KR890013437A - Multi-level refrigeration system - Google Patents

Abstract

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Description

Multi-level refrigeration system

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

1 is a schematic representation of an overall refrigeration system suitable for implementing the principles of the present invention and installing in a conventional supermarket.

2 is a schematic diagram of a high stage lubricant control system embodying the principles of the present invention,

3 is a schematic cross-sectional view of a portion of a conventional hermetic refrigerant compressor, illustrating a low stage lubricating oil control technique implementing the principles of the present invention.

Claims (39)

A first housing forming a first refrigeration zone for individual temperature control and having a first thermostat; First expansion / evaporation means disposed in the first housing, the compressed liquid refrigerant being used to refrigerate the first refrigeration zone; A second housing with a second thermostat, forming a second refrigeration zone for individual temperature control; Second expansion / evaporation means disposed in the second housing, the compressed liquid refrigerant being used to refrigerate the second refrigeration zone; High stage compressor means and condenser means disposed in series and spaced apart from said first and second housings for supplying a compressed liquid refrigerant; First conduit means for communicating a compressed liquid refrigerant from said condenser means to said first and second expansion / evaporation means; A first low stage refrigerant compressor disposed in the first housing for compressing the gas refrigerant received from the first evaporation means and controlled by the first temperature controller to maintain a desired temperature in the first refrigerating zone; A second low stage refrigerant compressor disposed in the second housing for compressing the gas refrigerant received from the second evaporation means and controlled by the second temperature controller to maintain a desired temperature in the second refrigeration zone; Second conduit means for communicating compressed refrigerant from said first and second low stage compressors to said high stage compressor means; Means independent of said first and second temperature regulators for regulating the operation of said high stage compressor means; Multistage refrigeration system consisting of. The multistage refrigeration system of claim 1 wherein said low stage compressors intermittently circulate according to cooling requirements. The multistage refrigeration system of claim 1 wherein said low stage compressors operate at different speeds in accordance with cooling requirements. The liquid-suctioning device as claimed in claim 1, wherein cold refrigerant vapor from the evaporation means disposed in the housing is used to cool the liquid refrigerant supplied to the expansion / evaporation means disposed in each of the housings. A multistage refrigeration system further comprising a heat exchanger. 2. The multistage refrigeration system of claim 1 further comprising a supercooler for supercooling the refrigerant flowing from said condenser means to each of said expansion / evaporation means. 6. The multistage refrigeration system of claim 5 wherein the subcooler is configured to expand a portion of the condensed refrigerant downstream of the condenser means to cool the refrigerant flowing to each of the expansion / evaporation means. Said multistage refrigeration system further comprising means for transferring a portion to an inlet of said high stage compressor means. The multistage refrigeration system according to claim 1, wherein said high stage compressor means comprises a plurality of high stage compressors connected in parallel. 8. The multistage refrigeration system of claim 7 wherein one of said high stage compressors is a variable speed compressor. 8. The multistage refrigeration system of claim 7 further comprising a trimmer compressor having a smaller capacity than each of the other high stage compressors and connected in parallel with the plurality of high stage compressors. 10. The multistage refrigeration system of claim 9 wherein said trimmer compressor is a variable speed compressor. 2. The multistage refrigeration system of claim 1 further comprising lubricant control means for controlling the distribution of lubricant between the high stage compressor means and the low stage compressors. 12. The multistage refrigeration system of claim 11 further comprising means for supplying a small amount of lubricant oil through the lubricant associated with the high stage compressor means, from the keg to the compressed liquid refrigerant supplied to each of the expansion / evaporation means. 13. A multistage refrigeration system according to claim 12, wherein each of said low stage compressors has lubricating oil control means for passing lubricating oil and introducing excess lubricant in said bin into the compressed refrigerant discharged from said low stage compressor. 14. The multistage refrigeration system of claim 13 wherein said control means consists of a vent pipe extending from a minimum pressure region of each of said low stage compressors to just above the normal lubricant level in said compressor. 12. A multistage refrigeration system according to claim 11, wherein each of said low stage compressors has a lubrication barrel and lubricating oil control means for introducing excess lubricant in said vat into the compressed refrigerant discharged from said compressors. 16. The multistage refrigeration system of claim 15 wherein said control means is configured with a vent pipe extending from the minimum pressure region of each of said low stage compressors to just above the normal lubricant level in said compressor. 17. The multistage refrigeration system of claim 16 wherein each of said high stage compressor means and said low stage compressors are fully sealed compressors. 18. The multistage refrigeration system of claim 17 wherein said high stage compressor means also has the same lubricant control means as each of said low stage compressors. The multistage refrigeration system of claim 1 wherein said high stage compressor means comprises a plurality of semi-sealed compressors connected in parallel, each of said low stage compressors being a fully sealed compressor. The multistage refrigeration system of claim 1 further comprising a third low stage refrigerant compressor disposed in the first housing and connected in parallel to the first low stage compressor. 