US2763131A - Defrosting means for refrigerating systems - Google Patents

Defrosting means for refrigerating systems Download PDF

Info

Publication number
US2763131A
US2763131A US474713A US47471354A US2763131A US 2763131 A US2763131 A US 2763131A US 474713 A US474713 A US 474713A US 47471354 A US47471354 A US 47471354A US 2763131 A US2763131 A US 2763131A
Authority
US
United States
Prior art keywords
tank
evaporator
liquid
refrigerant
compressor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US474713A
Inventor
Sorensen Ejnar
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US474713A priority Critical patent/US2763131A/en
Application granted granted Critical
Publication of US2763131A publication Critical patent/US2763131A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B47/00Arrangements for preventing or removing deposits or corrosion, not provided for in another subclass
    • F25B47/02Defrosting cycles
    • F25B47/022Defrosting cycles hot gas defrosting
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B2400/00General features or devices for refrigeration machines, plants or systems, combined heating and refrigeration systems or heat-pump systems, i.e. not limited to a particular subgroup of F25B
    • F25B2400/16Receivers

Definitions

  • My invention relates to refrigerating systems and more particularly to defrosting means'forsuch systems. It is an object of my inventionto provide an improved means for'quickly and thoroughly defrosting a refrigerating system by introducing hot refrigerant into the evaporator, draining the resultant liquid into-a tank and thereafterreturning the refrigerantto the evaporator for resumption of operation ofthe refrigerating system.
  • my. invention isembodied in a refrigerating systemof the floodedtype.
  • The. evaporator 1 of thissystem is disposed-in a cooling Air is circulated over the evaporator :bymeans ofthe motor driven blower 2.
  • a water drain 1a is provided for the -.evaporator housing.
  • a compressor 3 discharges the refrigerant-through a pipe line 4to a condenser 5 from which the refrigerant passes through pipe li-ne'6 into the liquid receiver 7.
  • a pipe line8 conducts the refrigerant ,to an accumulator '9 from where the refrigerant enters the evaporator through-a pipe line 10 leading into the vcoils of the evaporator.
  • the line 8 is a solenoidconnected in a line extending from the upper-part of :the evaporator 1 intothe upper end of the accumulator 9.
  • a valve 14a is provided in the line 14.
  • a large. closedtank 1216 is disposed to receivefthe rrefrigerantz-frorn' the evaptorato -t mugh admi -l ne 1*7 .s. bjec ;to controlbymeans Patented Sept. 18, 1956 ice the bottom to the top of the tank, and operates'a magnetic switch 27 to control an electric circuit' 29 for thesolenoid valve 28 in the line 8 leading from the liquid-receiver 7.
  • Another electric circuit 29a connects-in series the blower 2 and the solenoid valve 11.
  • a bypass pipe 34 connects the tank 16 with thepipe line 32 and is provided with a pressure regulator 35.
  • a pipe line 36 connects the pressure regulator 35 with a discharge pipe line 37 which latter leads from the suction line'14 into the tank 16. "The line 37 is controlled by a valve 38.
  • a pipe line '39 leads into the tank'16.
  • Acheck valve 40 in the line'39' prevents liquid from the line -8 from flowing into the tank 16 but permits flow from the tank into the line 8.
  • a manually operable valve41 is provided in the line'39.
  • a pipe 8a is connected in the liquid line 8 and leads to said other evaporators.
  • the valves 33 and 38 are. closed, the blower 2 is. stopped and the solenoid valvell then closes.
  • the valve 24 is closed and the valves 18 and 14a are opened WhC16bY I.h6. hot gas will now pass rapidly through the. evaporator 1 for about 30 seconds.
  • the pressure regulator35 will now open as it is adjusted for example to a pressure of from 10 to 15 lbs. below compressordischarge pressure.
  • This opening of the pressure regulator will permit the gas to pass through the pipe line 34- and line 32 to suction line 23, whereby the compressor will continue its operation to produce hot refrigerant.
  • the pressure,regu1ator35-i may be adjustedas. desired to control the rate of flow of hot gas to the evaporator 1, best to obtain the desired defrosting results.
  • the compressor 3 is maintained in operation during the defrosting operation of the one unit here shown. After the evaporator is defrosted, this usually requiring from 3 to minutes depending upon capacity of the system, the valves 14a and 18 are closed, valves 13 and 11 are opened and the blower 2 is now started.
  • the liquid level in the tank 16 when the defrosting operation is completed, will rise to a level causing the float unit 25 to actuate the switch 27 so that the solenoid valve 28 will close.
  • the check valve 40 will open under pressure from the tank-16, the. valve 41 being normally open, and the liquid refrigerant in the tank will now flow through the pipe line 39 into the line 8 and thence into the evaporator, without passing through the liquid receiver 7.
  • the float unit 25 When the liquid is boiled out of the tank 16 and the level is lowered a predetermined extent, the float unit 25 will actuate the switch 27 whereby the solenoid 28 will open and the system will now operate on the normal refrigerating cycle, the pressure in the line 8 operating in the line 39 to close the check valve 40.
  • a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means operable responsive to the liquid level in said tank for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation.
