US1819510A - Defrosting apparatus - Google Patents

Defrosting apparatus Download PDF

Info

Publication number
US1819510A
US1819510A US400513A US40051329A US1819510A US 1819510 A US1819510 A US 1819510A US 400513 A US400513 A US 400513A US 40051329 A US40051329 A US 40051329A US 1819510 A US1819510 A US 1819510A
Authority
US
United States
Prior art keywords
brine
coil
defrosting
valves
heater
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
US400513A
Inventor
Edward S Hebeler
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 US400513A priority Critical patent/US1819510A/en
Application granted granted Critical
Publication of US1819510A publication Critical patent/US1819510A/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
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D21/00Defrosting; Preventing frosting; Removing condensed or defrost water
    • F25D21/06Removing frost
    • F25D21/12Removing frost by hot-fluid circulating system separate from the refrigerant system

Definitions

  • This invention relates generally toa defrosting apparatus but more artlcularly to an apparatus designed for efrostin the brine pipes employed in cold storage p ants.
  • Its chief object is the provision of a portable, defrosting apparatus of this character which. is so designed and constructed as to efi'ect the defrosting of the brine pipes in cold storage rooms in a minimum period of time, with a reduction in the labor required, and without transferring goods from one room to another.
  • Another object of the invention is to provide a defrosting apparatus which can be readily conveyed from one room to another for individually defrosting the brine pipes therein, which is simple, compact, durable and inexpensive in construction, which is reliable and eflicient in operation, and which can be readily connected and disconnected from the piping to be defrosted.
  • Referring to the drawin 10 indicates a coolin coil or piping whic is connected at its en s to the headers 11, 12, which in turn are connected to pipes 13 and 14 leading to the inlet and outlet mains 15, 16, respectlvely, of the brine supply, the brine being circulated through these parts in the usual manner for provlding the necessary refrigeration in the rooms of the cold storage plant.
  • Interposed in the pipes 13, 14 are valves 17 for controlling the admission and discharge of brine to and from the cooling coil. During the defrosting of the coil these valves are shut off.
  • a heater 19 mounted on a portable truck 18 which may 5 be readily conveyed from place to place is a heater 19 through which the brine is adapted to be circulated for defrosting the coil 10.
  • This heater may be of any appropriate construction that shown in the drawing bein of an electric type containing a brine ch'am er brine to be 20 and a heating coil 21 includedin an electric circuit 22 controlled by a switch 23 mounted on a panel 24 applied to the truck.
  • a ipe 25 Leading to the lower end of the brine chamber 20 1s a ipe 25 for the admission of the eated and connected to the upper end of said chamber is a pipe 26 through which the heated brine is discharged and thence circulated through the coohng coil for the purpose of defrosting it.
  • the brine for defrosting the cooling coil is the same brine which is circulated through it for cooling or refrigeration purposes and to eifect the circulation of this brine through the heater 19 a circulating pump 27 is employed, the same being driven by an electric motor or otherwise and being mounted on the truck 18 alongside said heater.
  • the discharge end of this pump is connected to the brine inlet pipe 25 leading to the brine chamber of the heater, while its inlet end is connected by a pipe 28 with the pipe 14 which connects the header 12 with the main 16.
  • the discharge pipe 2.6 through which the heated brine is conducted from the heater to the coil 10 is connected to the pipe 13'joining the header 11 with the main 15.
