Methods and apparatus for operating a refrigeration system

US 5,174,123 A
Filed: 08/23/1991
Issued: 12/29/1992
Est. Priority Date: 08/23/1991
Status: Expired due to Fees

First Claim

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1. A method of using a flash tank in a refrigeration system which has an economizer cycle, including a refrigerant circuit having a refrigerant compressor which includes a suction port, an intermediate pressure port, and a discharge port, a condenser, an evaporator, a liquid line between the condenser and evaporator, a main suction line between the evaporator and the suction port, an auxiliary suction line between the flash tank and the intermediate pressure port, and a hot gas line between the discharge port and condenser, comprising the steps of:

providing a flash tank in the liquid line having a liquid input point and a liquid output point,providing refrigerant storage space in the flash tank between the liquid input point and the liquid output point,providing a cooling cycle by directing refrigerant from the compressor and condenser to the liquid input point of the flash tank, and from the liquid output point of the flash tank to the evaporator,controlling the flow of refrigerant which enters the liquid input point of the flash tank from the condenser with a liquid sub-cooling valve, which opens and closes to maintain a predetermined degree of sub-cooling in the refrigerant,and controlling the flow of refrigerant which flows from the liquid output point of the flash tank to the evaporator with a thermostatic expansion valve which has a temperature control bulb disposed in heat exchange relation with the main suction line,whereby the need for a float valve in the flash tank to control refrigerant flow is eliminated.

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Abstract

Methods and apparatus for eliminating the need for a float valve in a flash tank of a refrigeration system having an economizer cycle, improving stationary refrigeration systems and permitting a flash tank instead of a heat exchanger to be used in a transport refrigeration system having an economizer cycle. The refrigeration system includes a refrigerant compressor, a condenser, and an evaporator, with the flash tank being disposed between the condenser and evaporator. A liquid sub-cooling valve is disposed between the condenser and flash tank. The liquid sub-cooling valve opens and closes to maintain a desired degree of sub-cooling, with the liquid sub-cooling valve thus controlling refrigerant flow into the flash tank. Refrigerant flow out of the flash tank to the evaporator is controlled by a suction superheat thermostatic expansion valve. In a preferred embodiment, liquid leaving the flash tank is sub-cooled before entering the expansion valve.

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18 Claims

1. A method of using a flash tank in a refrigeration system which has an economizer cycle, including a refrigerant circuit having a refrigerant compressor which includes a suction port, an intermediate pressure port, and a discharge port, a condenser, an evaporator, a liquid line between the condenser and evaporator, a main suction line between the evaporator and the suction port, an auxiliary suction line between the flash tank and the intermediate pressure port, and a hot gas line between the discharge port and condenser, comprising the steps of:
- providing a flash tank in the liquid line having a liquid input point and a liquid output point,providing refrigerant storage space in the flash tank between the liquid input point and the liquid output point,providing a cooling cycle by directing refrigerant from the compressor and condenser to the liquid input point of the flash tank, and from the liquid output point of the flash tank to the evaporator,controlling the flow of refrigerant which enters the liquid input point of the flash tank from the condenser with a liquid sub-cooling valve, which opens and closes to maintain a predetermined degree of sub-cooling in the refrigerant,and controlling the flow of refrigerant which flows from the liquid output point of the flash tank to the evaporator with a thermostatic expansion valve which has a temperature control bulb disposed in heat exchange relation with the main suction line,whereby the need for a float valve in the flash tank to control refrigerant flow is eliminated.
- View Dependent Claims (2, 3)
- - 2. The method of claim 1 including the step of sub-cooling the refrigerant entering the thermostatic expansion valve.
  - 3. The method of claim 1 including the step of providing a by-pass orifice around the liquid sub-cooling valve to aid start-up.

4. A method of using a flash tank in a refrigeration system which has an economizer cycle, including a refrigerant circuit having a refrigerant compressor which includes a suction port, an intermediate pressure port, and a discharge port, a condenser, an evaporator, a liquid line between the condenser and evaporator, a main suction line between the evaporator and the suction port, an auxiliary suction line between the flash tank and the intermediate pressure port, and a hot gas line between the discharge port and condenser, comprising the steps of:
- providing a flash tank,providing a cooling cycle by directing refrigerant from the compressor and condenser to the evaporator via the flash tank,controlling the flow of refrigerant which enters the flash tank from the condenser with a liquid sub-cooling valve, which opens and closes to maintain a predetermined degree of sub-cooling in the refrigerant,controlling the flow of refrigerant which flows from the flash tank to the evaporator with a thermostatic expansion valve which has a temperature control bulb disposed in heat exchange relation with the main suction line,providing a heating condenser in heat exchange relation with the evaporator,providing a hot gas heating cycle for the refrigeration system by connecting the hot gas line to the heating condenser instead of the condenser, andproviding an orifice which interconnects the heating condenser and the main suction line, to permit refrigerant trapped in the heating condenser after a heating cycle to enter a cooling cycle,whereby the need for a float valve in the flash tank to control refrigerant flow is eliminated.
- View Dependent Claims (5, 6, 7, 8)
- - 5. The method of claim 4 including the step of blocking refrigerant flow from the flash tank to the evaporator during a heating cycle.
  - 6. The method of claim 4 including the step of returning refrigerant from the heating condenser, during a heating cycle, to the liquid line between the condenser and liquid sub-cooling valve.
  - 7. The method of claim 4 including the step of heating the flash tank during a heating cycle.
  - 8. The method of claim 4 including the steps of:
    - driving the compressor with a liquid cooled internal combustion engine, andusing liquid coolant from the internal combustion engine to heat the flash tank during a heating cycle.

