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Publication numberUS3839878 A
Publication typeGrant
Publication dateOct 8, 1974
Filing dateDec 20, 1972
Priority dateDec 23, 1971
Also published asDE2262039A1, DE2262039B2
Publication numberUS 3839878 A, US 3839878A, US-A-3839878, US3839878 A, US3839878A
InventorsA Tilmanis
Original AssigneePhilips Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Apparatus for controlling refrigerator defrost apparatus
US 3839878 A
Abstract
Apparatus for controlling a defrosting system in a refrigerator including temperature sensing devices to monitor the temperature of the evaporator coil and the storage space. When the difference in these temperatures exceeds a predetermined value, and one of the monitored temperatures is less than a predetermined value, the defrost operation will be initiated.
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i United States Patent 1191 1111 3,839,878 Tilmanis Oct. 8, 1974 41 APPARATUS FOR CONTROLLING 2,994,209 8/1 92; 1 1111111 .1 62/[55 3,018,637 I 9 arm 1. 62/155 REFRIGERATOR DEFROST APPARATU 3,029,6l l 4/l962 Kuhn 62/155 Inventor: Alexander l n m w 'l, 3,063,250 11/1962 Moorman 62/155 Victoria, Australia 3,222,882 12/1965 [73] Assignee: U.S. Philips Corporation, New 323 York, 3,474,638 /1969 3,553,975 1/1971 [22] 1972 3,681,933 8/1972 Check 62/156 [21] Appl. N0.: 316,912 1 9 Primary Examiner-William J Wye Foreign Application Priority Data Attorney, Agent, Firm-Frank Trifarl Dec. 23, 1971 Australia 07494/71 OCL 23, 1972 Australia 048079/72 [57] ABSTRACT [52] US. Cl 62/15, 62/80, 62/156, Apparatus for controlling a defrosting system in a re- 1 62/208 62/213 frigerator including temperature sensing devices to [51] Int. Cl. F25 d 21/06 monitor the temperature of the evaporator coil and [58] Field of Search 62/80, 208 213 156 the storage space. When the difference in these temperatures exceeds a predetermined value, and one of [56] References Cited the monitored temperatures is less than a predeter- UNITED STATES PATENTS mined value, the defrost operation will be initiated. 2,7l9,406 10/1955 Tobey...l 62/155 4 c'iaifii's'fi'brawnig' 91556;

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APPARATUS FOR CONTROLLING REFRIGERATOR DEFROST APPARATUS This invention relates to automatic defrosting systems for refrigerators, especially domestic and food display refrigerators, but is not limited thereto.

Automatic defrosting apparatus of the kind at present in common use operates on a fixed time cycle so that defrosting occurs at fixed time intervals. However, and particularly in the case of domestic refrigerators, the build-up of frost on the evaporator is quite variable as it depends upon many factors including, among others, the ambient air temperature, ambient air humidity, the frequency with which the refrigerator door is opened and the nature of the goods stored in the refrigerator chamber.

For this reason, a defrosting system which operates on a fixed time cycle is generally inefficient as the fixed interval between successive operations may be either too short or too long according to the particular conditions obtaining. Generally, the fixed time interval is the shortest time likely to be required so that, in most cases, defrosting occurs more often than is necessary and this involves excessive expenditure of power and higher food keeping temperatures because the waste heat absorbed within the refrigerator during each defrost cycle must be removed during the next succeeding refrigeration cycle.

For the foregoing reasons, it has previously been proposed to control automatic defrost apparatus only on demand, i.e., so that defrosting occurs only when this is required due to an excessive accumulation of frost on the evaporator coil.

It is already known for this purpose to provide a re-- frigerator with a control system which automatically initiates a defrost cycle when the evaporator coil temperature falls to a predetermined low value.

Such a control system however, is subject to the disadvantage that in some circumstances, e.g., when the ambient temperature is low and the refrigerator is only lightly loaded, the evaporator coil temperature may fall to the predetermined low temperature while the temperature in the storage compartment is still sufficiently low and possibly at an optimum value. In such circumstances, an unnecessary defrost cycle would be initiated with consequent wastage of power, and an unnecessary increase would occur in the temperature of the stored food or other material.

