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A refrigerant bypassing and filtering apparatus of an air conditioner is disclosed which is capable of effectively removing foreign matter such as slag produced in a refrigerant line, not only when the air conditioner is initially operated, but also during normal operation of the air conditioner. Th

A refrigerant bypassing and filtering apparatus of an air conditioner is disclosed which is capable of effectively removing foreign matter such as slag produced in a refrigerant line, not only when the air conditioner is initially operated, but also during normal operation of the air conditioner. The apparatus includes at least one bypass line adapted to guide a refrigerant to bypass a main line through which the refrigerant flows between an outdoor unit and an indoor unit, a strainer arranged at the bypass line, a first valve arranged at the main line between opposite ends of the bypass line connected to the main line, and second valves arranged at the bypass line.

대표청구항 ▼

What is claimed is: 1. A refrigerant bypassing and filtering apparatus of an air conditioner comprising: at least one bypass line adapted to guide a refrigerant to bypass a main line through which the refrigerant flows between an outdoor unit and an indoor unit; a strainer arranged at the bypass li

What is claimed is: 1. A refrigerant bypassing and filtering apparatus of an air conditioner comprising: at least one bypass line adapted to guide a refrigerant to bypass a main line through which the refrigerant flows between an outdoor unit and an indoor unit; a strainer arranged at the bypass line; a first valve arranged at the main line between opposite ends of the bypass line connected to the main line; and second valves arranged at the bypass line. 2. The refrigerant bypassing and filtering apparatus according to claim 1, wherein the strainer is a bidirectional strainer through which the refrigerant is allowed to pass in forward and reverse directions. 3. The refrigerant bypassing and filtering apparatus according to claim 1, wherein the strainer is separably mounted to the bypass line. 4. The refrigerant bypassing and filtering apparatus according to claim 1, wherein the second valves are arranged at opposite sides of the strainer, respectively. 5. The refrigerant bypassing and filtering apparatus according to claim 1, wherein the strainer has a diameter larger than a pipe diameter of the bypass line. 6. The refrigerant bypassing and filtering apparatus according to claim 1, wherein the strainer comprises a hollow strainer body, and a filtering net fitted in the strainer body, the filtering net having a diameter larger than an inner diameter of the strainer body. 7. The refrigerant bypassing and filtering apparatus according to claim 6, wherein the filtering net is convex in a flow direction of the refrigerant in the strainer. 8. An air conditioner comprising: an outdoor unit; at least one indoor unit; a main line which connects the indoor unit to the outdoor unit; at least one bypass line arranged at a predetermined portion of the main line, and adapted to define a flow path through which a refrigerant in the main line is bypassed; a strainer arranged at the bypass line without changing a flow direction of the refrigerant bypassed through the bypass line, the strainer comprising a hollow strainer body having a diameter larger than a diameter of the bypass line, and a filtering net fitted in the strainer body; a first valve arranged at the main line between opposite ends of the bypass line connected to the main line; and second valves arranged at the bypass line at opposite sides of the strainer, respectively. 9. The air conditioner according to claim 8, wherein the at least one bypass line comprises: at least one bypass line arranged at a first refrigerant line of the main line, through which the refrigerant flows from the outdoor unit to the indoor unit, downstream from a discharge side of an outdoor heat exchanger arranged in the outdoor unit; and at least one bypass line arranged at a second refrigerant line of the main line, through which the refrigerant flows from the indoor unit to the outdoor unit, upstream from a suction side of a compressor arranged in the outdoor unit. 10. The air conditioner according to claim 9, wherein the bypass line arranged at the second refrigerant line is arranged between an indoor heat exchanger arranged in the indoor unit and an accumulator arranged in the outdoor unit. 11. The air conditioner according to claim 9, wherein: the at least one indoor unit comprises a plurality of indoor units connected to the second refrigerant line via a plurality of branch lines; and the bypass line is arranged between the compressor and the branch lines. 12. A method for controlling a refrigerant bypassing and filtering apparatus of an air conditioner, comprising: a bypass line opening step for opening a bypass line while closing a main line to guide a refrigerant to flow through the bypass line; a refrigerant filtering step for guiding the refrigerant to pass through a strainer; a strainer cleaning step; a reverse refrigerant filtering step for guiding the refrigerant to pass through the strainer in a direction reverse to a refrigerant flow direction at the refrigerant filtering step; and a main line opening step for opening the main line while closing the bypass line to guide the refrigerant to flow through the main line. 13. The method according to claim 12, wherein the bypass line opening step comprises the steps of closing a first valve arranged at the main line, and opening second valves respectively arranged at the bypass line at opposite sides of the strainer. 14. The method according to claim 12, wherein the main line opening step comprises the steps of opening a first valve arranged at the main line, and closing second valves respectively arranged at the bypass line at opposite sides of the strainer. 15. The method according to claim 12, wherein the strainer cleaning step comprises the steps of: closing a first valve arranged at the main line, and closing second valves respectively arranged at the bypass line at opposite sides of the strainer; separating the strainer from the bypass line; removing foreign matter present in the strainer; and mounting the strainer to the bypass line. 16. The method according to claim 12, further comprising: an air purging step for removing air from the bypass line after execution of the strainer cleaning step. 17. The method according to claim 12, further comprising: an additional strainer cleaning step executed after execution of the reverse refrigerant filtering step. 18. The method according to claim 17, further comprising: an air purging step for removing air from the bypass line after execution of the additional strainer cleaning step.