Controlling an electrically actuated refrigerant expansion valve
First Claim
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1. A control system for a refrigeration system of the type having a compressor circulating refrigerant through a condenser, evaporator and an electrically operated expansion valve for controlling flow from the condenser to the evaporator, comprising:
- (a) first sensor means sensing the refrigerant temperature entering the evaporator and providing an electrical signal indicative thereof;
(b) second sensor means sensing the refrigerant temperature discharging from the evaporator;
(c) controller means operative to(i) determine the value of the difference (Δ
T) of said temperature signals,(ii) determine the degree of membership of said Δ
T value in each of predetermined plural overlapping bands of Δ
T,(iii) determine the time rate of change (R) of Δ
T, from said Δ
T signal,(iv) determine the degree of membership of said rate of change in each of predetermined plural overlapping bands of R,(v) determine for combinations of said degrees of membership the change in control signal (Δ
PW) from a predetermined set of rules (consequences),(vi) determine the discrete value for said change and including means to deenergize said compressor means when said evaporator refrigerant inlet temperature is less than a predetermined valve; and
(d) circuit means connecting said controller to said expansion valve for applying said control signal thereto.
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Abstract
A control system for generating a pulse width modulated control signal for an electrically operated refrigerant valve. The controller receives inputs from evaporator inlet and outlet temperature sensors (Tin, Tout) and "fuzzy" logic to compute the discrete value of pulse width change needed, based upon the difference ΔT=Tout -Tin and the time rate of change of ΔT.
88 Citations
6 Claims
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1. A control system for a refrigeration system of the type having a compressor circulating refrigerant through a condenser, evaporator and an electrically operated expansion valve for controlling flow from the condenser to the evaporator, comprising:
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(a) first sensor means sensing the refrigerant temperature entering the evaporator and providing an electrical signal indicative thereof; (b) second sensor means sensing the refrigerant temperature discharging from the evaporator; (c) controller means operative to (i) determine the value of the difference (Δ
T) of said temperature signals,(ii) determine the degree of membership of said Δ
T value in each of predetermined plural overlapping bands of Δ
T,(iii) determine the time rate of change (R) of Δ
T, from said Δ
T signal,(iv) determine the degree of membership of said rate of change in each of predetermined plural overlapping bands of R, (v) determine for combinations of said degrees of membership the change in control signal (Δ
PW) from a predetermined set of rules (consequences),(vi) determine the discrete value for said change and including means to deenergize said compressor means when said evaporator refrigerant inlet temperature is less than a predetermined valve; and (d) circuit means connecting said controller to said expansion valve for applying said control signal thereto.
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2. A control system for a refrigeration system of the type having a compressor circulating refrigerant through a condenser, evaporator and an electrically operated expansion valve for controlling flow from the condenser to the evaporator, comprising:
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(a) first sensor means sensing the refrigerant temperature entering the evaporator and providing an electrical signal indicative thereof; (b) second sensor means sensing the refrigerant temperature discharging from the evaporator; (c) controller means operative to (i) determine the value of the difference (Δ
T) of said temperature signals,(ii) determine the degree of membership of said Δ
T value in each of predetermined plural overlapping bands of Δ
T,(iii) determine the time rate of change (R) of Δ
T, from said Δ
T signal,(iv) determine the degree of membership of said rate of change in each of predetermined plural overlapping bands of R, (v) determine for combinations of said degrees of membership the change in control signal (Δ
PW) from a predetermined set of rules (consequences),(vi) determine the discrete value for said change including means operative to decrement said signal discrete value in the event said evaporator inlet temperature is greater than a predetermined value; and (d) circuit means connecting said controller to said expansion valve for applying said control signal thereto.
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3. A control system for a refrigeration system of the type having a compressor circulating refrigerant through a condenser, evaporator and an electrically operated expansion valve for controlling flow from the condenser to the evaporator, comprising:
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(a) first sensor means sensing the refrigerant temperature entering the evaporator and providing an electrical signal indicative thereof; (b) second sensor means sensing the refrigerant temperature discharging from the evaporator; (c) controller means operative to (i) determine the value of the difference (Δ
T) of said temperature signals,(ii) determine the degree of membership of said Δ
T value in each of predetermined plural overlapping bands of Δ
T,(iii) determine the time rate of change (R) of Δ
T, from said Δ
T signal,(iv) determine the degree of membership of said rate of change in each of predetermined plural overlapping bands of R, (v) determine for combinations of said degrees of membership the change in control signal (Δ
PW) from a predetermined set of rules (consequences),(vi) determine the discrete value for said change including means to close said expansion valve while said initial system temperature at said valve inlet is above a predetermined limit value; and (d) circuit means connecting said controller to said expansion valve for applying said control signal thereto.
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4. A method of controlling an electrically operated expansion valve in a refrigeration system having a compressor circulating refrigerant through an evaporator and condenser comprising:
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(a) continuously sensing the temperature at the evaporator inlet and outlet; (b) subtracting the value of the sensed inlet temperature from the sensed outlet temperature and determining the membership of the aforesaid difference (Δ
T) in overlapping bands of the difference;(c) determining the time rate of change (R) of Δ
T and determining the membership of R in overlapping bands of R;(d) assigning pulse width increments to various combinations of (R) and Δ
T;(e) determining the minimum membership for said various combinations and determining the maximum membership of all of said minimum for each assigned pulse width increment; and
, determining the weighted average of said maximum membership for a percentage of pulse width increment. - View Dependent Claims (5, 6)
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Specification