  • defrosting means including a tank; means for passing hot refrigerant into the evaporator from the outlet side of the evaporator; means for draining liquid from the inlet side of the evaporator into said tank; and means operable responsive to the level of the liquid in said tank and the operation of said compressor for returning liquid refrigerant to said evaporator independently of said liquid receiver upon completion of a defrosting operation.
  • defrosting means including a tank; means for circulating hot refrigerant through said evaporator; means for draining from said evaporator into said tank the liquid refrigerant which condenses in the evaporator during defrosting; means for returning the liquid from said tank into said evaporator upon completion of a defrosting operation; and float operated means responsive to the liquid level in said tank for controlling the flow of liquid from said tank to said evaporator.
  • defrosting means including a tank; means for circulating hot refrigerant through said evaporator; means for draining from said evaporator into said tank the liquid refrigerant which condenses in the evaporator during defrosting; means for returning the liquid from said tank into said evaporator upon completion of a defrosting operation, and float operated means responsive to the liquid level in said tank for controlling the flow of liquid from said tank to said evaporator and restoring the system to normal refrigerant flow relationship.
  • defrosting means including a tank; means for conducting hot refrigerant into outlet side of the evaporator; means for draining from the intake side of the evaporator into said tank the condensation resulting from passing the hot refrigerant into said evaporator; means responsive to the operation of the compressor and the pressure in said tank for returning liquid from said tank to the evaporator; and a float actuated means responsive to the level of the liquid in said tank for restoring the system to normal refrigerant flow relationship following the defrosting operation.
  • defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation; means connecting said tank to the suction side of said compressor, valve means for controlling said connecting means; and float actuated means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship.
  • defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation, means connecting said tank to the suction side of said compressor, a pressure regulator-operated valve means in said connecting means; means for conducting hot refrigerant to said tank thence through said pressureregulator-operated valve means and said connecting means to said compressor; and means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship.
  • defrosting means including a tank; means connected in the system for shutting off flow of refrigerant from said receiver; means for circulating hot refrigerant through said tank and said evaporator; means for conducting liquid from said evaporator into said tank during the defrosting operation; means connected in the system for conducting liquid from the tank back into the evaporator upon completion of a defrosting operation, responsive to operation of said compressor and independently of said liquid receiver; and float actuated means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship.
  • defrosting means including a tank; means connected in the system for shutting off flow of refrigerant from said receiver; means for circulating hot refrigerant through said tank and back to the compressor to maintain the compressor in operation for producing hot refrigerant; said last-named means including a pressure regulator-operated valve responsive to pressure in said tank; means for circulating hot refrigerant through said evaporator; means for conducting liquid from the evaporator to said tank; means for returning liquid refrigerant from said tank to said evaporator without passing the liquid through said liquid receiver upon completion of a defrosting operation; and means responsive to the liquid level in the tank for restoring the system to normal refrigerant flow relationship following said return of said liquid to said evaporator.
  • a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank, means for passing hot refrigerant into the evaporator; means for draining liquid from the evaporator into said tank; and means for conducting liquid from said tank to said evaporator independently of said liquid receiver, said means operable responsive to a predetermined level of liquid in said tank and the operation of said compressor.
  • defrosting means including a tank; means for conducting hot refrigerant into outlet side of the evaporator; means for draining from the intake side of the evaporator into said tank the condensation resulting from passing the hot refrigerant into said evaporator; means responsive to the operation of the compressor and the pressure in said tank for returning liquid from said tank to the evaporator; a float actuated means responsive to the level of the liquid in said tank for restoring the system to normal refrigerant flow relationship following the defrosting operation; an oil sump connected with said tank; and means connecting said sump with said system including an oil separator and a flow line leading to the suction side of said compressor through said separator.
  • a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation, means connecting said tank to the suction side of said compressor, a pressure regulator-operated valve means in said connecting means; means for conducting hot refrigerant to said tank thence through said pressure-regulator-operated valve means and said connecting means to said compressor; means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship; an oil sump connected with said tank; said system having an oil separator; and a flow line connecting said sump with said compressor through said separator.

