KR101493090B1 - Air conditioning system and control method thereof - Google Patents

Abstract

The present invention relates to an air conditioning system and a control method thereof. In the present invention, the operation for defrosting a plurality of outdoor units is controlled to start at a different point in time. Therefore, according to the present invention, it is possible to remove the property while minimizing the deterioration of the heating efficiency.

Air conditioning system, air conditioning unit, outdoor unit, defrosting

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioning system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioning system, and more particularly, to an air conditioning system for performing cooling and heating and ventilation of a room and a control method thereof.

The air conditioner is an appliance for heating and cooling the room. Recently, an air conditioning system for cooling and heating a plurality of indoor units has been developed. The air conditioning system generally includes one air conditioning unit and a plurality of outdoor units connected to the air conditioning unit. The air conditioning unit of the air conditioning system is provided with a structure for ventilation of the room. However, in the case of such an air conditioning system, the performance of the outdoor heat exchanger during the heating operation is removed by the defrosting operation. In such a defrosting operation, the indoor heating is not efficiently performed.

It is an object of the present invention to provide an air conditioning system and a control method thereof that are configured such that a decrease in heating efficiency is minimized when the air conditioner is removed.

According to an aspect of the present invention, there is provided an air conditioner comprising: at least one indoor unit for storing indoor air; An air conditioning unit having at least one fan for sucking in air of air and a plurality of indoor heat exchangers for exchanging heat with air discharged into the room; And a plurality of outdoor units each having an outdoor heat exchanger connected to the indoor heat exchanger in a one-to-one correspondence manner, the operation for defrosting to remove the frosted state during the heating operation is started at a different point in time; .

Another embodiment of the present invention is a heating operation step in which an air conditioning unit is operated for heating an indoor room for air conditioning and a plurality of outdoor units connected to the air conditioning unit are started to operate at different times; And a defrosting operation step in which an operation for defrosting the outdoor unit is started according to a start time of the operation of the outdoor unit in the heating operation step; .

In another embodiment of the present invention, there is provided a method of operating an air conditioner, comprising: a heating operation step in which an air conditioning unit and a plurality of outdoor units connected to the air conditioning unit are operated for heating the room for air conditioning; And a defrost operation step in which the outdoor unit is started to operate at a different time point for defrosting; .

According to another embodiment of the present invention, there is provided a method of controlling an air conditioner, comprising: starting an operation of the air conditioner unit for heating the room for air conditioning, and starting operation at a time when a plurality of outdoor units connected to the air conditioner unit are different; And when the start of operation for defrosting the outdoor unit differs according to the time when the operation of the outdoor unit is started for heating, the operation for defrosting the outdoor unit is started according to the start time of the operation for defrosting the outdoor unit, When an operation for defrosting an outdoor unit is started at the same time, an operation for defrosting is initiated from any outdoor unit among the outdoor units having a relatively large amount of performance; .

According to the present invention, there is an advantage that it is possible to remove the property while minimizing the deterioration of the heating efficiency.

Hereinafter, embodiments of an air conditioning system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing an embodiment of an air conditioning system according to the present invention.

Referring to FIG. 1, the air conditioning system according to the present embodiment includes one air conditioning unit 100, a plurality of outdoor units 200, and a control unit 300. The air conditioning unit 100 is configured to be able to cool and heat the room and ventilate the room for air conditioning. Each of the outdoor units 200 is connected to the air conditioning unit 100. In FIG. 1, the three outdoor units 200 are connected to the air conditioning unit 100, but the number of the outdoor units 200 is not limited thereto. The controller 300 controls the cooling or heating operation of the air conditioning system, that is, the operation of the air conditioning unit 100 and the outdoor unit 200.

More specifically, an indoor air intake chamber 111 is provided in a casing 110 of the air conditioning unit 100. The indoor intake chamber 111 is a space in which air (hereinafter referred to as indoor air) is sucked from the inside of the room. To this end, the indoor air intake chamber (111) communicates with the room through the indoor air intake port (112). Practically, the indoor air intake port 112 will communicate with the room by a duct (not shown).