9. A refrigeration system for cooling a served space which has an economizer cycle, including a refrigerant circuit having a compressor which includes a suction port, an intermediate pressure port, and a discharge port, a condenser, an evaporator, a liquid line between the condenser and evaporator, a main suction line between the evaporator and the suction port, and a hot gas line between the discharge port and condenser, comprising:
- a flash tank in the liquid line,said flash tank having liquid input and liquid output points, with the flash tank defining a storage space for refrigerant between said liquid input point and said liquid output point,an auxiliary suction line between the flash tank and the intermediate pressure port,a liquid sub-cooling valve disposed between the condenser and the liquid input point of said flash tank,said liquid sub-cooling valve controlling the flow of refrigerant which enters the liquid input point of said flash tank from the condenser by opening and closing to maintain a predetermined degree of sub-cooling in the refrigerant,and a thermostatic expansion valve disposed between the liquid output point of said flash tank and the evaporator,said thermostatic expansion valve having a temperature control bulb disposed in heat exchange relation with the main suction line,said thermostatic expansion valve controlling the flow of refrigerant from the liquid output point of said flash tank to the evaporator,whereby the need for a float valve in the flash tank to control refrigerant flow is eliminated.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 18)
- - 10. The refrigeration system of claim 9 including means for sub-cooling the refrigerant entering the thermostatic expansion valve.
  - 11. The refrigeration system of claim 10 wherein the sub-cooling means is a heat exchanger having a first flow path which interconnects the flash tank and the thermostatic expansion valve, and a second flow path which interconnects the thermostatic expansion valve and the evaporator, with said first and second flow paths being in heat exchange relation.
  - 12. The refrigeration system of claim 9 including a by-pass orifice disposed to by-pass the liquid sub-cooling valve, to aid start-up.
  - 13. The refrigeration system of claim 9 including:
    - means for providing a hot gas heating cycle to heat the served space or defrost the evaporator coil,said means for providing a hot gas heating cycle including a heating condenser and valve means,said heating condenser being disposed in heat exchange relation with the evaporator,said valve means being disposed in the hot gas line,said valve means connecting the compressor to the condenser during a cooling cycle,said valve means connecting the compressor to the heating condenser during a hot gas heating cycle.
  - 14. The refrigeration system of claim 13 including means disposed to block refrigerant flow from the flash tank to the evaporator during a heating cycle.
  - 15. The refrigeration system of claim 13 including conduit means connected to return refrigerant from the heating condenser to the liquid line, at a point located between the condenser and the liquid sub-cooling valve, during a heating cycle.
  - 16. The refrigeration system of claim 13 including means heating the flash tank during a heating cycle.
  - 18. The refrigeration system of claim 16 including a liquid cooled internal combustion engine disposed to drive the refrigerant compressor, with the means for heating the flash tank during a heating cycle including means for directing liquid coolant from the internal combustion engine into heat exchange relation with the flash tank.

17. A refrigeration system for cooling a served space which has an economizer cycle, including a refrigerant circuit having a compressor which includes a suction port, an intermediate pressure port, and a discharge port, a condenser, an evaporator, a liquid line between the condenser and evaporator, a main suction line between the evaporator and the suction port, and a hot gas line between the discharge port and condenser, comprising:
- a flash tank in the liquid line,an auxiliary suction line between the flash tank and the intermediate pressure port of the compressor,a liquid sub-cooling valve disposed between the condenser and the flash tank,said liquid sub-cooling valve controlling the flow of refrigerant which enters the flash tank from the condenser by opening and closing to maintain a predetermined degree of sub-cooling in the refrigerant,a thermostatic expansion valve disposed between the flash tank and the evaporator,said thermostatic expansion valve having a temperature control bulb disposed in heat exchange relation with the main suction line,said thermostatic expansion valve controlling the flow of refrigerant from the flash tank to the evaporator,means for providing a hot gas heating cycle to heat the served space or defrost the evaporator coil,said means for providing a hot gas heating cycle including a heating condenser and valve means,said heating condenser being disposed in heat exchange relation with the evaporator,said valve means being disposed in the hot gas line,said valve means connecting the compressor to the condenser during a cooling cycle,said valve means connecting the compressor to the heating condenser during a hot gas heating cycle,and an orifice disposed to interconnect the heating condenser and the main suction line, to permit refrigerant trapped in the heating condenser during a heating cycle, to enter a cooling cycle,whereby the need for a float valve in the flash tank to control refrigerant flow is eliminated.

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Litigation Campaign Assessment

Current Assignee
Thermo King Corporation (Trane Technologies plc)
Original Assignee
Thermo King Corporation (Trane Technologies plc)
Inventors
Erickson, Lee J.
Primary Examiner(s)
Sollecito, John

Application Number

US07/749,358
Time in Patent Office

494 Days
Field of Search

62/222, 62/115, 62/498, 62/224, 62/278, 62/201, 62/323.1, 62/223, 62/113, 62/513, 62/174
US Class Current

62/113
CPC Class Codes

F25B 1/047   of screw type

F25B 2400/13   Economisers

F25B 2400/23   Separators

F25B 40/02   Subcoolers

F25B 47/022   hot gas defrosting

F25B 5/04   arranged in series

Methods and apparatus for operating a refrigeration system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

151 Citations

18 Claims

Specification

Solutions

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Methods and apparatus for operating a refrigeration system

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

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Accused Products

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Abstract

151 Citations

18 Claims

Specification

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Solutions

Use Cases

Quick Links