KR20070043416A - Control method of multi type air conditioner - Google Patents

Abstract

The present invention relates to a multi-type air conditioner, and in particular, the present invention relates to a pulsation variable type in a particular outdoor unit by appropriately determining the compressor priority in a multi-type air conditioner in which several outdoor units, each of which has a variable capacity compressor, are connected to the indoor unit by a common pipe. When only the compressor is operated, if the operating capacity of the other outdoor unit is large, the refrigerant cannot be discharged during the no-load operation time of the pulsating compressor, thereby minimizing the refrigerant swelling occurring in the outdoor unit in which the pulsating compressor is operating with a small capacity. Proper period capacity distribution allows efficient use of outdoor heat exchangers, improving system efficiency.

To this end, the present invention provides a control method of a multi-type air conditioner in which a plurality of outdoor units are connected to an indoor unit by a common pipe, some capacity variable compressors and a capacity schedule compressor are provided in some outdoor units, and only a capacity schedule compressor is provided in the remaining outdoor units. Determining a starting priority of each compressor in consideration of minimizing the refrigerant pool, and sequentially starting each compressor based on the predetermined starting priority according to the increase in the heating and cooling load.

Description

Control method of multi type air conditioner

1 is a block diagram of a multi-type air conditioner according to an embodiment of the present invention.

FIG. 2 is a simplified view of each compressor of FIG. 1.

3 is a control flowchart illustrating a control method of the multi-type air conditioner of FIG. 1.

4 to 7 are diagrams for explaining the starting procedure of each compressor of FIG.

* Description of the symbols for the main functions of the drawings *

10A, 10B, 10C: Outdoor unit 11A: Variable capacity compressor

12A, 13A, 11B-13B, 11C-13C: Capacity Constant Compressor

20: outdoor unit 30: common piping

31: common gas pipe 32: common liquid pipe

The present invention relates to a control method of a multi-type air conditioner, and more particularly, in a multi-type air conditioner in which several outdoor units are connected in parallel by a common pipe to an indoor unit, a capacity of only one outdoor unit of several outdoor units is changed to improve the compressor capacity. A control method of a multi-type air conditioner having a variable capacity compressor to adjust.

In general, a multi-type air conditioner is used to perform air conditioning in various indoor spaces. In general, a plurality of indoor units are connected to one outdoor unit. Due to the increase in size of buildings, the load change required by a plurality of indoor units frequently occurs. Since the range of the fluctuation is large, configuring one outdoor unit to meet the cooling load (or heating load) required by the entire indoor unit comes with an economic burden such as having a large capacity and expensive compressor.

In consideration of this, in recent years, several outdoor units have been installed to actively cope with the load change required by the indoor unit, and common pipes connecting several outdoor units and a plurality of indoor units in order to reduce piping for transporting refrigerants. To share.

On the other hand, one outdoor unit of the outdoor unit is provided with a variable capacity compressor to vary the compression capacity and constant capacity compressor to provide a constant compression capacity in order to provide a compression capacity appropriate to the change in the indoor air conditioning capacity of the indoor unit, The remaining outdoor units are all equipped with capacity schedule compressors.

Types of such variable capacity compressors include a variable speed rotation type compressor and a pulsating variable type compressor. The compressor of the variable speed rotation speed is to adjust the capacity (capacity) of the compressor by changing the frequency of the current applied to the compressor through the inverter control to adjust the capacity of the compressor to change the cooling demand capacity, the pulsation type In the variable compressor, the compression time and the no-load time for discharging the refrigerant adjust the non-compression time to adjust the capacity of the compressor to change the cooling and heating demand.

According to the prior art, when selecting the compressor start order, when only the heating and cooling load P is less than the capacity (Q) of the outdoor unit having both the variable capacity compressor and the constant capacity compressor, only the capacity variable + capacity constant outdoor unit is operated. When the load P exceeds the capacity variable + capacity schedule outdoor unit capacity Q, the outdoor unit having only another capacity schedule compressor is started.

Therefore, when only a specific outdoor unit is operated to cope with the cooling and heating load as described above, since the outdoor heat exchanger of other outdoor units cannot be used, the heat exchange amount is reduced and the system efficiency is low. In order to improve this, even when the heating and cooling load (P) is less than the capacity (Q) of the outdoor unit capacity (Q) can be tried to distribute the heating and cooling load (P) to all outdoor units. For example, if each outdoor unit is equipped with three compressors in a row, the capacity variable + capacity schedule outdoor unit and the remaining capacity schedule outdoor unit rather than driving all three compressors 1, 2 and 3 of the outdoor unit. Compressors 1, 4, and 7 are operated by mixing compressors of each outdoor unit to achieve higher efficiency.

However, when the operating capacity of the variable capacity compressor is small, especially when the variable capacity of the variable capacity compressor is a compression time conversion method instead of a frequency conversion method, and there is no load operation time, the compressor discharge side has a relatively low pressure compared to other outdoor units. Since the refrigerant can not be discharged smoothly to the common liquid pipe (cooling) or common gas pipe (heating) connected in common, according to the 'capacity change + capacity schedule outdoor unit has a problem that the refrigerant pooling phenomenon.