In addition, an inside of the casing 110 is provided with an outdoor air intake chamber 113 communicating with the indoor air intake chamber 111. The outdoor air intake chamber 113 is a space in which air (hereinafter, referred to as "outdoor air") is sucked from outside and mixed with indoor air received from the indoor air intake room 111 for ventilation. To this end, the outdoor air intake chamber (113) communicates with the outside through the outdoor air inlet (114). Of course, the outdoor air intake port 114 may communicate with the outside by a duct (not shown) like the indoor air intake port 112.

An outdoor exhaust chamber 115 is provided in the casing 110. The outdoor exhaust chamber 115 receives the mixed air (hereinafter referred to as 'mixed air') from the indoor air and the outdoor air in the outdoor air intake chamber 113 and discharges a part of the indoor air to the outdoor or the indoor air It is a receiving place. The outdoor exhaust chamber 115 communicates with the outdoor and the outdoor air intake chambers 113 through the outdoor air outlet 116 and the communication opening 117.

An indoor exhaust chamber (118) communicating with the outdoor exhaust chamber (115) is provided in the casing (110). The indoor exhaust chamber 118 is a space for receiving mixed air or room air passing through the outdoor exhaust chamber 115 and discharging it to the room in a state of exchanging heat with the indoor heat exchanger 150 to be described later. To this end, the indoor exhaust chamber (118) communicates with the room through an indoor exhaust port (119).

Meanwhile, the first and second fans 120 and 130 are installed in the casing 110. The first and second fans 120 and 130 form a flow of air flowing in the interior of the casing 110 and / or outdoors. More specifically, when the first and second fans 120 and 130 are driven, the indoor air is sucked from the room through the indoor intake port 112 into the indoor air intake chamber 111, And the indoor air and the outdoor air in the outdoor air intake chamber 113 and the air in the outdoor air exhaust chamber 115 through the outdoor air outlet 116, And discharging mixed air from the indoor exhaust chamber 118 through the indoor exhaust port 119 to the indoor space. Of course, such indoor and outdoor air can be input and output by one or more than three fans.

A filter 140 is installed in the outdoor exhaust chamber 115. The filter 140 flows through the outdoor exhaust chamber 115 to filter various foreign substances contained in the mixed air delivered to the indoor exhaust chamber 118.

A plurality of indoor heat exchangers (150) are installed in the indoor exhaust chamber (118). The indoor heat exchanger 150 exchanges heat with the mixed air or indoor air transferred from the outdoor exhaust chamber 115 to the indoor exhaust chamber 118 to cool or heat the mixed air or the indoor air. Hereinafter, the first to fourth heat exchangers 151, 152, 153 and 154 will be referred to as the left side in the drawing for convenience of explanation.

Dampers 161, 163, and 165 are installed on the outdoor air inlet 114, the outdoor air outlet 116, and the communication port 117, respectively. Hereinafter, for convenience of explanation, the first damper 161 installed on the outdoor air inlet 114, the second damper 163 installed on the outdoor air outlet 116, and the second damper 163 installed on the outdoor air outlet 116 And the third damper 165 is installed. The first, second, third, and fourth dampers 161, 163, and 165 may selectively open or close the outdoor air inlet 114, the outdoor air outlet 116, or the communication opening 117, . Therefore, by controlling whether the first to third dampers 161, 163, 165 open or close the outdoor air inlet 114, the outdoor air outlet 116, or the communication opening 117, And the ventilation rate are determined. For example, when the ventilation rate is 30%, the first and second dampers 161 and 163 open 30% of the outdoor air inlets 114 and the outdoor air outlets 116, respectively, 165 open 70% of the communication hole 117. In the present embodiment, the outdoor air inlet 114, the outdoor air outlet 116, and the communication hole 117 are opened in accordance with the angle at which the first to third dampers 161, 163, The opening / closing degree or the degree of opening, but the present invention is not limited thereto. For example, the first, second, third, and fourth dampers 161, 163, and 165 may be disposed in the outdoor air intake port 114, the indoor air intake port 116, and the communication port 117 Or the degree of opening thereof.