  • cut-off valves 29 whic are closed during the normal refrigerating period and which are opened during the defrosting period.
  • These pipes preferably include flexible sections 30, 31 which may be readily coupled to suitable fittings 32 depending from the valves 29.
  • a thermostat 33 is preferably included in the electric circuit 22 to automatically shut off the heater when the temperature of the brine has been heated sufiiciently to defrost the coil.
  • This thermostat is ap lied to the pipe 28 connecting the coil with t e pump 27 and is included in a branch circuit containing an electromagnet 34 which, when energized by closing theauxiliary switch 35, automatically closes the heater control switch 23 to bring the heating coil 21 into operation.
  • a spring 36 applied to said switch 23 acts to open it when the thermostat contacts are broken as a result of the brine being raised to the desired predetermined temperature for defrosting.
  • this improved defrosting apparatus is as follows
  • the truck 18 is moved to the cold storage room whose cooling coil is to be defrosted and the flexible pipe sections 30, 31 are coupled to the fittings 32 adjacent the valves 29 which control the circulation of the heated brine through the coil.
  • the valves 17 in the pipes 13, 14 are now closed to cut off the circulation of the cooling brine through the coil 10, and the valves 29 are opened to permit the brine remaining in the coil to be circulated through the heater 19 so that its temperature is raised sufficiently to defrost the cooling coil.
  • the circulating pump 27 is started and the heater circuit 22 closed in the manner heretofore described.
  • the circulation of the heated brine through the heater and coil 10 then continues until the latter is defrosted, the heater being automatically shut off by the thermostat 33 when the desired predetermined brinetemperature has been reached.
  • the brine is preferably heated to a temperature of between 32 .and 35 degrees F. and this temperature is automatically maintained by the thermostat. At this temperature the brine acts to break the bond between the ice and the coil so that the ice and frostcan be readily removed by tapping it, but'the temperature is not such as to cause melting and dripping of the frost from the coil.
  • the circulating pump is stopped, the valves 29 are closed, the flexible pipe-sections 30, 31 are detached, and the valves 17 opened, whereby the cooling brine is again circulated through the coil to frost it.
  • this portable defrosting apparatus While manifestly simple and compact in construction, this portable defrosting apparatus is easy to handle; it effects the defrosting of the cooling coils in a minimum period of time; it enables the defrosting of the coils in one storage room without disturbing the others; and it eliminates the transfer of goods from the room while the defrosting operation is in progress.
  • An apparatus for defrosting the cooling coils in coldstorage plants said coils including valves for controlling the admission and discharge of the cooling brine to and from the same, comprising a portable frame, a heating chamber mounted on said frame and having inlet and outlet pipes connected thereto, means for detachably joining said pipes to the cooling coil at a point between the same and their controlling valves, valves in said pipes for controlling the passage of the brine in the coil through said chamber, and a pump interposed in one of said pipes for circulating the heated brine through the coil to defrost EDWARD s.
  • HEBELER An apparatus for defrosting the cooling coils in coldstorage plants, said coils including valves for controlling the admission and discharge of the cooling brine to and from the same, comprising a portable frame, a heating chamber mounted on said frame and having inlet and outlet pipes connected thereto, means for detachably joining said pipes to the cooling coil at a point between the same and their controlling valves, valves in said pipes for controlling the passage of the brine in the