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Defrosting Systems (AREA)

Description

Sept. 18, 1956 E. SQRENSEN DEFROSTING MEANS FOR REFRIGERATING SYSTEMS Filed Dec. 13, 1954 IN V EN TOR. L JNAR SORENSEN ATTORNEY if g .room or chamber, A indicated by thedashed line.
United States Patent o DEFROSTING MEANSFOR SYSTEMS Ejnar Sorens en, Hollywood, Calif. Application December 13, 1954, tserialaNo. 474,713 "12 Claims. 61. 52- 3) My invention relates to refrigerating systems and more particularly to defrosting means'forsuch systems. It is an object of my inventionto provide an improved means for'quickly and thoroughly defrosting a refrigerating system by introducing hot refrigerant into the evaporator, draining the resultant liquid into-a tank and thereafterreturning the refrigerantto the evaporator for resumption of operation ofthe refrigerating system.
More specifically it is an object of this invention to provide a defrosting mean such as described in which the hot refrigerant enters the top or outlet-sideof the evaporator, passes through the evaporator tothe bottom and then drains'from the evaporator into a tank connected in the system and controlled in -a :novel manner whereby after the defrosting operation, the refrigeranh as a liquid is returnedto the evaporator withouthaving been passed As arethan heretofore.
It is another object of my inventionto provide an improved defrosting system such as described which may Ibe. employed effectively with-systems having a plurality of evaporatorsas well as in asystem having a single evaporator.
I'willdescribe only one form of refrigerating system .embodyingmy invention, rand-will then'point out the .novel features thereof in claims.
The single figure in the drawing is, a diagrammatic illustration'of a refrigerating system provided with defrosting 1 means embodying my invention.
As. shownin the accompanying drawing, my. invention isembodied in a refrigerating systemof the floodedtype. The. evaporator 1 of thissystem is disposed-in a cooling Air is circulated over the evaporator :bymeans ofthe motor driven blower 2. A water drain 1a is provided for the -.evaporator housing.
A compressor 3 discharges the refrigerant-through a pipe line 4to a condenser 5 from which the refrigerant passes through pipe li-ne'6 into the liquid receiver 7.
.From the receiver-7, a pipe line8 conducts the refrigerant ,to an accumulator '9 from where the refrigerant enters the evaporator through-a pipe line 10 leading into the vcoils of the evaporator. .In the line 8 is a solenoidconnected in a line extending from the upper-part of :the evaporator 1 intothe upper end of the accumulator 9. A valve 14a is provided in the line 14.
'In-accordance'with my invention, a large. closedtank 1216 is disposed to receivefthe rrefrigerantz-frorn' the evaptorato -t mugh admi -l ne 1*7 .s. bjec ;to controlbymeans Patented Sept. 18, 1956 ice the bottom to the top of the tank, and operates'a magnetic switch 27 to control an electric circuit' 29 for thesolenoid valve 28 in the line 8 leading from the liquid-receiver 7. Another electric circuit 29a connects-in series the blower 2 and the solenoid valve 11. These circuits are supplied through a switch box 30 towhich line conductors'31lead from a suitable source. Switch means, not shown, in the box 30 provides for control of the circuit for the blower 2 and solenoid valve '11. V
Leading from the compressor suction line 23 to the tank 16 is pipe line 32 having a shut-off valve 33. A bypass pipe 34 connects the tank 16 with thepipe line 32 and is provided with a pressure regulator 35. A pipe line 36 connects the pressure regulator 35 with a discharge pipe line 37 which latter leads from the suction line'14 into the tank 16. "The line 37 is controlled by a valve 38.
From the liquid line 8 a pipe line '39 leads into the tank'16. Acheck valve 40 in the line'39' prevents liquid from the line -8 from flowing into the tank 16 but permits flow from the tank into the line 8. A manually operable valve41 is provided in the line'39.
It will now be apparent that'this system will operate 'in the known manner to cool the chamber indicated by the dashed line A.
16' under-suction. 'Valve38 is now opened whereby the line 37 will conduct the hotgas from the discharge line 14 into the tank 16. In this connection, it should be noted that the discharge from the line 37 into the tank 16 is effected through a very small orifice indicated at 37a but not actually shown. This causes the hot gas to pass slowly through the pipe lines 14and 37 into'the tank 16 and up through the valve '33 and the line 32 into the suction line 23. This operation is effected to bring the hot gas close to the unit-to be defrosted whereby this hot gas may enter that unit.
It should be noted that'if this system'is connectedwith other evaporators, a pipe 8a is connected in the liquid line 8 and leads to said other evaporators. The line 8a;-is controlled by a valve 3b.