The outdoor unit 200 is provided with various components that constitute a heat exchange cycle such as an outdoor heat exchanger and a compressor. At this time, the outdoor heat exchangers are respectively connected to the indoor heat exchanger 150 in a one-to-one correspondence manner. Hereinafter, the outdoor units 200 connected to the first to fourth indoor heat exchangers 151, 152, 153 and 154 are referred to as first to fourth outdoor units 210, 220, and 230 230).

Meanwhile, the control unit 300 controls the operation of the air conditioning unit 100 and the outdoor unit 200 during a cooling operation or a heating operation. Particularly, the control unit 300 controls the air conditioning unit (not shown) to control the indoor temperature to reach the set heating temperature more quickly, and to prevent the heating efficiency from being lowered due to the defrosting of the outdoor unit 200 during the heating operation 100 and the outdoor unit 200 are controlled.

More specifically, when the heating operation is started, the control unit 300 controls the ventilation rate by the air conditioning unit 100 to be equal to or less than the set ventilation rate until the indoor temperature reaches the set heating temperature. Here, the room temperature and the ventilation rate can be set by the user or set according to the indoor environment. For example, even if the user sets the heating temperature and the ventilation rate to 28 ° C and 30%, respectively, the controller 300 controls the first to third dampers 161 and 163 until the room temperature reaches 28 ° C, The ventilation rate is controlled to be less than 30% or ventilation by controlling whether the outdoor air intake port 114, the outdoor air intake port 114, and the communication port 117 are open or closed or not.

Also, the controller 300 controls the operation for defrosting the outdoor unit 200 in order. To this end, the control unit 300 controls the start time of the operation of the outdoor unit 200 during the heating operation to be different from each other. For example, the control unit 300 may control the operation of the outdoor unit 200 to be sequentially started at a predetermined time interval during a heating operation. Therefore, the amount of frosting is different between the outdoor unit 200, more specifically, the outdoor heat exchanger of the outdoor unit 200, so that the start time for defrosting the outdoor unit 200 is different.

As described above, even if the outdoor unit 200 starts to operate at the time of heating operation, the outdoor units 210, 220, 230, and 240 The first to fourth outdoor units 210, 220, 230, and 240 are connected in a one-to-one manner to the outdoor heat exchangers of the first to fourth outdoor units 210, 220, 230, and 240 by differences in humidity, temperature, The indoor heat exchangers 151, 152, 153 and 154 may be different in the amount of the air introduced into the outdoor unit 200 depending on the difference in the temperature of the air passing through the indoor heat exchangers 151, 152, 153 and 154. In other words, a relatively large amount of power is supplied to any one or two or more of the outdoor units 200, which are operated relatively late at the time of heating operation, so that two or more of the outdoor units 200 A positive sex can be conceived.

Therefore, the control unit 300 may determine that the driving for defrosting should be started at the same time according to the difference in the amount of the two or more outdoor units 200 that are started to operate at different times from each other. If it is determined that two or more of the outdoor units 200 start the defrosting operation at the same time, the control unit 300 controls the defrosting operation of the outdoor unit 200 Is different from the start time. The determination of the amount of congestion is based on the temperature difference between the outdoor temperature at which the first to fourth indoor / outdoor units 210, 220, 230 and 240 are installed and the refrigerant flowing through the outdoor heat exchanger And so on. When the operation for defrosting one of the outdoor units 200 is completed, the control unit 300 controls the defrosting operation of the other one of the outdoor units 200 to start defrosting, Can be controlled to be sequentially started at predetermined time intervals.

When the indoor temperature is not maintained at the predetermined heating temperature in a state where at least one outdoor unit 200 operates for defrosting, the control unit 300 adjusts the ventilation rate so that the indoor temperature reaches the set heating temperature . This is to prevent a phenomenon in which one or more of the outdoor units 200 fail to secure heating efficiency by operation for defrosting.

