction sides of the compression mechanisms 21a to 21c are connected to the gas sides of the outdoor heat exchangers 24a to 24c. Further, the liquid close valves 25a to 25c and the gas close valves 26a to 26c are opened, and the openings of the outdoor expansion valves 29a to 29c are regulated so as to depressurize the refrigerant.


In this state of a refrigerant circuit 7 of the air conditioner 1, when the outdoor fans (not shown) of the outdoor units 2a to 2c, the indoor fans (not shown) of the indoor units 3a, 3b, etc., and the compression mechanisms 21a to 21c are started up, refrigerant gas is sucked into the compression mechanisms 21a to 21c and compressed by the compression mechanisms 21a to 21c, merges together in the refrigerant gas communication pipe 5 via the four-way switch valves 23a to 23c of the outdoor units 2a to 2c, and is sent to the indoor units 3a, 3b, etc. Then, the refrigerant gas that has been sent to the indoor units 3a, 3b, etc. exchanges heat with the indoor air in the indoor heat exchangers 32a, 32b, etc and is condensed. This condensed refrigerant liquid merges together in the refrigerant liquid communication pipe 4 via the indoor expansion valves 31a, 31b, etc. and is sent to the outdoor units 2a to 2c. The refrigerant liquid flowing through the refrigerant liquid communication pipe 4 exchanges heat with the outdoor air in the outdoor heat exchangers 24a to 24c of the outdoor units 2a to 2c and is evaporated. This evaporated refrigerant gas is again sucked into the compression mechanisms 21a to 21c via the four-way switch valves 23a to 23c of the outdoor units 2a to 2c. In this manner, heating operation is performed.


(Cooling Operation)

Next, cooling operation will be described. During cooling operation, in all of the outdoor units 2a to 2c, the four-way switch valves 23a to 23c are in the state indicated by the solid lines in FIG. 1, that is, a state where the discharge sides of the compression mechanisms 21a to 21c are connected to the gas sides of the outdoor heat exchangers 24a to 24c and where the suction sides of the compression mechanisms 21a to 21c are connected to the gas sides of the indoor heat exchangers 32a, 32b, etc. via the refrigerant gas communication pipe 5. Further, the liquid close valves 25a to 25c and the gas close valves 26a to 26c are opened, and the openings of the indoor expansion valves 31a, 31b, etc. are regulated so as to depressurize refrigerant.


In this state of the refrigerant circuit 7 of the air conditioner 1, when the outdoor fans (not shown) of the outdoor units 2a to 2c, the indoor fans (not shown) of the indoor units 3a, 3b, etc., and the compression mechanisms 21a to 21c are started up, refrigerant gas is sucked into the compression mechanisms 21a to 21c and compressed by the compression mechanisms 21a to 21c, is sent to the outdoor heat exchangers 24a to 24c via the four-way switch valves 23a to 23c, exchanges heat with the outdoor air, and is condensed. This condensed refrigerant liquid merges together in the refrigerant liquid communication pipe 4 and is sent to the indoor units 3a, 3b, etc. Then, the refrigerant liquid that has been sent to the indoor units 3a, 3b, etc. is depressurized in the indoor expansion valves 31a, 31b, etc., thereafter exchanges heat with the indoor air in the indoor heat exchangers 32a, 32b, etc., and is evaporated. This evaporated refrigerant gas is sent to the outdoor units 2a to 2c through the refrigerant gas communication pipe 5. The refrigerant gas flowing through the refrigerant gas communication pipe 5 passes through the four-way switch valves 23a to 23c of the outdoor units 2a to 2c and is thereafter again sucked into the compression mechanisms 21a to 21c. In this manner, cooling operation is performed.


<Characteristics>

(1)


In the air conditioner 1 of the embodiment, the controllers 6a to 6c sequentially cause the plural constant capacity compressors 27a to 27c and 28a to 28c to start up and thereafter regulate the operating frequencies of the variable capacity compressors 22a to 22c. Thus, the controllers 6a to 6c are capable of quickly performing startup of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c in comparison to a conventional air conditioner.


Further, in the air conditioner 1 of the embodiment, the controllers 6a to 6c sequentially cause the constant capacity compressors 27a to 27c and 28a to 28c to start up and thereafter regulate the operating frequencies of the variable capacity compressors 22a to 22c, so there is no worry that the refrigerant pressure will rise to a high pressure after the compressors are raised in an extremely high capacity or conversely that the refrigerant pressure will drop to a low pressure after the compressors are raised in an extremely low pressure. For that reason, even under a raise restriction based on the operating capacities of the indoor units, the controllers 6a to 6c are capable of quickly performing startup of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c.


Moreover, in the air conditioner 1 of the embodiment, the controllers 6a to 6c sequentially cause the constant capacity compressors 27a to 27c and 28a to 28c to start up and thereafter regulate the operating frequencies of the variable capacity compressors 22a to 22c, so the controllers 6a to 6c are capable of raising the operating frequencies of the variable capacity compressors 22a to 22c in order to avoid stalling of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c.


(2)


Moreover, in the air conditioner 1 of the embodiment, during heating operation of the air conditioner 1, the controllers 6a to 6c are capable of quickly starting up the constant capacity compressors 27a to 27c and 28a to 28c and the variable capacity compressors 22a to 22c, so the air conditioner 1 is capable of satisfying the demand of customers and the like who want the compressors to quickly start up during heating operation.