After bringing thehot gas close tothe evaporator 1, the valves 33 and 38 are. closed, the blower 2 is. stopped and the solenoid valvell then closes. Following this closing of the solenoid valve 11, the valve 24 is closed and the valves 18 and 14a are opened WhC16bY I.h6. hot gas will now pass rapidly through the. evaporator 1 for about 30 seconds. At this time, as all outlet valves on the tank 16 are closed, the pressure in the evaporator and tank 16 will equalize. The pressure regulator35 will now open as it is adjusted for example to a pressure of from 10 to 15 lbs. below compressordischarge pressure.
This opening of the pressure regulator will permit the gas to pass through the pipe line 34- and line 32 to suction line 23, whereby the compressor will continue its operation to produce hot refrigerant.
The pressure,regu1ator35-imay be adjustedas. desired to control the rate of flow of hot gas to the evaporator 1, best to obtain the desired defrosting results.
The compressor 3 is maintained in operation during the defrosting operation of the one unit here shown. After the evaporator is defrosted, this usually requiring from 3 to minutes depending upon capacity of the system, the valves 14a and 18 are closed, valves 13 and 11 are opened and the blower 2 is now started.
The liquid level in the tank 16 when the defrosting operation is completed, will rise to a level causing the float unit 25 to actuate the switch 27 so that the solenoid valve 28 will close. The check valve 40 will open under pressure from the tank-16, the. valve 41 being normally open, and the liquid refrigerant in the tank will now flow through the pipe line 39 into the line 8 and thence into the evaporator, without passing through the liquid receiver 7.
When the liquid is boiled out of the tank 16 and the level is lowered a predetermined extent, the float unit 25 will actuate the switch 27 whereby the solenoid 28 will open and the system will now operate on the normal refrigerating cycle, the pressure in the line 8 operating in the line 39 to close the check valve 40.
Although I have herein shown and described only one form of refrigerating system including one form of defrosting means therefor, it is to be understood that various changes and modifications may be made therein without departing from the spirit of the invention and the spirit and scope of the appended claims.
What I claim is:
1. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means operable responsive to the liquid level in said tank for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation.
2. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for passing hot refrigerant into the evaporator from the outlet side of the evaporator; means for draining liquid from the inlet side of the evaporator into said tank; and means operable responsive to the level of the liquid in said tank and the operation of said compressor for returning liquid refrigerant to said evaporator independently of said liquid receiver upon completion of a defrosting operation.
3. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for circulating hot refrigerant through said evaporator; means for draining from said evaporator into said tank the liquid refrigerant which condenses in the evaporator during defrosting; means for returning the liquid from said tank into said evaporator upon completion of a defrosting operation; and float operated means responsive to the liquid level in said tank for controlling the flow of liquid from said tank to said evaporator.
4. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant fiow relationship; defrosting means including a tank; means for circulating hot refrigerant through said evaporator; means for draining from said evaporator into said tank the liquid refrigerant which condenses in the evaporator during defrosting; means for returning the liquid from said tank into said evaporator upon completion of a defrosting operation, and float operated means responsive to the liquid level in said tank for controlling the flow of liquid from said tank to said evaporator and restoring the system to normal refrigerant flow relationship.
5. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant into outlet side of the evaporator; means for draining from the intake side of the evaporator into said tank the condensation resulting from passing the hot refrigerant into said evaporator; means responsive to the operation of the compressor and the pressure in said tank for returning liquid from said tank to the evaporator; and a float actuated means responsive to the level of the liquid in said tank for restoring the system to normal refrigerant flow relationship following the defrosting operation.
6. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation; means connecting said tank to the suction side of said compressor, valve means for controlling said connecting means; and float actuated means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship.
7. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation, means connecting said tank to the suction side of said compressor, a pressure regulator-operated valve means in said connecting means; means for conducting hot refrigerant to said tank thence through said pressureregulator-operated valve means and said connecting means to said compressor; and means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship.
8. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant flow relationship; defrosting means including a tank; means connected in the system for shutting off flow of refrigerant from said receiver; means for circulating hot refrigerant through said tank and said evaporator; means for conducting liquid from said evaporator into said tank during the defrosting operation; means connected in the system for conducting liquid from the tank back into the evaporator upon completion of a defrosting operation, responsive to operation of said compressor and independently of said liquid receiver; and float actuated means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship.
9. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant flow relationship; defrosting means including a tank; means connected in the system for shutting off flow of refrigerant from said receiver; means for circulating hot refrigerant through said tank and back to the compressor to maintain the compressor in operation for producing hot refrigerant; said last-named means including a pressure regulator-operated valve responsive to pressure in said tank; means for circulating hot refrigerant through said evaporator; means for conducting liquid from the evaporator to said tank; means for returning liquid refrigerant from said tank to said evaporator without passing the liquid through said liquid receiver upon completion of a defrosting operation; and means responsive to the liquid level in the tank for restoring the system to normal refrigerant flow relationship following said return of said liquid to said evaporator.
10. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank, means for passing hot refrigerant into the evaporator; means for draining liquid from the evaporator into said tank; and means for conducting liquid from said tank to said evaporator independently of said liquid receiver, said means operable responsive to a predetermined level of liquid in said tank and the operation of said compressor.
11. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant into outlet side of the evaporator; means for draining from the intake side of the evaporator into said tank the condensation resulting from passing the hot refrigerant into said evaporator; means responsive to the operation of the compressor and the pressure in said tank for returning liquid from said tank to the evaporator; a float actuated means responsive to the level of the liquid in said tank for restoring the system to normal refrigerant flow relationship following the defrosting operation; an oil sump connected with said tank; and means connecting said sump with said system including an oil separator and a flow line leading to the suction side of said compressor through said separator.
12. In a refrigerating system including a compressor, a condenser, a liquid receiver, an evaporator and flow control means connected normally in refrigerant flow relationship; defrosting means including a tank; means for conducting hot refrigerant from the compressor through the evaporator; a drain pipe line leading from said evaporator to said tank; and means for returning refrigerant from said tank to said evaporator without passing through said liquid receiver upon completion of a defrosting operation, means connecting said tank to the suction side of said compressor, a pressure regulator-operated valve means in said connecting means; means for conducting hot refrigerant to said tank thence through said pressure-regulator-operated valve means and said connecting means to said compressor; means responsive to the liquid level in said tank for restoring the system to normal refrigerant flow relationship; an oil sump connected with said tank; said system having an oil separator; and a flow line connecting said sump with said compressor through said separator.
References Cited in the file of this patent UNITED STATES PATENTS 2,444,514 Kubaugh July 6, 1948 2,618,129 Williams Nov. 18, 1952 2,643,524 Wilbushewich June 30, 1953
US474713A 1954-12-13 1954-12-13 Defrosting means for refrigerating systems Expired - Lifetime US2763131A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US474713A US2763131A (en) 1954-12-13 1954-12-13 Defrosting means for refrigerating systems

