TH71888A - Pressurized refrigeration device inward to compressor with ejector - Google Patents

Abstract

DC60 (15/12/47) Pressure boosting refrigeration system on the compressor inlet with ejector. It is a new invention that has never appeared anywhere before. And it is a system that makes up The performance coefficient is higher than that of conventional refrigeration systems that use a compressor. One controls the temperature of two different evaporators. Pressure boosting refrigeration system inlet of compressor with ejector Yes The main characteristics are The refrigerant coming out of the first evaporator will flow into the nozzles. Convergence-convergence Of the ejector, causing the refrigerant of the second evaporator to be sucked They are mixed together in the mixing chamber and then flowed through the diffuser to increase the pressure at the inlet of the refrigerant compressor. The vapor is compressed by the compressor. The liquid cooling will continue to flow through the pressure reducing device to the second evaporator. Due to the increased pressure at the inlet of this compressor itself Make the energy used in Compress the refrigerant from the secondary evaporator pressure to a lower condenser pressure, resulting in an increase in the system performance coefficient. Pressure boosting refrigeration system inward to compressor with ejector It is a new invention that has never appeared anywhere before. And it is a system that makes up The performance coefficient is higher than that of conventional refrigeration systems that use a compressor. One controls the temperature of two different evaporators. Pressure boosting refrigeration system inlet of compressor with ejector Yes The main characteristics are The refrigerant coming out of the first evaporator will flow into the nozzles. Convergence-convergence Of the ejector, causing the refrigerant of the second evaporator to be sucked They are mixed together in the mixing chamber and then flowed through the diffuser to increase the pressure at the inlet of the refrigerant compressor. The vapor is compressed by the compressor. The liquid cooling will continue to flow through the pressure reducing device to the second evaporator. Due to the increased pressure at the inlet of this compressor itself Make the energy used in Compress the refrigerant from the secondary evaporator pressure to a lower condenser pressure, resulting in an increase in the system performance coefficient.

Claims (1)

1. Pressurized refrigeration device inward to compressor with ejector consists of compressor (1) for compressing the refrigerant with a status of The vapor received from the refrigerant separator (11) is then forwarded to a condenser (2) for condensing the refrigerant into a liquid for forwarding to the refrigerant receiving device (4), which is Refrigerant storage tank and will only allow the refrigerant that is The liquid is passed out to the pressure reducing device (6, 8) before passing through the first evaporator (7) to deliver the cooling agent.