Hereinafter, embodiments of a control method of an air conditioning system according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a control flowchart showing an embodiment of a control method of an air conditioning system according to the present invention.

2, first, when an operation signal for starting heating operation including a heating temperature and a ventilation rate is input, the control unit 300 controls the ventilation rate to be set until the room temperature reaches the set heating temperature The control of the ventilation rate is performed by controlling the angles of the first to third dampers 161 to 166 to adjust the angle of the outdoor air inlet 114, the outdoor air outlet 116, 117 or the degree of opening and closing thereof.

The control unit 300 operates the air conditioning unit 100 and the outdoor unit 200 for heating operation. (S13) At this time, the controller 300 controls the operation of the outdoor unit 200 .

The control unit 300 determines whether the room temperature has reached the set heating temperature (S15). If it is determined that the room temperature has reached the set heating temperature, the control unit 300 determines that the ventilation (S17)

Next, the controller 300 determines whether there is one outdoor unit 200 requiring defrosting (S19). If the controller 300 determines that the outdoor unit 200 requires defrosting, For example, when defrosting is required only in the first outdoor unit 210 in FIG. 1, the operation for defrosting the first outdoor unit 210 is controlled to start (S21)

If the number of the outdoor units 200 requiring defrosting is not one in step 19, the controller 300 determines whether there are two or more outdoor units 200 requiring defrosting. (S23) If it is determined in step 23 that two or more of the outdoor units 200 need defrosting, the controller 300 controls the outdoor unit 200 so that operations for defrosting the outdoor unit 200 are sequentially started according to the amount of defrosting The operation for defrosting two or more of the outdoor units 200 in the twenty-fifth operation is performed by controlling the defrosting of any one of the outdoor units 200, for example, the defrosting of the first outdoor unit 210 The operation for defrosting the other one of the outdoor units 200, for example, the second outdoor unit 220, can be controlled to be started.

Meanwhile, the controller 300 determines whether the operation for defrosting the outdoor unit 200 is completed in the step 21 or S25 (S27). In operation 27, The control unit 300 controls the air conditioning unit 100 and the outdoor unit 200 operated for defrosting one or more defrosts to perform heating operation (S29)

The control unit 300 determines whether or not the room temperature is maintained at the set heating temperature. (S31) If the room temperature is maintained at the set heating temperature in the step 31, (S33)

However, if it is determined in step 31 that the room temperature is not maintained at the preset heating temperature, the controller 300 adjusts the ventilation rate. (S35) The controller 300 determines whether or not the room temperature has reached the set heating temperature by controlling the ventilation rate in step 37. If it is determined in step 37 that the room temperature has reached the set heating temperature, And performs ventilation control at the ventilation rate set in step 33.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. .

According to the air conditioning system and the control method of the present invention configured as described above, the following effects can be expected.

First, according to the present invention, the start timing of the operation of the outdoor unit during the heating operation is controlled to be different from each other, so that the operation for defrosting the outdoor unit substantially starts at a time point different from each other. Therefore, the deterioration of the heating capacity due to the defrosting of the outdoor unit can be minimized.

Further, in the present invention, even when two or more outdoor units of the outdoor units are determined to start the operation for defrosting, the operation for defrosting is sequentially controlled in accordance with the amount of the defrosting. Therefore, even if it is determined that the operation for defrosting two or more of the outdoor units is started at the same time according to the external environment such as the installation environment of the outdoor unit, the operation for defrosting at least two of the outdoor units is not started at the same time, The deterioration of the heating ability due to the defrosting can be minimized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of an air conditioning system according to the present invention; FIG.

2 is a control flowchart showing an embodiment of a method of controlling an air conditioning system according to the present invention.

