Refrigeration control system

US 4,112,703 A
Filed: 12/27/1976
Issued: 09/12/1978
Est. Priority Date: 12/27/1976
Status: Expired due to Term

First Claim

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1. In a refrigeration system where refrigerant flows through a closed vapor cycle refrigeration circuit having in series an evaporator, a compressor and a condenser, a control system for controlling the operation of the refrigeration system to vary the effectiveness of the evaporator in order to maintain a substantially constant desired temperature in a space to which cooled air is supplied by the refrigeration system, comprising:

means, including a first thermistor, for providing a space temperature electrical signal representing the actual ambient temperature in the space to be temperature controlled;

means, including a potentiometer, for providing a temperature set point electrical signal representing the desired temperature for the temperature controlled space;

means, including a second thermistor positioned adjacent to the evaporator outlet, for providing an evaporator outlet temperature electrical signal representing the actual temperature of the refrigerant at the evaporator outlet;

an electromechanical valve included in series with the refrigeration circuit between the condenser and evaporator for controlling the refrigerant flow rate through the circuit, said electromechanical valve also functioning as the expansion device in the refrigeration circuit;

and control means responsive to said space temperature electrical signal, said temperature set point electrical signal, and said evaporator outlet temperature electrical signal for varying the actuation of said electromechanical valve to modulate the refrigerant flowing through the evaporator to adjust the refrigerant temperature at the evaporator outlet to vary the evaporator effectiveness as required to maintain the controlled space at the desired temperature.

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Abstract

A controlled space is maintained at a desired set point temperature by adjusting the refrigerant temperature at the evaporator outlet in a refrigeration system, thereby controlling the evaporator effectiveness or capacity which is inversely proportional to the outlet temperature. When the space temperature tends to vary from the desired set point due to a changing heat load, the control system automatically changes the refrigerant flow through the evaporator to establish the evaporator outlet temperature at the control point required to maintain the controlled space at the desired temperature. More specifically, in response to a space temperature increase, the flow rate of the refrigerant increases; and in response to a drop below the set point, the refrigerant flow decreases. Such control of the flow rate is achieved by varying the actuation of an electromechanical valve, such as a solenoid valve, interposed between the condenser and evaporator in the refrigeration system, the valve also serving as the system'"'"'s expansion device. When the heat load on the evaporator is constant, the refrigerant flow is controlled in order to hold the evaporator outlet temperature fixed at the required control point.

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18 Claims

1. In a refrigeration system where refrigerant flows through a closed vapor cycle refrigeration circuit having in series an evaporator, a compressor and a condenser, a control system for controlling the operation of the refrigeration system to vary the effectiveness of the evaporator in order to maintain a substantially constant desired temperature in a space to which cooled air is supplied by the refrigeration system, comprising:
- means, including a first thermistor, for providing a space temperature electrical signal representing the actual ambient temperature in the space to be temperature controlled;
  
  means, including a potentiometer, for providing a temperature set point electrical signal representing the desired temperature for the temperature controlled space;
  
  means, including a second thermistor positioned adjacent to the evaporator outlet, for providing an evaporator outlet temperature electrical signal representing the actual temperature of the refrigerant at the evaporator outlet;
  
  an electromechanical valve included in series with the refrigeration circuit between the condenser and evaporator for controlling the refrigerant flow rate through the circuit, said electromechanical valve also functioning as the expansion device in the refrigeration circuit;
  
  and control means responsive to said space temperature electrical signal, said temperature set point electrical signal, and said evaporator outlet temperature electrical signal for varying the actuation of said electromechanical valve to modulate the refrigerant flowing through the evaporator to adjust the refrigerant temperature at the evaporator outlet to vary the evaporator effectiveness as required to maintain the controlled space at the desired temperature.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A control system according to claim 1 in which said electromechanical valve is a solenoid operated valve controlled by a pulse width modulated signal produced by said control means, the refrigerant flow rate through the valve being determined by the signal'"'"'s duty cycle.
  - 3. A control system according to claim 1 and including means for maintaining the suction pressure at the inlet of the compressor relatively constant.
  - 4. A control system according to claim 1 and including means for controlling the effective capacity of the compressor to maintain constant suction pressure at the compressor'"'"'s inlet.
  - 5. A control system according to claim 1 in which the compressor is a controlled displacememt compressor whose displacement is regulated to maintain a constant suction pressure at the compressor'"'"'s inlet.

