JP2009174836A5 - - Google Patents

Claims (9)

  A grooved body with a groove toward the liquid-phase outlet pipe is provided in a part of the gas-liquid separation chamber, and a narrow space is formed upstream of the gas-liquid separation chamber with an outer body and an inlet partition, and guided from the inlet pipe. After the gas-liquid two-phase flow passes through the narrow space, the gas-liquid two-phase flow is guided from the grooved body to the gas-liquid separation chamber, and the gas-liquid two-phase flow is guided to the liquid-phase outlet pipe through the grooved body. In the gas-liquid separation device characterized in that the phase has a gas-liquid separation mechanism that leads from the gas-liquid separation chamber to the gas-phase outlet pipe, the surface of the grooved body has a substantially wave shape inclined in the flow direction A gas-liquid separator characterized by.   The gas-liquid separator according to claim 1, wherein a substantially wave shape inclined in the flow direction provided on the surface of the grooved body is formed so as to spread radially outward in the flow direction. Gas-liquid separator.   A grooved body with a groove toward the liquid-phase outlet pipe is provided in a part of the gas-liquid separation chamber, and a narrow space is formed upstream of the gas-liquid separation chamber with an outer body and an inlet partition, and guided from the inlet pipe. After the gas-liquid two-phase flow passes through the narrow space, the gas-liquid two-phase flow is guided from the grooved body to the gas-liquid separation chamber, and the gas-liquid two-phase flow is guided to the liquid-phase outlet pipe through the grooved body. In the gas-liquid separator having a gas-liquid separation mechanism in which the phase is guided from the gas-liquid separation chamber to the gas phase outlet pipe, the groove is provided at an angle α with respect to the center line of the outer body. A gas-liquid separator characterized by. A grooved body with a groove toward the liquid-phase outlet pipe is provided in a part of the gas-liquid separation chamber, and a narrow space is formed upstream of the gas-liquid separation chamber with an outer body and an inlet partition, and led from the inlet pipe. After the gas-liquid two-phase flow passes through the narrow space, the gas-liquid two-phase flow is guided from the grooved body to the gas-liquid separation chamber, and the gas-liquid two-phase flow is guided to the liquid-phase outlet pipe through the grooved body. A gas-liquid separation device having a gas-liquid separation mechanism in which a phase is guided from a gas-liquid separation chamber to a gas-phase outlet pipe. A gas-liquid separation device characterized in that the lower part of the pipe is connected to the upper part of the entrance partition in a state where fluid can be conducted . 3. The gas-liquid separator according to claim 1, wherein the groove is provided at an angle α with respect to the center line of the outer body. 4. The gas-liquid separator according to any one of claims 1 to 3 , wherein a gas-phase outlet pipe is provided at an upper part of the gas-liquid separator, and a lower part of the gas-phase outlet pipe is provided at an upper part of the inlet partition. A gas-liquid separator characterized by being connected in a fluid-movable state. A refrigeration apparatus comprising a gas-liquid separation apparatus, wherein the gas-liquid separation apparatus according to any one of claims 1 to 6 is incorporated in a refrigeration cycle such as an air conditioner. An outlet pipe of a decompressor in a refrigeration cycle is connected to the two-phase inlet pipe of the gas-liquid separator according to any one of claims 1 to 6 , and the liquid-phase outlet pipe of the gas-liquid separator is evaporated A refrigeration apparatus comprising: a gas-liquid separation apparatus connected to a pipe line leading to a compressor; and a gas-phase outlet pipe of the gas-liquid separator connected to a suction pipe of a compressor via a bypass path and a resistance adjuster. A compressor discharge pipe in the refrigeration cycle is connected to the two-phase inlet pipe of the gas-liquid separator according to any one of claims 1 to 6 , and the flow rate of the liquid-phase outlet pipe of the gas-liquid separator is adjusted. A refrigerating apparatus characterized in that it is connected to a compressor suction pipe through a throttle, and the gas-phase outlet pipe of the gas-liquid separator is connected to a pipe line leading to a condenser of a refrigeration cycle.