Also, in certain other circumstances, e.g., if there is a slight shortage of refrigerant, or if the compressor is inefficient, the temperature of the evaporator coil may never fall to the predetermined value required to initiate a defrost cycle. In such a situation, the system would eventually fail due to excessive build-up of frost.

Now i the present invention broadly provides the method of controlling the operation of refrigerator defrost apparatus comprising continuously or periodically sensing the temperature of, or closely adjacent to, the evaporator coil and the temperature of a storage space of the refrigerator, and automatically initiating operation of said defrost apparatus when the difference between said two temperatures exceeds a predetermined value and, a selected one of said two temperatures is less than a predetermined temperature.

The said storage space may be a freezing chamber or a refrigerator chamber so that in a typical refrigerator of the so-called two-temperature type, the said temperature sensing means for'the storage space may be located in or near either the freezing chamber or the refrigerated chamber thereof. Preferably however, this temperature sensing means is arranged in the path of circulated air shortly after it has passed over the evaporator coil so that in the case of a two-temperature refrigerator, it is advantageously arranged at or near the position at which the cold air entersthe freezing chamber.

The invention also provides apparatus for the aforesaid purpose comprising means for continuously or pe riodically sensing the temperature of, or closely adjacent to, the evaporator coil of the refrigerator, means for continuously or periodically sensing the temperature of a storage space of the refrigerator, and means controlled by saidtemperature sensing means for initi ating operation of said defrost apparatus when, the difference between said two temperatures exceeds a predetermined value and, a selected one of said temperatures is less than a predetermined temperature.

Preferably, the duration of operation of the defrost apparatus is controlled by timing means in the known manner, that is to say, the defrost cycle is of uniform duration, though the invention is not limited thereto as alternatively, means also of aknown kind may be used to terminate the defrost cycle and restart the compressor when the temperature in the storage compartment rises to a predetermined value, or the evaporator is fully defrosted.

As frost builds up on the evaporator coil, it exercises a progressively increasing insulating effect, so that eventually the rate of heat inflow to the storage space exceeds the rate at which heat is extracted therefrom by the evaporator. In such circumstances, the temperature of the evaporator coil progressively falls while the temperature of the storage space progressively increases, so that, for both reasons, the difference between these temperatures progressively increases. Thus, while the temperature sensing means for the evaporator coil is preferably mounted in contact with the coil, it may alternatively be mounted out of contact therewith but in such close proximity thereto, that during each refrigeration cycle, said sensing means is progressively covered by the layer of frost which accumulates on the coil and is thus insulated thereby from the circulated air.

This temperature difference therefore may be utilised to effect the start of a defrost cycle when the difference rises to a predetermined value.

However, when the refrigerator is being started up for the'first time or after a period of disuse, the temperatures of both the storage chamber and the evaporator coil may both be initially at or aboutthe ambient temperature, and in such circumstances, the temperature of the evaporator coil is normally reduced more rapidly than that of the storage chamber so that the said predetermined temperature difference may be reached while the temperature of the storage chamber is still relatively high.

Consequently, if initiation of a defrost cycle was determined solely by the said temperature difference, a defrosting cycle could occur during the starting-up operation when it is not only not required, but is undesirable. However, according to the invention, a further necessary condition for initiating a defrost cycle is that the temperature of either the evaporator coil or the storage space, and preferably the latter, is less than a predetermined temperature.

The temperature sensing means may be of any convenient type, e.g., thermistors or thermal bulbs, and any appropriate means controlled thereby may be provided for initiating a defrost cycle when the predetermined control conditions are satisfied.