(3)


In the air conditioner 1 of the embodiment, the controllers 6a to 6c set the interval between the startup of the constant capacity compressors 27a to 27c and the startup of the constant capacity compressors 28a to 28c to 15 seconds or more, so the controllers 6a to 6c are capable of ensuring time for the outdoor expansion valves 29a to 29c of the outdoor units 2a to 2c to follow the startup of the constant capacity compressors 27a to 27c and 28a to 28c.


In particular, in a conventional air conditioner, there is the worry that the power source voltage will drop when the timings of the startup of plural constant capacity compressors overlap, but in the air conditioner 1 of the embodiment, the controllers 6a to 6c quickly sequentially cause the constant capacity compressors 27a to 27c and 28a to 28c to start up at 15-second intervals, so there is no worry that the power source voltage will drop.


(4)


In the air conditioner 1 of the embodiment, the controllers 6a to 6c of the individual outdoor units 2a to 2c perform startup of the constant capacity compressors 27a to 27c and 28a to 28c at a timing that is shifted by the predetermined amount of time Δt (see FIG. 2) with respect to the startup of the constant capacity compressors 27a to 27c and 28a to 28c of the other outdoor units 2a to 2c, so even when the air conditioner 1 is disposed with the plural outdoor units 2a to 2c, the controllers 6a to 6c are capable of quickly performing startup of the variable capacity compressors 22a to 22c and the constant capacity compressors 27a to 27c and 28a to 28c.


(5)


In the air conditioner 1 of the embodiment, the predetermined amount of time Δt is set to 15 seconds or more, so the controllers 6a to 6c are capable of ensuring time for the outdoor expansion valves 29a to 29c of the outdoor units 2a to 2c to follow the startup of the constant capacity compressors 27a to 27c and 28a to 28c.


(6)


In the air conditioner 1 of the embodiment, the controllers 6a to 6c of the individual outdoor units 2a to 2c perform startup of the variable capacity compressors 22a to 22c in time with the startup of the variable capacity compressors 22a to 22c of the other outdoor units 2a to 2c, so the controllers 6a to 6c are capable of quick capacity control.


<Modifications>
(A)

In the embodiment, the air conditioner 1 that is disposed with the plural outdoor units 2a, 2b and 2c is cited as an example, and the controllers 6a to 6c of the individual outdoor units 2a to 2c perform startup of the constant capacity compressors 27a to 27c and 28a to 28c at a timing that is shifted by a predetermined amount of time with respect to the startup of the constant capacity compressors 27a to 27c and 28a to 28c of the other outdoor units 2a to 2c, but the present invention is not limited to this.


As a modification, in the case of the air conditioner 1 that is disposed with just the one outdoor unit 2a, the controller 6a becomes capable of quickly causing the variable capacity compressor 22a and the constant capacity compressors 27a and 28a to start up by shifting the timing of the startup of the two constant capacity compressors 27a and 28b inside the outdoor unit 2a, causing the constant capacity compressors 27a and 28a to start up, and thereafter regulating the operating frequency of the variable capacity compressor 22a.


(B)

In the embodiment, startup of the variable capacity compressor 22a and the constant capacity compressors 27a and 28a during heating operation has been described as an example, but the present invention is not limited to this. Even in the case of another operating mode (e.g., cooling operation) or the like, in the outdoor units 2a to 2c of the air conditioner 1 of the present invention, the controller 6a is capable of quickly performing startup of the variable capacity compressor 22a and the constant capacity compressors 27a and 28a.


INDUSTRIAL APPLICABILITY

The present invention is applicable to an outdoor unit of an air conditioner that is disposed with plural constant capacity compressors and at least one variable capacity compressor.

Claims
  • 1. An outdoor unit of an air conditioner, the outdoor unit comprising: a plurality of constant capacity compressors configured to compress refrigerant, each of the constant capacity compressors having a predetermined capacity;a variable capacity compressor configured to compress refrigerant, the variable capacity compressor having a variable capacity; anda controller configured to sequentially start up the plurality of constant capacity compressors and configured to regulate operating frequency of the variable capacity compressor in order to regulate the variable capacity of the variable capacity compressor.
  • 2. The outdoor unit of an air conditioner of claim 1, wherein the controller sets an interval between startup of each of the plurality of constant capacity compressors to 15 seconds or more.
  • 3. An air conditioner comprising: a plurality of outdoor units each outdoor unit including a plurality of constant capacity compressors configured to compress refrigerant in a predetermined capacity,a variable capacity compressor configured to compress refrigerant, the variable capacity compressor having a variable capacity, anda controller configured to sequentially start up the plurality of constant capacity compressors and configured to regulate operating frequency of the variable capacity compressor in order to regulate the variable capacity of the variable capacity compressor,the controller of each outdoor unit is configured to starts up the constant capacity compressors at a timing that is shifted by a predetermined amount of time relative to start up of the constant capacity compressors of the other outdoor units.
  • 4. The air conditioner of claim 3, wherein the predetermined amount of time is 15 seconds or more.
  • 5. The air conditioner of claim 3, wherein the controllers of the outdoor units are configured to start up the variable capacity compressors at the same time as each other.
  • 6. A compressor startup method for a plurality of outdoor units of an air conditioner where each outdoor unit includes a plurality of constant capacity compressors and a variable capacity compressor, the method comprising: sequentially starting up a plurality of constant capacity compressors; andregulating operating frequencies of the variable capacity compressors after sequentially starting up the plurality of constant capacity compressors.
Priority Claims (1)
Number Date Country Kind
2006-041213 Feb 2006 JP national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/JP2007/052462 2/13/2007 WO 00 8/7/2008