KR910021567A - Air conditioner - Google Patents

Abstract

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Description

Air conditioner

Since this is an open matter, no full text was included.

1 is a refrigerant circuit diagram of an air conditioner according to one embodiment of the present invention, and FIG. 2 and FIG. 3 are refrigerant circuit diagrams showing another embodiment of the present invention.

Claims (7)

Refrigerant circuit formed by connecting compressor, 3-way switching valve, 4-way switching valve, outdoor side heat exchanger, first simmering unit, second simmering unit, indoor side heat exchanger, and accumulator in order by refrigerant pipe And between the first and second simmering devices while being configured to be heat- exchangeable between a suction side pipe connecting between the accumulator and the compressor and branching between the three-way switching valve and the four-way switching valve. A second bypass circuit having a first bypass circuit connected bypass to the pipe side and having a check valve for bypassing the first decompression device constituting the first simmering apparatus; And a third bypass circuit having a check valve for bypassing the second pressure reducing device constituting the simmering device, and through the three-way switching valve in the discharge side pipe of the compressor, A fourth bypass circuit having an inner diameter that is thinner than the inner diameter of the discharge side pipe connected by bypass to the pipe side between the devices, and between the discharge side pipe of the compressor and the three-way switching valve via the pressure regulating valve; And a fifth bypass circuit connected by bypass to the piping side between the second assembling apparatus, and configured to perform the defrosting operation by switching the three-way switching valve to open the fourth bypass circuit. Air conditioning system. The air conditioner according to claim 1, wherein when the room temperature is lower than or equal to a predetermined value, the three-way switching valve is switched to the heating operation mode at a predetermined time interval. An eighth bypass circuit is provided for bypassing the accumulator via a solenoid valve in a piping between the indoor heat exchanger and the second simmering apparatus. Is less than or equal to the predetermined value, the eighth bypass circuit is opened at regular time intervals. The compressor, the four-way valve, the outdoor side heat exchanger, the first simmering apparatus, the second simmering apparatus, and the indoor side heat exchanger are connected in sequence to the refrigerant pipes, and are independent of the first and second By having a refrigeration cycle circuit and having a common blower blown by the indoor side heat exchanger of the first and second refrigeration cycle circuits, the first pressure reducing device constituting the first cooking device is bypassed. A second bypass circuit having a shock valve for passing the refrigerant through the refrigerant toward the outdoor side heat exchanger, and a third bypass circuit having a shock valve for bypassing the second pressure reducing device constituting the second simmering device. And a fourth bypass circuit having a pipe having an inner diameter smaller than the inner diameter of the discharge side pipe connected to the first and second simmering devices from the discharge side pipe of the compressor via a three-way switching valve. Are respectively installed in the first and second refrigeration cycle circuits, and a part of the discharge refrigerant of the compressor of the first refrigeration cycle circuit is opened to the suction side of the compressor of the first refrigeration cycle circuit. The bypass and the sixth bypass circuit configured to exchange heat with the refrigeration suction path of the compressor of the second refrigeration cycle circuit during the bypass, and discharge of the compressor of the second refrigeration cycle circuit. A portion of the refrigerant is bypassed to an intake side of the compressor of the second refrigeration cycle circuit via an opening valve, and is capable of heat exchange with the refrigerant suction path of the compressor of the first refrigeration cycle circuit during the bypass. A seventh bypass circuit, and the third bypass valve of one of the first and second refrigeration cycle circuits; And switching to the circuit side, and opening the opening valve of the other refrigeration cycle circuit to perform defrosting operation. Independent first and second refrigeration units, each of which is connected to a compressor, a four-way valve, an outdoor side heat exchanger, a first simmering apparatus, a second simmering apparatus, and an indoor side heat exchanger in order by refrigerant piping. In the case of having a cycle circuit and having a common blower blown by the indoor side heat exchanger of the first and second refrigeration cycle circuits, the first pressure reducing device constituting the first cooking device is bypassed. A second bypass circuit having a check valve for passing the refrigerant in the direction of the outdoor side heat exchanger, and a third bypass circuit having a check valve for bypassing the second pressure reducing device constituting the second simmering device. And a fourth via having a pipe having an inner diameter smaller than the inner diameter of the discharge side pipe connected to the first and second simmering devices from the discharge side pipe of the compressor via the three-way switching valve. The first and second refrigeration cycle circuits are respectively provided with a pressure regulating valve connected in parallel to the switch circuit and the fourth bypass circuit and opened according to the