The present invention is to solve the above-mentioned problems, an object of the present invention is to provide a specific outdoor unit by appropriately assigning the compressor start order in the multi-type air conditioner connected to the indoor unit by a common pipe, several units equipped with a variable capacity compressor in part It is to provide a control method of the multi-type air conditioner that can prevent the refrigerant pooling in the water and improve the system efficiency.

The present invention for achieving the above object is a multi-type air conditioner in which a plurality of outdoor units are connected to the indoor unit by a common pipe, all of the capacity variable compressor and the capacity schedule compressor are provided in some outdoor units, and only the capacity schedule compressor is provided in the remaining outdoor units. A control method of the control method comprising: determining a starting priority of each compressor in consideration of minimizing a refrigerant pool, and sequentially starting each compressor based on the predetermined starting priority according to an increase in heating and cooling loads. It is characterized by.

And a priority schedule of the capacity controller of the outdoor unit to which the capability variable compressor belongs to the next priority.

The remaining capacity schedule compressors are characterized in that there is no outdoor unit consisting of only the capacity schedule compressor in which two or more compressors are started when there is an outdoor unit in which no compressor is started.

When operating with the variable capacity compressor and the constant capacity compressor, even if the capacity variable compressor is not operating at the maximum capacity, if the heating and cooling load is greater than the total capacity of the two compressors, the compressor of the outdoor unit consisting of the capacity constant compressor additionally characterized in that do.

The variable capacity compressor is characterized in that the pulsating variable type compressor to adjust the compression capacity by adjusting the compression time.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The present invention can be combined with the outdoor unit of the modular type that can be configured as a single pipe by connecting the independent outdoor unit and the outdoor unit, and the cooling and heating of each indoor unit by connecting a single pipe connecting the outdoor unit again to several indoor units By properly determining the compressor priority of the modular multi-heat pump system, when only the pulsating variable compressor is operated in a specific outdoor unit, if the operating capacity of the other outdoor unit is large, the refrigerant is not discharged during the no-load operation time of the pulsating compressor. In addition, the pulsating compressor minimizes the refrigerant pooling occurring in the outdoor unit operating with a small capacity, and it is possible to efficiently use the outdoor heat exchanger by appropriately distributing the capacity during the outdoor period, thereby improving the efficiency of the system.

The multi-type air conditioner according to the present invention is connected to a plurality of indoor units installed in parallel by a common pipe, a plurality of outdoor units installed in parallel. For example, the multi-type air conditioner of the present invention is configured as three outdoor units 10A, 10B, and 10C installed in parallel are connected to a plurality of indoor units 20 by a common pipe 30, as shown in FIG. do.

The common pipe 30 is divided into a common gas pipe 31 and a common liquid pipe 32. The common gas pipe 31 and the common liquid pipe 32 have one side branched to each outdoor unit, and the other side branched to each indoor unit.

Each outdoor unit 10A, 10B, 10C has three compressors (11A-13A, 11B-13B, 11C-13C), four-way valves (14A, 14B, 14C), outdoor heat exchangers (15A, 15B, 15C), and expansion. Valves 16A, 16B, 16C, receiver tanks 17A, 17B, 17C, and accumulators 18A, 18B, 18C. In addition, each outdoor unit (10A, 10B, 10C) is provided with a controller for controlling each component, and is connected to the communication line between the controller to transmit and receive information. One of the controllers acts as a main controller to control the heating and cooling load and the start of each compressor by transmitting and receiving information with the remaining controllers and the controllers provided in each indoor unit.

In the outdoor unit 10A, one capacity variable compressor 11A and two capacity constant compressors 12A and 13A are provided. On the other hand, three capacity constant compressors 11B, 12B, and 13B are provided in the outdoor unit 10B, and three capacity constant compressors 11C, 12C, and 13C are similarly provided in the outdoor unit 10C.

Referring to FIG. 1, the compressor 10A is provided with one capacity variable compressor 11A and two capacity constant compressors 12A, 13A, and the outdoor unit 10B is shown in FIG. 2. Large capacity constant compressors 11B, 12B, and 13B are provided, and the outdoor unit 10C is equally equipped with three capacity constant compressors 11C, 12C, and 13C.

Hereinafter, a control method of the multi-type air conditioner of the present invention will be described.

First, in steps S100 to S108 of FIG. 3, each compressor is started in a manner of sequentially setting the starting priority of each compressor for minimizing the refrigerant pressure and then sequentially starting the corresponding compressor according to the starting priority determined according to the increase or decrease of the heating and cooling load. Start up to minimize the refrigerant pool in the specific outdoor unit.