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US474713A US2763131A (en) 1954-12-13 1954-12-13 Defrosting means for refrigerating systems

Publications (1)

Publication Number Publication Date
US2763131A true US2763131A (en) 1956-09-18

Family

ID=23884657

Family Applications (1)

Application Number Title Priority Date Filing Date
US474713A Expired - Lifetime US2763131A (en) 1954-12-13 1954-12-13 Defrosting means for refrigerating systems

Country Status (1)

Country Link
US (1) US2763131A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3264836A (en) * 1964-03-04 1966-08-09 Chemetron Corp Refrigeration system and method
US3837175A (en) * 1973-10-09 1974-09-24 Refco Inc Refrigeration system having improved heat transfer and reduced power requirements
US20230080672A1 (en) * 2021-09-16 2023-03-16 Trane International Inc. Refrigerant leak mitigation system

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2444514A (en) * 1944-01-28 1948-07-06 Vogt & Co Inc Henry Tube-ice machine using compressor to reverse pressure
US2618129A (en) * 1949-05-26 1952-11-18 Henry Vogt Machine Company Ice-making apparatus
US2643524A (en) * 1950-05-30 1953-06-30 Wilbushewich Eugen Freezing plant

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2444514A (en) * 1944-01-28 1948-07-06 Vogt & Co Inc Henry Tube-ice machine using compressor to reverse pressure
US2618129A (en) * 1949-05-26 1952-11-18 Henry Vogt Machine Company Ice-making apparatus
US2643524A (en) * 1950-05-30 1953-06-30 Wilbushewich Eugen Freezing plant

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3264836A (en) * 1964-03-04 1966-08-09 Chemetron Corp Refrigeration system and method
US3837175A (en) * 1973-10-09 1974-09-24 Refco Inc Refrigeration system having improved heat transfer and reduced power requirements
US20230080672A1 (en) * 2021-09-16 2023-03-16 Trane International Inc. Refrigerant leak mitigation system

Similar Documents

Publication Publication Date Title
US2575325A (en) Heat pump system
US2375157A (en) Heat pump system
US3248895A (en) Apparatus for controlling refrigerant pressures in refrigeration and air condition systems
US2751761A (en) Combination heat pump and water heater
US2241070A (en) Heat pump system
US2668420A (en) Combination water heating and room cooling system and method employing heat pumps
US2892324A (en) Refrigeration system with heat reclaiming means
US2978877A (en) Hot gas defrosting system with gravity liquid return for refrigeration systems
US2133962A (en) Refrigerating apparatus
US3213637A (en) Refrigeration defrost system
US2463881A (en) Heat pump
US2524568A (en) Defrosting apparatus for evaporators
US2763131A (en) Defrosting means for refrigerating systems
US2233633A (en) Refrigerating apparatus
US2274774A (en) Refrigerating apparatus
US2748572A (en) Air conditioning system
US2258458A (en) Control of refrigerating fluids
US1819510A (en) Defrosting apparatus
US2255967A (en) Combined heat exchange and domestic water supply system
US2756970A (en) Air conditioning system
US2336671A (en) Refrigerating apparatus
US2664721A (en) Reverse cycle heating and cooling system
US1866992A (en) Refrigeration
US3797265A (en) Pressurized refrigerant feed with recirculation
US2667039A (en) Water cooler thermostatic control