Refrigeration cycle device

摘要

In a heating mode, a refrigerant circuit is switched in which a refrigerant is decompressed by an ejector to flow into a gas-liquid separator, and a separated gas phase refrigerant is introduced into an intermediate-pressure suction port of a compressor and at the same time a separated liquid phase refrigerant flows to at least a second variable throttle valve, an interior evaporator, and a suction port of the compressor, in this order. In a cooling mode, a refrigerant circuit is switched in which the refrigerant flowing out of the interior condenser is decompressed by a first variable throttle valve through an exterior heat exchanger to flow into the gas-liquid separator, and a separated gas phase refrigerant is introduced into the intermediate-pressure suction port of the compressor, and at the same time a separated liquid phase refrigerant flows to the second variable throttle valve, the interior evaporator, and the suction port of the compressor, in this order.

主权项

1. A refrigeration cycle device comprising:
a compressor that introduces, compresses, and then discharges a refrigerant; a first utilization-side heat exchanger that exchanges heat between the refrigerant discharged from a discharge port of the compressor and a heat exchange target fluid; a second utilization-side heat exchanger that exchanges heat between the refrigerant and the heat exchange target fluid, and causes the refrigerant to flow into a suction port of the compressor; an exterior heat exchanger that exchanges heat between the refrigerant and outside air; an ejector having a pressure boosting section, an ejector suction port and a nozzle section, when refrigerant passes through the nozzle section the refrigerant is decompressed; in the pressure boosting section a first portion of the refrigerant which is jetted from the nozzle section is mixed with a second portion of the refrigerant drawn from the ejector suction port by absorption action of the injection of the first portion of the refrigerant jetted from the nozzle section, so as to increases a pressure of the first portion o the re refrigerant mixed with the second portion of the refrigerant; a gas-liquid separation section in which the refrigerant flowing out of the ejector is separated into gas phase refrigerant and liquid phase refrigerant; an intermediate-pressure refrigerant passage that causes the gas phase refrigerant separated in the gas-liquid separation section to be introduced to an intermediate-pressure suction port provided in the compressor and to be joined to the refrigerant, that enters the compressor port from the second utilization-side heat exchanger, in a compression process of the compressor; a first variable throttle valve decompressing the refrigerant flowing through a refrigerant passage that connects the exterior heat exchanger to the gas-liquid separation section; a second variable throttle valve decompressing the refrigerant flowing through a refrigerant passage that connects the second utilization-side heat exchanger to the gas-liquid separation section; a refrigerant circuit switching section that switches a refrigerant circuit in which the refrigerant is circulated in a cycle; and a controller, the controller being configured to operate the refrigerant circuit in a first operation mode and a second operation mode, wherein in the first operation mode, the refrigerant flowing out of the first utilization-side heat exchanger flows into the nozzle section, and the liquid phase refrigerant separated in the gas-liquid separation section comprises a first liquid phase refrigerant portion and a second liquid phase refrigerant portion, wherein the first liquid phase refrigerant portion flows out the gas-liquid separation section through a first outlet port into the second utilization-side heat exchanger through the second variable throttle valve and at the same time the second liquid phase refrigerant portion flows out of the gas-liquid separation section through a second outlet port through the first variable throttle valve, the exterior heat exchanger, and the ejector suction port in this order, and in the second operation mode, the refrigerant flowing out of the first utilization-side heat exchanger flows through the exterior heat exchanger, the first variable throttle valve, and the gas-liquid separation section in this order, and the liquid phase refrigerant separated in the gas-liquid separation section flows into the second utilization-side heat exchanger through the second variable throttle valve.