That is, in setting the priority for starting the compressor to minimize the refrigerant pool, the capacity variable compressor 1 is the first priority, and the next priority is set to the capacity schedule compressor 2 (12A) located in the same outdoor unit as the capacity variable compressor 1. After that, if the air-conditioning load is equal to or greater than the sum of the capacity variable compressor 1 (11A) and the capacity schedule compressor 2 (12A), the compressors of the outdoor units including only the capacity schedule compressor are sequentially started one by one. This is because the capacity Q1 of the variable capacity compressor 1 11A varies from the minimum capacity to the maximum capacity, and the maximum capacity is about five times the capacity of the constant capacity compressor, so that the variable capacity compressor 1 11A operates at the minimum capacity. In this case, the coolant pool is generated by the capacity schedule compressor 4 (11B) on the outdoor unit side in which the capacity-variable compressor 1 (11A) is installed. Therefore, if the first priority of the variable capacity compressor 1 (11A) is started, and then the first variable capacity compressor 2 (12A) or 3 of the outdoor unit in which the capacity variable compressor 1 (11A) is installed is started, the above-mentioned phenomenon is minimized. This reduces refrigerant pooling. For example, depending on the heating and cooling load, the start of each compressor is additionally started in order of 1 2-> 4 7 (11C) ... as shown by the hatched compressor sequence of FIGS. 4 to 7. However, for example, when capacity variable compressor 1 (11A) and capacity schedule compressor 2 (12A) are in operation and capacity schedule compressor 4 (11B) or capacity schedule compressor 7 (11C) should be started in the next order, Even if the operating capacity of the variable compressor 1 (11A) is not the maximum capacity of the compressor, if the heating and cooling load is determined to be greater than the combined capacity of the variable compressor 1 (11A) and the capacity of the constant compressor 2 (12A) capacity The constant compressor 4 (11B) or 7 (11C) is immediately started.

In summary, if the cooling and heating load P is larger than the capacity Q1 of the capacity variable compressor, one capacity constant compressor having a capacity Q2 in the outdoor unit in which the capacity variable compressor is installed is started in the next order. If the cooling / heating load P is greater than Q1 + Q2, the compressors of one outdoor unit are operated by additionally starting one compressor of each outdoor unit sequentially according to the arbitrary operation priority of the outdoor unit consisting of the capacity constant compressors according to the load. If the outdoor unit does not exist, the capacity of the two or more compressors to operate is not to be an outdoor unit consisting of only a constant compressor.

In addition, when the operation state of the outdoor unit in which the capacity variable compressor 1 (11A) is installed is being operated by the capacity variable compressor and the capacity constant compressor, the cooling / heating load P is maintained even if the capacity variable compressor 1 (11A) is not operating at the maximum allowable capacity. If it is predicted to be larger than Q1 + Q2, the compressor of the outdoor unit which consists only of a certain constant compressor is started. As a result, the more compressors installed in the system, the faster the compressor can be started. Therefore, it is possible to solve the problem of the long time required to maintain proper cooling and heating efficiency.

As described in detail above, the present invention enables a combination of a modular outdoor unit which can be configured as a single pipe by connecting independent outdoor units and outdoor units together, and connecting a single pipe connecting the outdoor units to several indoor units again. If only the pulsating variable compressor is operated in a specific outdoor unit by determining the compressor priority of the modular multi heat pump system that can realize cooling and heating of each indoor unit, if the operating capacity of the other outdoor unit is large, Since the refrigerant can not be discharged during no-load operation time, the pulsating compressor minimizes the coolant phenomena occurring in the outdoor unit operating with a small capacity and the capacity of the outdoor heat exchanger can be properly used to effectively use the outdoor heat exchanger to improve the system efficiency. Improve.

Claims (5)

In the control method of the multi-type air conditioner in which several outdoor units are connected to the indoor unit by a common pipe, some of the capacity variable compressors and the capacity schedule compressors are provided in some outdoor units, and only the capacity schedule compressors are provided in the remaining outdoor units. Determining the starting priority of each compressor in consideration of minimizing the refrigerant pool, And sequentially starting each compressor on the basis of the determined starting priority according to an increase in heating and cooling loads. The control method of the multi-type air conditioner according to claim 1, wherein the starting order of the capacity variable compressor is set as the highest priority, and the capacity constant compressor of the outdoor unit to which the capacity variable compressor belongs is ranked next. The multi-type air conditioner according to claim 2, wherein the remaining capacity schedule compressors determine that there is no outdoor unit consisting of only the capacity schedule compressors in which two or more compressors are started when there are outdoor units in which no one compressor is started. Control method. According to claim 2, When the capacity variable compressor and the constant capacity compressor when operating, even if the capacity variable compressor is not operating at the maximum capacity, if the heating and cooling load is greater than the total capacity of the two compressors of the outdoor unit compressor consisting of only the constant capacity compressor Control method of a multi-type air conditioner, characterized in that the additional start. The method of claim 1, wherein the variable capacity compressor is a pulsation variable type compressor that adjusts a compression capacity by adjusting a compression time.

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