Claims (20)

At least one fan for sucking air from the room for air conditioning and discharging air into the room and discharging the air into the room for ventilation and sucking air from the room outside, and heat exchange with air discharged to the room An air conditioning unit having a plurality of indoor heat exchangers for the indoor heat exchanger; And A plurality of outdoor units each having an outdoor heat exchanger connected to the indoor heat exchanger in a one-to-one correspondence manner, the operation for defrosting for removal of the frost during the heating operation is started at a different point in time; Lt; / RTI > When the operation for defrosting two or more outdoor units out of the outdoor units whose operation is started at a predetermined time interval at the time of heating operation is the same, the operation for defrosting the outdoor unit at different times Wherein the air conditioning system is an air conditioning system. delete delete The method according to claim 1, When the operation for defrosting of two or more outdoor units of the outdoor units whose operation is started at a predetermined time interval at the time of heating operation is the same, when the operation for defrosting a relatively large amount of outdoor units is completed, And an operation for defrosting the outdoor unit is started. The method according to claim 1 or 4, Wherein the amount of the frost impregnated in the outdoor unit is determined according to a difference between the temperature of the outdoor heat exchanger and the outdoor temperature. The method according to claim 1, Wherein the air conditioning unit ventilates the room air at a rate lower than a set ventilation rate at the initial stage of heating operation. The method according to claim 1, Wherein the air conditioning unit ventilates the room air at a rate lower than the ventilation rate until the temperature of the room reaches the set heating temperature. The method according to claim 1, The air conditioning unit is set until the indoor temperature reaches the set heating temperature, except when the indoor temperature is maintained at the set heating temperature in the state where at least one outdoor unit of the outdoor unit starts operation for defrosting The ventilation system is ventilated at a rate lower than the ventilation rate. 9. The method according to any one of claims 1 to 8, Wherein the air conditioning unit adjusts the opening degree of the outdoor air outlet for ventilation to the outside and the outdoor air inlet for air from the outside for ventilation or adjusts the ventilation rate by adjusting the driving speed of the fan. A heating operation step in which an air conditioning unit is operated for heating the room for air conditioning and operation is started at a time when a plurality of outdoor units connected to the air conditioning unit are different; And A defrosting operation step in which an operation for defrosting the outdoor unit is started according to a time point at which the operation of the outdoor unit is started in the heating operation step; Lt; / RTI > In the defrosting operation step, when an operation for defrosting two or more outdoor units of the outdoor units is the same, a control of the air conditioning system in which an operation for defrosting the outdoor unit is sequentially started in accordance with the amount of defrosting Way. delete 11. The method of claim 10, In the defrosting operation step, when the operation for defrosting two or more outdoor units of the outdoor unit is the same, when the operation for defrosting a relatively large amount of outdoor units is completed, an operation for defrosting another outdoor unit Wherein the air-conditioning system comprises: delete delete 13. The method according to claim 10 or 12, Wherein in the defrost operation step, the amount of the frost on the outdoor unit is determined according to the difference between the outdoor temperature and the outdoor temperature of the outdoor unit. 11. The method of claim 10, Wherein in the heating operation step, the air conditioning unit ventilates the room air at a rate lower than the ventilation rate set until the temperature of the room reaches the set heating temperature. 11. The method of claim 10, In the heating operation step, the air conditioning unit ventilates the room air at a rate lower than the ventilation rate set at the initial stage of the heating operation. 11. The method of claim 10, In the defrosting operation step, in the case where the indoor temperature is maintained at the set heating temperature in a state where at least one outdoor unit of the outdoor unit starts the operation for defrosting, the indoor unit is heated to the set heating temperature The indoor air is ventilated at a rate lower than the set ventilation rate. The air conditioning unit is operated for heating the room for air conditioning, and the operation starts when the plurality of outdoor units connected to the air conditioning unit are different; And When the start time of the operation for defrosting the outdoor unit differs according to the start time of the operation of the outdoor unit for heating, the operation for defrosting the outdoor unit starts according to the start time of the operation for defrosting the outdoor unit, The operation for defrosting is initiated from any of the outdoor units of the outdoor units having a relatively large amount of performance; And controlling the air conditioning system. 20. The method of claim 19, Wherein an operation for defrosting another outdoor unit among the outdoor units is started when defrosting operation is completed from any outdoor unit among the outdoor units in which a relatively large amount of air is introduced.

Images