Description

Aug. 18, 1931.
E. S. HEBELER DEFROSTING APPARATUS Filed Oct. 18, 1929 W, 4t m W m M Patented Aug. 18, f 1931 PATENT OFFICE EDWARD S. HEBELER, OF WILLIAMSVILLE, NEW YORK DEFBOSTING APPARATUS Application filed October 18, 1929. Serial No. 400,518.
This invention relates generally toa defrosting apparatus but more artlcularly to an apparatus designed for efrostin the brine pipes employed in cold storage p ants.
Its chief object is the provision of a portable, defrosting apparatus of this character which. is so designed and constructed as to efi'ect the defrosting of the brine pipes in cold storage rooms in a minimum period of time, with a reduction in the labor required, and without transferring goods from one room to another.
Another object of the invention is to provide a defrosting apparatus which can be readily conveyed from one room to another for individually defrosting the brine pipes therein, which is simple, compact, durable and inexpensive in construction, which is reliable and eflicient in operation, and which can be readily connected and disconnected from the piping to be defrosted.
- The accompanying drawing is a side view of the apparatus embodying my invention,
the same being shown partly dia rammatic and in connection with the brine plping to be defrosted.
Similar characters of reference indicate corresponding parts throughout the several views. 7
Referring to the drawin 10 indicates a coolin coil or piping whic is connected at its en s to the headers 11, 12, which in turn are connected to pipes 13 and 14 leading to the inlet and outlet mains 15, 16, respectlvely, of the brine supply, the brine being circulated through these parts in the usual manner for provlding the necessary refrigeration in the rooms of the cold storage plant. Interposed in the pipes 13, 14 are valves 17 for controlling the admission and discharge of brine to and from the cooling coil. During the defrosting of the coil these valves are shut off. I
Mounted on a portable truck 18 which may 5 be readily conveyed from place to place is a heater 19 through which the brine is adapted to be circulated for defrosting the coil 10. This heater may be of any appropriate construction that shown in the drawing bein of an electric type containing a brine ch'am er brine to be 20 and a heating coil 21 includedin an electric circuit 22 controlled by a switch 23 mounted on a panel 24 applied to the truck. Leading to the lower end of the brine chamber 20 1s a ipe 25 for the admission of the eated and connected to the upper end of said chamber is a pipe 26 through which the heated brine is discharged and thence circulated through the coohng coil for the purpose of defrosting it.
The brine for defrosting the cooling coil is the same brine which is circulated through it for cooling or refrigeration purposes and to eifect the circulation of this brine through the heater 19 a circulating pump 27 is employed, the same being driven by an electric motor or otherwise and being mounted on the truck 18 alongside said heater. The discharge end of this pump is connected to the brine inlet pipe 25 leading to the brine chamber of the heater, while its inlet end is connected by a pipe 28 with the pipe 14 which connects the header 12 with the main 16. The discharge pipe 2.6 through which the heated brine is conducted from the heater to the coil 10 is connected to the pipe 13'joining the header 11 with the main 15. Interposed in the ipes 26 and 28 are cut-off valves 29 whic are closed during the normal refrigerating period and which are opened during the defrosting period. These pipes preferably include flexible sections 30, 31 which may be readily coupled to suitable fittings 32 depending from the valves 29.
A thermostat 33 is preferably included in the electric circuit 22 to automatically shut off the heater when the temperature of the brine has been heated sufiiciently to defrost the coil. This thermostat is ap lied to the pipe 28 connecting the coil with t e pump 27 and is included in a branch circuit containing an electromagnet 34 which, when energized by closing theauxiliary switch 35, automatically closes the heater control switch 23 to bring the heating coil 21 into operation. A spring 36 applied to said switch 23 acts to open it when the thermostat contacts are broken as a result of the brine being raised to the desired predetermined temperature for defrosting.
Briefly stated the operation of this improved defrosting apparatus is as follows The truck 18 is moved to the cold storage room whose cooling coil is to be defrosted and the flexible pipe sections 30, 31 are coupled to the fittings 32 adjacent the valves 29 which control the circulation of the heated brine through the coil. The valves 17 in the pipes 13, 14 are now closed to cut off the circulation of the cooling brine through the coil 10, and the valves 29 are opened to permit the brine remaining in the coil to be circulated through the heater 19 so that its temperature is raised sufficiently to defrost the cooling coil. The circulating pump 27 is started and the heater circuit 22 closed in the manner heretofore described. The circulation of the heated brine through the heater and coil 10 then continues until the latter is defrosted, the heater being automatically shut off by the thermostat 33 when the desired predetermined brinetemperature has been reached. The brine is preferably heated to a temperature of between 32 .and 35 degrees F. and this temperature is automatically maintained by the thermostat. At this temperature the brine acts to break the bond between the ice and the coil so that the ice and frostcan be readily removed by tapping it, but'the temperature is not such as to cause melting and dripping of the frost from the coil. After the defrosting operation is completed, the circulating pump is stopped, the valves 29 are closed, the flexible pipe-sections 30, 31 are detached, and the valves 17 opened, whereby the cooling brine is again circulated through the coil to frost it.
While manifestly simple and compact in construction, this portable defrosting apparatus is easy to handle; it effects the defrosting of the cooling coils in a minimum period of time; it enables the defrosting of the coils in one storage room without disturbing the others; and it eliminates the transfer of goods from the room while the defrosting operation is in progress.
I claim as my invention An apparatus for defrosting the cooling coils in coldstorage plants, said coils including valves for controlling the admission and discharge of the cooling brine to and from the same, comprising a portable frame, a heating chamber mounted on said frame and having inlet and outlet pipes connected thereto, means for detachably joining said pipes to the cooling coil at a point between the same and their controlling valves, valves in said pipes for controlling the passage of the brine in the coil through said chamber, and a pump interposed in one of said pipes for circulating the heated brine through the coil to defrost EDWARD s. HEBELER.
US400513A 1929-10-18 1929-10-18 Defrosting apparatus Expired - Lifetime US1819510A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US400513A US1819510A (en) 1929-10-18 1929-10-18 Defrosting apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US400513A US1819510A (en) 1929-10-18 1929-10-18 Defrosting apparatus