More particularly, the said apparatus preferably comprises an electrical control circuit having two switches connected in series with means operable, when the circuit is completed by the closure of both switches, to initiate a defrost cycle. The said apparatus also includes means controlled by a sensor for the temperature of either the evaporator coil or the storage space for turning on one of said switches when the respective temperature falls below a predetermined temperature and vice versa, and means controlled by a sensor for the temperature of the storage space and by a sensor for the temperature of the evaporator coil for turning the other said switch when the difference between such temperatures exceeds a predetermined temperature and vice versa. Consequently, during the defrost cycle, the lastmentioned switch at least, is automatically turned off as the temperature differential between the evaporator coil and the storage space, progressively decreases.

Preferably, each of said temperature sensors is a thermistor and each of said switches is preferably an electronic switch to one of which both thermistors are connected, while one of the thermistors is connected to the other switch. Thus potentials, which correspond respectively to the temperature of the evaporator coil and to the temperature of the storage space are continuously applied to one of said switches which is adjusted so as to switch its output from the position to l position when the temperature difference increases to the aforesaid predetermined value.

The potential of one of the said thermistors, or of a further thermistor arranged preferably in the storage compartment, is connected to the second electronic switch and when the temperature of this thermistor falls below a predetermined value, this second switch switches to its 1 position.

In order, however, that the invention may be more clearly understood, one form thereof is hereinafter more fully described with reference to the accompanying drawings in which:

FIG. 1 is a diagram showing in side elevation certain parts of a typical domestic refrigerator, and

FIG. 2 is a diagram of one defrost control circuit according to the invention.

Referring initially to FIG. 1, the refrigerator diagrammatically shown therein comprises an outer case 10, a frozen food storage chamber 12 and a refrigerated food storage chamber 14, each of these chambers being normally closed at the front by a door.

The refrigeration system is conventional and includes a sealed refrigerating unit 16, comprising an electric motor and a compressor, an evaporator 18 arranged adjacent to frozen food chamber 12, a condenser 20 and a fan 22 operated in unison with the compressor to circulate the cold air.

The illustrated refrigerator also includes defrosting means of a conventional kind including a defrost timer 24.

This timer when actuated, opens switches to effect de-energisation of the sealed unit 16 and fan 22 for a pre-set time interval and also causes the heater 26 to be energized until its circuit is interrupted by the thermostat 28 when the temperature of the evaporator rises to a predetermined value, all in the usual manner.

As previously explained, this invention is concerned with the method of, and means for, starting a defrost cycle and in the illustrated apparatus this is achieved by closing a starting switch (not shown) for the timer 24. For this purpose, the starting switch is controlled by two thermistors 36 and 38 which are connected by conductors 37 and 39 respectively, to electronic control means diagrammatically indicated at 34 in the figure. These thermistors are of the negative temperature coefficient (NTC) type so that they develop potentials which increase as their respective temperatures decrease.

The thermistor 36 is arranged in contact with the coil of the evaporator 18 while the thermistor 38 is arranged withinthe frozen food storage chamber 12.

One suitable control circuit is shown in FIG. 2, in which the thermistor 36 is connected in series with a resistance 40 between leads 42 and 43 from the output of a power transformer 44, the lead 42 having a diode 45 and a resistance 46 arranged in series therewith while a zener diode 47 is connected across the leads in parallel with condenser 48 to stabilize the voltage applied to the thermistors.

The other thermistor 38 is similarly arranged in series with a resistance 49 between the leads 42 and 43.

The thermistor 36 is connected by conductor 50 to an integrated circuit forming an electronic switch 52 while the thermistor 38 is similarly connected by conductor 54 to the same switch and is also connected by conductor 55 to a second electronic switch 56. These two switches are connected in series with a relay driver 60, e.g., a silicon controlled rectifier, connected between the leads 42 and 43 in series with a relay winding RL and a normally closed switch 28 controlled by a thermostat responsive to the temperature of the evaporator 18.

The switch 52 is arranged to switch to its 1 rail or condition when the temperature difference between the thermistors 38 and 36 exceeds a predetermined value, and vice versa, while the switch 56 switches to its 1 rail or condition when the temperature of the thermistor 38 is less than a predetermined value. Thus, whenboth switches are in the 1 condition, the relay driver is activated whereby the circuit of relay winding RL is completed and this relay operates to close the aforesaid starter switch for the timer 24.