high pressure side pressure of the compressor. While a part of the discharged refrigerant of the compressor of the refrigeration cycle circuit is bypassed to the suction side of the compressor of the first refrigeration cycle circuit via an on / off valve, and during the bypass of the compressor of the second refrigeration cycle circuit. A sixth bypass circuit configured to exchange heat with the refrigeration suction path, and a portion of the discharge refrigerant of the compressor of the second refrigeration cycle circuit to the input side of the compressor of the second refrigeration cycle circuit via an opening valve. A seventh structure configured to allow heat exchange with the refrigerant suction path of the compressor of the first refrigeration cycle circuit during the bypass. By-pass circuits are provided, and the three-way switching valves of one of the first and second refrigeration cycle circuits are switched to the fourth bypass circuit side, and the open / close valves of the other refrigeration cycle circuits are provided. Air conditioner, characterized in that configured to open the defrosting operation. Independent first and second independent compressors, four-way switching valves, outdoor side heat exchangers, first simmering units, second simmering units, and indoor side heat exchangers, each connected by refrigerant piping in sequence. By having a refrigeration cycle circuit and having a common blower blown by the indoor side heat exchanger of the first and second refrigeration cycle circuits, the first pressure reducing device constituting the first cooking device is bypassed. A third bypass having a first bypass circuit having a shock valve for passing the refrigerant toward the outdoor side heat exchanger and a second valve for bypassing the second pressure reducing device constituting the second simmering device. A fourth bypass circuit having a pipe having an inner diameter smaller than the inner diameter of the discharge side pipe connected to the first and second simmering devices through a three-way switching valve in the discharge side pipe of the compressor; The first and second simmering devices of the first refrigeration cycle circuit, wherein a part of the discharged refrigerant of the compressor of the first refrigeration cycle circuit is installed in the first and second refrigeration cycle circuits, respectively. A sixth bypass configured to bypass the decompression device and the open / close valve bypassing the decompression device, and to exchange heat with the refrigerant suction path of the compressor of the second refrigeration cycle circuit. A decompression device and an opening valve for bypassing the decompression device between the circuit and a part of the discharge refrigerant of the compressor of the second refrigeration cycle circuit between the first and second simmering devices of the second refrigeration cycle circuit. And bypassing the seventh bypass circuit configured to exchange heat with the freezing suction path of the compressor of the first refrigeration cycle circuit during the bypass. And the three-way switching valve of one of the first and second refrigeration cycle circuits is switched to the fourth bypass circuit side, and the opening valve of the other of the refrigeration cycle circuits is opened to defrost. An air conditioner, configured to perform operation. Independent first and second refrigeration units formed by connecting a compressor, a four-way switching valve, an outdoor side heat exchanger, a first simmering apparatus, a second simmering apparatus, and an indoor side heat exchanger in sequence with refrigerant pipes. In a common use of a blower provided with a cycle circuit and blown to the indoor side heat exchanger of the first and second refrigeration cycle circuits, the first and the second through the three-way switching valve in the discharge side pipe of the compressor. A fourth bypass circuit having a pipe having an inner diameter thinner than an inner diameter of the discharge side pipe connected between the two assembling devices, and a check valve for bypassing the first decompression device constituting the first assembling device. A third bypass circuit having a bypass circuit of 2 and a check valve for bypassing the second decompression device constituting the second assembling device, and at the same time, the discharge side piping of the compressor and the three-way switching Val A fifth bypass circuit connected to the first and second simmering devices via a pressure regulating valve between the first and second refrigeration cycle circuits, respectively; Part of the discharged refrigerant of the compressor in the circuit between the first and second simmering devices of the first refrigeration cycle circuit through a decompression device and an opening valve for bypassing the decompression device, And a sixth bypass circuit configured to exchange heat with the refrigeration suction path of the compressor of the second refrigeration cycle circuit, and a part of the discharged refrigerant of the compressor of the second refrigeration cycle circuit. Between the first and second simmering devices of the circuit bypasses the decompression device and the opening valve for bypassing the decompression device, and at the same time, A seventh bypass circuit configured to be heat-exchangeable with the refrigeration suction path of the compressor of the first refrigeration cycle circuit, and the three-way switching valve of one of the first and second refrigeration cycle circuits; And the defrosting operation is performed by switching to the fourth bypass circuit side and opening the open / close valve of the other refrigeration cycle circuit. ※ Note: The disclosure is based on the initial application.