21. The multistage refrigeration system of claim 20 wherein at least one of said first and third low stage compressors is a variable speed compressor. The multistage refrigeration system of claim 20 wherein each of said first and third low stage compressors is a constant speed compressor. (a) a low stage compressor for discharging the compressed refrigerant into the high stage suction conduit; (b) high stage discharge conduit: (c) high stage compressor means connected between the suction conduit and the discharge conduit: (d) a lubricant separator, condenser, Refrigerant reservoir, and evaporator means; And (e) conveying means for continuously supplying a small amount of lubricating oil from the lubricating oil separator to the reservoir to provide a lubricating oil source to the low stage compressor. Refrigeration system consisting of. A refrigeration system according to claim 23 wherein said conveying means consists of a semi-capillary tube. The refrigeration system of claim 23 wherein the lubricant is introduced into the reservoir near the top of the lubricant level in the reservoir. The refrigeration system of claim 23 comprising a plurality of said low stage compressors connected in parallel. 24. The refrigeration system of claim 23 wherein said high stage compressor means is disposed in an equipment room and said low stage compressor is located in a remotely installed product showcase. A first housing having a first temperature controller for forming a first refrigeration zone for individual temperature control; Second expansion / evaporation means disposed in said first housing, using a compressed liquid refrigerant to refrigerate said first refrigeration zone; A second housing with a second temperature controller, forming a second refrigeration zone for individual temperature control; Second expansion / evaporation means disposed in the second housing, the compressed liquid refrigerant being used to refrigerate the second refrigeration zone; High stage compressor means and condenser means disposed in series and spaced apart from said first and second housings for supplying a compressed liquid refrigerant; First conduit means for communicating a compressed liquid refrigerant from said condenser means to said first and second expansion / evaporation means; A first low stage refrigerant compressor disposed in the first housing for compressing the gas refrigerant received from the first evaporation means and controlled by the first temperature controller to maintain a desired temperature in the first refrigeration zone; A second low stage refrigerant compressor disposed in the second housing for compressing the gas refrigerant received from the second evaporation means and controlled by the second temperature controller to maintain a desired temperature in the second refrigeration zone; Second conduit means for communicating compressed refrigerant from said first and second low stage compressors to said high stage compressor means; And means independent of said first and second thermostats for regulating the operation of said high stage compressor means; Multistage refrigeration system consisting of. (a) a low stage compressor for discharging the compressed refrigerant into a high stage suction conduit; (b) high stage exhaust conduits; (c) first and second high stage compressors connected in parallel between the suction conduit and the discharge conduit; (d) condensation / evaporation means connected in series between said exhaust conduit and the inlet of said low stage compressor; (e) a subcooler comprising conduit means for expanding a portion of the condensing refrigerant downstream of the condenser to supercool the refrigerant flowing to the evaporation means and for conveying the expansion tube refrigerant portion to the suction conduit; And (f) a check valve of the suction conduit between the first compressor and the second compressor such that the second compressor maintains the supercooling operation when the first compressor is inoperative; (G) the second compressor is upstream of the first compressor with respect to the subcooler output, and (h) the first compressor is involved in the low stage compressor output and upstream of the second compressor. Refrigeration system on the side. 30. The refrigeration system of claim 29 wherein said second compressor has a lower capacity than said first compressor. 31. The refrigeration system of claim 30 wherein said second compressor operates continuously to trim the output of said first compressor. 33. The refrigeration system of claim 30 wherein said second compressor is a variable speed compressor. 30. The refrigeration system of claim 29, further comprising a bypass conduit between the suction conduit and the discharge conduit, wherein the bypass conduit incorporates a shock valve to prevent flow from the discharge conduit to the suction conduit, The bypass conduit is connected to the suction conduit downstream of the second compressor with respect to the tube cooler. 30. The refrigeration system of claim 29 wherein the high stage compressors are disposed in an equipment room and the low stage compressors are located in a remotely installed product showcase. A first housing forming a first refrigeration zone; First evaporation means disposed in said first housing, using a compressed liquid refrigerant for refrigerating said first refrigerated zone; A second housing forming a second refrigerated zone; Second evaporation means disposed in said second housing, using a compressed liquid refrigerant for refrigerating said second refrigerated zone; High stage compressor means and condenser means disposed in series and spaced apart from said first and second housings for supplying a compressed liquid refrigerant; First conduit means for communicating a compressed liquid refrigerant from said condenser means to said second evaporation means; Second conduit means for communicating a refrigerant from said second evaporation means to said first evaporation means; A low stage refrigerant compressor disposed in said first housing for condensing gaseous refrigerant received from said first evaporation means; And third conduit means for communicating compressed refrigerant from said low stage compressor to said high stage compressor means; Multistage refrigeration system consisting of. 36. The multistage refrigeration system of claim 35 further comprising a refrigerant expansion means disposed in the second housing between the first conduit and the second evaporation means. 37. The multistage refrigeration system of claim 36 wherein said expansion means is controlled by an output temperature of said first evaporation means. 36. The multistage refrigeration system of claim 35 wherein said first conduit means passes through said first housing. 39. The multistage refrigeration system of Claim 38 further comprising a liquid / suction heat exchanger disposed in said first housing utilizing cold refrigerant from said second evaporation means to cool the liquid refrigerant in said first conduit. ※ Note: The disclosure is based on the initial application.