During the defrost cycle, the temperatures of both thermistors progressively increase and the temperature difference progressively increases consequent upon the melting of the frost on the evaporator.

Thus, at least the switch 52 switches back to its 0 rail or condition during the defrost cycle and generally the switch 56 also returns to its 0 condition.

However, the relay RL when operated, remains energised until the thermostat switch 28 automatically opens consequent upon the increasing temperature of the evaporator.

De-energisation of the relay RL however, does not cause the timer to be de-energised as the latter includes a by-pass switch which is automatically closed when the timer commences to operate and which remains closed until the pre-set time cycle is completed when the compressor motor and fan are automatically restarted.

It will be evident from the foregoing description however, that during the defrost cycle, the control circuit shown in FIG. 2 returns to its original condition with at least one of the electronic switches and usually both of them, in the 0 condition while during the next succeeding refrigeration cycle, the thermostat switch 28 recloses when the predetermined temperature is reached thus preparing the relay circuit for subsequent operatlon.

Thus, the invention provides an improved method of and apparatus for automatically controlling refrigerator defrost apparatus so that defrosting occurs only when this is required due to excessive frost build-up and not, as is usual, at fixed time intervals.

Moreover, the defrost control is directly responsive to the particular thermal conditions which are indicative of a need for defrosting as contrasted with the known demand system which operates when the evaporator temperature falls to a predetermined value and with a known indirect method which involves sensing variations in air flow consequent upon frost build-up.

What is claimed is:

ll. Apparatus for controlling the operation of refrigerator defrost apparatus comprising, means for continuously sensing the temperature of the evaporator coil of the refrigerator, means for continuously sensing the temperature of a storage space of the refrigerator, and means controlled by said temperature sensing means for initiating operation of said defrost apparatus when the difference between said two temperatures exceeds a predetermined value and, a selected one of said temperatures is less than a predetermined temperature, said means for initiating defrost including an electrical control circuit comprising two normally turned off electronic switches arranged in series with means operable, when energized to initiate operation of said defrost apparatus, and including means responsive to said two temperature sensing means to cause one of said electronic switches to turn on when the difference between the two temperatures sensed thereby exceeds said predetermined value, and vice versa, and means responsive to a selected one of said temperature sensing means to cause the other said electronic switch to turn on when the temperature sensed thereby is less than the said predetermined temperature, and vice versa.

2. Apparatus according to claim 1, wherein said automatic defrost apparatus comprises timing means which determine the duration of operation of the defrost apparatus.

3. Apparatus according to claim 1, including means responsive to the temperature of a storage space of the refrigerator for terminating operation of the defrost apparatus when the temperature of the storage space rises to apredetermined value. 1