Publications (1)

Publication Number Publication Date
US1819510A true US1819510A (en) 1931-08-18

Family

ID=23583910

Family Applications (1)

Application Number Title Priority Date Filing Date
US400513A Expired - Lifetime US1819510A (en) 1929-10-18 1929-10-18 Defrosting apparatus

Country Status (1)

Country Link
US (1) US1819510A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2628479A (en) * 1950-10-02 1953-02-17 Felix W Powers Defrosting system
US2630685A (en) * 1949-01-19 1953-03-10 Carrier Corp Defrosting arrangement for refrigeration systems
US2632304A (en) * 1949-08-01 1953-03-24 Jr Irby C White Oil defrosting unit
US2635433A (en) * 1949-03-16 1953-04-21 Fred J Schordine Liquid defrosting unit
US3159211A (en) * 1961-10-16 1964-12-01 Trane Co Freeze-up control for air heating and cooling system
US3675441A (en) * 1970-11-19 1972-07-11 Clark Equipment Co Two stage refrigeration plant having a plurality of first stage refrigeration systems
FR2472363A1 (en) * 1979-12-26 1981-07-03 Tyler Refrigeration Corp FURNITURE REFRIGERATED EXPOSURE, DEGIVED WITH AIR AND COMPRISING AN ADDITIONAL HEATER DEFROSTER AIR

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2630685A (en) * 1949-01-19 1953-03-10 Carrier Corp Defrosting arrangement for refrigeration systems
US2635433A (en) * 1949-03-16 1953-04-21 Fred J Schordine Liquid defrosting unit
US2632304A (en) * 1949-08-01 1953-03-24 Jr Irby C White Oil defrosting unit
US2628479A (en) * 1950-10-02 1953-02-17 Felix W Powers Defrosting system
US3159211A (en) * 1961-10-16 1964-12-01 Trane Co Freeze-up control for air heating and cooling system
US3675441A (en) * 1970-11-19 1972-07-11 Clark Equipment Co Two stage refrigeration plant having a plurality of first stage refrigeration systems
FR2472363A1 (en) * 1979-12-26 1981-07-03 Tyler Refrigeration Corp FURNITURE REFRIGERATED EXPOSURE, DEGIVED WITH AIR AND COMPRISING AN ADDITIONAL HEATER DEFROSTER AIR

Similar Documents

Publication Publication Date Title
US2440146A (en) Defrosting mechanism in refrigerating apparatus
US1913433A (en) Defroster
US2713249A (en) Liquid defrosting system and the like
US2668420A (en) Combination water heating and room cooling system and method employing heat pumps
US2375157A (en) Heat pump system
US2530440A (en) Defrosting system for refrigerating apparatus
US2081479A (en) Refrigerator defrosting method and apparatus
US2481348A (en) Air-conditioning apparatus with defrosting means
US1819510A (en) Defrosting apparatus
US2272302A (en) Defrosting means
DE758431C (en) Electrical control device for air conditioning systems
US2148415A (en) Reversible refrigerating apparatus for heating and cooling
US2522484A (en) Method of and apparatus for conditioning air
US2452102A (en) Refrigerating system defrosted by hot liquid refrigerants
US2573684A (en) Refrigeration apparatus, including defrosting means
US2995905A (en) Ice cube forming machine
US2065949A (en) Beer cooling and dispensing system
US2178445A (en) Refrigerating machine
US2086622A (en) Refrigerating apparatus
US2632304A (en) Oil defrosting unit
US3233422A (en) Refrigeration system
US2538660A (en) Refrigerator defroster
US1912841A (en) Defrosting apparatus
JP6752738B2 (en) Open showcase
US2311000A (en) Ice cream hardening and dispensing cabinet