6. In a refrigeration system where refrigerant flows through a closed vapor cycle refrigeration circuit having in series an evaporator, a compressor and a condenser, a control system for regulating the refrigerant flow rate through the evaporator to vary the evaporator effectiveness in order to maintain a substantially constant desired temperature in a space to which cooled air is supplied by the refrigeration system, comprising:
- means, including a first sensor located in the space to be temperature controlled, for providing a space temperature signal representing the actual ambient temperature therein;
  
  means, including an adjustable device, for providing a temperature set point signal representing the desired temperature for the temperature controlled space;
  
  means responsive to said space temperature signal and to said temperature set point signal for providing a temperature control point signal which represents a desired evaporator refrigerant outlet temperature, referenced with respect to a predetermined desired minimum evaporator outlet temperature;
  
  means, including a second temperature sensor positioned adjacent to the evaporator outlet, for providing an evaporator outlet temperature signal representing the actual temperature of the refrigerant at the evaporator outlet;
  
  means responsive to said temperature control point signal and to said evaporator outlet temperature signal for providing an error signal which varies as a function of the difference between the desired control point temperature and the actual evaporator outlet temperature;
  
  an electromechanical valve included in series with the refrigeration circuit between the condenser and evaporator for controlling the refrigerant flow rate through the circuit;
  
  and means responsive to said error signal for actuating said electromechanical valve to modulate the refrigerant flowing through the evaporator to establish the evaporator outlet temperature at said control point, thereby to maintain the controlled space at the desired temperature.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 7. A control system according to claim 6 and including means for preventing the temperature of the refrigerant at the evaporator outlet from dropping below said predetermined desired minimum evaporator outlet temperature.
  - 8. A control system according to claim 6 and including means for providing a first reference signal representing said predetermined desired minimum evaporator outlet temperature for the refrigerant at the evaporator outlet, and wherein, during periods when the actual space temperature is substantially greater than the desired space temperature, said first reference signal limits said error signal to restrict the refrigerant flow rate through said electromechanical valve to a level that results in the evaporator refrigerant outlet temperature dropping only to the desired minimum.
  - 9. A control system according to claim 8 in which said error signal is produced by a differential amplifier to one input of which is applied said first reference signal, the other input of said differential amplifier receiving the sum of said temperature control point signal and said evaporator outlet temperature signal.
  - 10. A control system according to claim 6 wherein said temperature control point signal is produced by an integrator which compares said space temperature signal and said temperature set point signal.
  - 11. A control system according to claim 6 and including means, operable during steady state conditions when the controlled space is established at the desired temperature and the heat load on the evaporator is unchanged, for automatically maintaining the temperature of the refrigerant at the evaporator outlet at the desired control point temperature.
  - 12. A control system according to claim 6 wherein said means for providing said error signal also caused said error signal to vary as a function of the difference between the desired control point temperature and the actual evaporator outlet temperature, the refrigerant flow being controlled in accordance with the difference between the desired and actual evaporator outlet temperatures to automatically maintain the evaporator outlet at the desired control point temperature during steady state conditions when the heat load on the evaporator is unchanged.
  - 13. A control system according to claim 6 and including a protection circuit for decreasing the refrigerant flow rate through said electromechanical valve in the event that the refrigerant temperature at the evaporator outlet drops to a predetermined absolute minimum level.
  - 14. A control system according to claim 6 wherein the refrigeration system is an automotive air-conditioning system in a vehicle, the compressor being driven by the vehicle'"'"'s engine, and wherein a protection circuit, which operates in response to said evaporator outlet temperature signal, prevents the refrigerant temperature at the evaporator outlet from decreasing below a predetermined absolute minimum level which could otherwise occur as a result of high speed operation of the compressor during periods when the engine speed is high.
  - 15. A control system according to claim 14 wherein said protection circuit, in response to the evaporator refrigerant outlet temperature dropping to said predetermined absolute minimum level, overrides said error signal and causes said electromechanical valve to reduce the refrigerant flow rate to the extent necessary to prevent the refrigerant temperature from decreasing below said absolute minimum level.
  - 16. A control system according to claim 15 wherein said protection circuit includes means for providing a second reference signal, representing said predetermined absolute minimum level, which is compared with said evaporator outlet temperature signal in a comparator to produce a control signal which renders said error signal ineffective and causes said electromechanical valve to decrease the refrigerant flow rate.
  - 17. A control system according to claim 6 in which said electromechanical valve is a solenoid operated off-on valve and wherein said error signal determines the duty cycle of a pulse width modulated signal which in turn operates said solenoid valve, the flow rate through said solenoid valve being directly proportional to the duty cycle.
  - 18. A control system according to claim 17 in which said error signal is applied to an integrator the output of which is applied to a comparator which also receives a triangular shaped signal, said pulse width modulated signal being produced at the output of said comparator.

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Current Assignee
Diesel Japan Company Limited (Renzo Rosso)
Original Assignee
BorgWarner Incorporated
Inventors
Kountz, Kenneth John
Primary Examiner(s)
Wayner, William E.

Application Number

US05/754,194
Time in Patent Office

624 Days
Field of Search

62/223, 62/225, 62/211, 62/196 C, 62/224, 236/75, 236/78 D
US Class Current

62/211
CPC Class Codes

B60H 1/3211   for increasing the efficien...

B60H 2001/3252   of the refrigerant at an ev...

B60H 2001/3263   of the refrigerant at an ev...

B60H 2001/3285   related to an expansion unit

F25B 41/347   with the valve member being...

F25B 49/02   for compression type machin...

G05D 23/1931   to control the temperature ...

G05D 23/24   the sensing element having ...

Y02B 30/70   Efficient control or regula...

Refrigeration control system

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

125 Citations

18 Claims

Specification

Solutions

Use Cases

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Refrigeration control system

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

125 Citations

18 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links