4. Apparatus according to claim 1, wherein each of said temperature sensing means is a thermistor.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2719406 *Apr 29, 1953Oct 4, 1955Seeger Refrigerator CoRefrigerator defrost systems
US2994209 *Feb 26, 1959Aug 1, 1961Gen Motors CorpFrostless refrigerator
US3018637 *Feb 17, 1960Jan 30, 1962Gen Motors CorpRefrigerator with defrost means
US3029611 *Nov 16, 1959Apr 17, 1962Gen Motors CorpRefrigerating apparatus with defrosting means
US3063250 *Aug 19, 1960Nov 13, 1962Gen Motors CorpRefrigeration apparatus with defrost control means
US3222882 *Jan 17, 1964Dec 14, 1965Texas Instruments IncRefrigeration temperature and frost control
US3277662 *Feb 23, 1965Oct 11, 1966Westinghouse Electric CorpRefrigeration system defrost control
US3363429 *Mar 11, 1966Jan 16, 1968Motorola IncTemperature control circuit for refrigeration system
US3474638 *Mar 25, 1968Oct 28, 1969Gen ElectricElectronic refrigeration system defrost control
US3553975 *Aug 7, 1968Jan 12, 1971Sanyo Electric CoRefrigerator temperature and defrosting control
US3681933 *Aug 20, 1970Aug 8, 1972Dynamics Corp AmericaDefrost control
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4086780 *Sep 7, 1976May 2, 1978Bosch-Siemens Hausgerate GmbhRefrigerating apparatus, in particular two-temperature refrigerator
US4142374 *Sep 16, 1977Mar 6, 1979Wylain, Inc.Demand defrost time clock control circuit
US4790143 *Oct 23, 1987Dec 13, 1988Thermo King CorporationMethod and apparatus for monitoring a transport refrigeration system and its conditioned load
US4843833 *Aug 24, 1987Jul 4, 1989Trw Canada LimitedAppliance control system
US4879878 *Apr 15, 1988Nov 14, 1989Trw Canada, Ltd.Air damper assembly for refrigerator/freezer
US4903500 *Jun 12, 1989Feb 27, 1990Thermo King CorporationMethods and apparatus for detecting the need to defrost an evaporator coil
US5460010 *Nov 15, 1993Oct 24, 1995Sanyo Electric Co., Ltd.Refrigerator
US5666816 *Sep 20, 1995Sep 16, 1997Samsung Electronics Co., Ltd.Defrosting method and apparatus for refrigerator using GA-fuzzy theory
US6205800 *May 12, 1999Mar 27, 2001Carrier CorporationMicroprocessor controlled demand defrost for a cooled enclosure
US6606870Jan 5, 2001Aug 19, 2003General Electric CompanyDeterministic refrigerator defrost method and apparatus
US6851270 *Jun 9, 2003Feb 8, 2005Texas Instruments IncorporatedIntegrated refrigeration control
US20040244389 *Jun 9, 2003Dec 9, 2004Denvir Kerry J.Integrated refrigeration control
US20060242973 *Apr 5, 2004Nov 2, 2006Bsh Bosch Und Siemens Hausgerate GmbhRefrigeration device and operating method for the same
US20070006600 *Apr 5, 2004Jan 11, 2007Bsh Bosch Und Siemens Hausgeråte GmbhRefrigeration device with adaptive automatic defrosting and corresponding defrosting method
US20080196424 *Feb 20, 2007Aug 21, 2008Behr America, Inc.Rear evaporator core freeze protection method
DE4400634A1 *Jan 12, 1994Jul 13, 1995Licentia GmbhCooling equipment with electrically heated evaporator
Classifications
U.S. Classification62/155, 62/80, 62/213, 62/156, 62/208
International ClassificationF25D21/00, F25D21/08
Cooperative ClassificationF25D21/006, F25D2700/122, F25B2700/2117, F25D2400/04
European ClassificationF25D21/00A2
Legal Events
DateCodeEventDescription
Jan 21, 1992ASAssignment
Owner name: WHIRLPOOL INTERNATIONAL B.V.
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:U. S. PHILIPS CORPORATION;REEL/FRAME:005978/0607
Effective date: 19901113
Owner name: WHIRLPOOL INTERNATIONAL B.V., NETHERLANDS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:U. S. PHILIPS CORPORATION;REEL/FRAME:005978/0607
Jan 21, 1992AS02Assignment of assignor's interest
Owner name: U. S. PHILIPS CORPORATION
Effective date: 19901113
Owner name: WHIRLPOOL INTERNATIONAL B.V. A CORP. OF THE KINGDO
Feb 7, 1991AS02Assignment of assignor's interest
Owner name: U. S. PHILIPS CORPORATION, A DE CORP.
Effective date: 19901113
Owner name: WHIRLPOOL INTERNATIONAL B.V., TARWELAAN 58, 5632 K
Feb 7, 1991ASAssignment
Owner name: WHIRLPOOL INTERNATIONAL B.V., TARWELAAN 58, 5632 K
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:U. S. PHILIPS CORPORATION, A DE CORP.;REEL/FRAME:005591/0657
Effective date: 19901113