US1815383A - Refrigerating system - Google Patents

Refrigerating system Download PDF

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Publication number
US1815383A
US1815383A US296915A US29691528A US1815383A US 1815383 A US1815383 A US 1815383A US 296915 A US296915 A US 296915A US 29691528 A US29691528 A US 29691528A US 1815383 A US1815383 A US 1815383A
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heat
coils
heat dissipating
movement
dissipating device
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US296915A
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Hugh J Scullen
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COPELAND PRODUCTS Inc
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COPELAND PRODUCTS Inc
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Priority to US296915A priority Critical patent/US1815383A/en
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    • 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
    • F25D31/00Other cooling or freezing apparatus
    • F25D31/002Liquid coolers, e.g. beverage cooler
    • F25D31/003Liquid coolers, e.g. beverage cooler with immersed cooling element

Definitions

  • My invention has for one of its primary objects the provision with a refrigerating apparatus of meansfor starting and stopping the apparatus in response to movement of the heat absorptive portion of the apparatus which movement is caused by the lowering or raisin of the temperature surroundin the heat a sorptive device.
  • my invention contemplates the provision of a heat absorptive element in a body of fluid so that as heat is withdrawn from the fluid, the fluid will congeal on the device, causing the device to float in the fluid for the purpose of operating a control device.
  • the single figure is a view partly in section and partly in elevation of a refrigerating apparatus embodying my invention.
  • a thermally insulated housing 5 within which may be poistioned a tank 6 which is adapted to contain water or other suitable fluid 7 to be cooled.
  • a conventional fluid outlet pipe 8 is shown as well as a conventional cover 9 for the tank 6.
  • a heat absorptive device Positioned within the tank 6 is a heat absorptive device which in this particular illustration comprises a plurality of loops of pipe 10.
  • the piping 10 is supported by means of brackets 11 from a rod 12 which is pivotally supported from the side wall of the tank 6 by a bracket 13.
  • the piping 10 comprises two ends 14 and 15, the former extending to a compressor 16 which is adapted to be operated by an electric motor 17.
  • the compressor 16 draws gasified refri erant through the pipe 14, compresses it and forces the same into the condenser coils 18 where it is cooled and liquefied and then returned through the pipe end 15 to the expansion coils or heat absorptive device illustrated by the coils 10.
  • a suitable expansion valve diagrammatically illus- Serial No. 296,915.
  • pressor 16 only intermittently inasmuch as the fluid 7 will be cooled to a sufiicient extent by less than continuous operation.
  • Operation of the compressor by the motor 17, which results in the drawing off of gasified refrigerant from the coil 10 permits that coil to be operated in the most eflicient manner as a heat absorptive device and as it absorbs heat a coatirg of ice will be formed thereon.
  • the amount of ice so formed increases there will be a tendency for the same to float thus raising the coils 10 and the supporting arm 12, the latter pivoting on its bracket support 13 and slightly bending the coils 20 of the pipe ends 14 and 15. This raising of the support 12 and pivoting of the same will cause a lowering of the end 21 thereof.
  • the mercury drop 23 will move away from the contact points 24 and 25 breaking the connection between the same and thus breaking the electrical circuit maintained by the wires 26 and 27 to the motor 17 thus stopping the motor and discontinuing the operation of the compressor.
  • the compressor remains idle the ice formed on the coils 10 will melt causing a lowering of the coils 10 together with the support 12, thereby permitting the mercury drop 23 to fall to the opposite end of the tube 21 from that shown in the drawing, thereby connecting the points 24 and 25 and reestablishing the circuit between the electric lead lines 26 and 27 to again operate the motor and compressor.
  • I may provide a counter weight 28 on the end 21 of the support 12.
  • the piping at the ends 14 and 15 should be relatively flexible, such as thin walled copper tubing, in order that the term electrical circuit in a broad'sense and that any other mechanism by which the 1 refrigeration system is alternately operated and allowed to remain idle is the full m'echanical equivalent thereof.
  • a refrigerating apparatus including a heat dissipating device and a movable heat absorbing device, and means, controlled by 3 the movement of said heat absorbing device,
  • a refrigerating apparatus including a heat dissipating device and a vertically movable heat absorbing device, and means, controlled by the upward movement of the heat absorbing device, independent of any movement of the heat dissipating device, for stopping and by the downward movement thereof for starting the operating of the heat dissipating device. .1;
  • a refrigerating apparatus including a heat dissipating device and a movable heat absorbing device, means controlled b the absorption of heat by said heat absor ing device for moving it and means, controlled by such movement, independent of anymovement of the'Lhe'at dissipating device, for intermittently operating said heat dissipating device.
  • a refrigerating apparatus including a heat dissipating device and a movable heat absorbing device, a body of liquid at least partially enclosin the latter device ada ted to congeal on sai device as it absorbs eat whereby, when a sufiicient body of ice has been formed thereon, said device may float and rise in said liquid, and means controlled by the rising and falling of said device for intermittently operating the heat dissipating device.
  • water cooler comprising a rece tacle containing water to be cooled, a heat a sorbing device positioned in said water adapted to construction of the various parts of my improved device without departing from the congeal water on its surface by its heat abszrftlve action whereby, when a suificient b y of ice has been formed thereon, it may float and rise, a heat dissipating device and means controlled by the rising and falling of 7 the/heat absorbing deviceofor intermittently operating the heat dissi ating device.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)

Description

July 21, 1931. H scu 1,815,383
REFRIGERATING SYSTEM Filed Aug. 2, 1928 [N VENTOR HUGH J. JC'ULLEN. Y B Y g a 7 A TTORNEY Patented July 21, 1931 UNITED STATES PATENT OFFICE HUGH T. SGULLEN, OF DETROIT, MICHIGAN, ASSIGNOR TO COPELAND PRODUCTS INC., A CORPORATION OF MICHIGAN BEFRIGERATING SYSTEM Application filed August 2, 1928.
My invention has for one of its primary objects the provision with a refrigerating apparatus of meansfor starting and stopping the apparatus in response to movement of the heat absorptive portion of the apparatus which movement is caused by the lowering or raisin of the temperature surroundin the heat a sorptive device.
ore specifically, my invention contemplates the provision of a heat absorptive element in a body of fluid so that as heat is withdrawn from the fluid, the fluid will congeal on the device, causing the device to float in the fluid for the purpose of operating a control device.
With the above and other objects in view, my invention consists in the arrangement, combination and construction of the various parts of my improved device as described in the specification, claimed in my claims and shown in the accompanying drawing, in which:
The single figure is a view partly in section and partly in elevation of a refrigerating apparatus embodying my invention.
I have shown a thermally insulated housing 5 within which may be poistioned a tank 6 which is adapted to contain water or other suitable fluid 7 to be cooled. A conventional fluid outlet pipe 8 is shown as well as a conventional cover 9 for the tank 6.
Positioned within the tank 6 is a heat absorptive device which in this particular illustration comprises a plurality of loops of pipe 10. The piping 10 is supported by means of brackets 11 from a rod 12 which is pivotally supported from the side wall of the tank 6 by a bracket 13.
The piping 10 comprises two ends 14 and 15, the former extending to a compressor 16 which is adapted to be operated by an electric motor 17. As will be understood by those skilled in the art the compressor 16 draws gasified refri erant through the pipe 14, compresses it and forces the same into the condenser coils 18 where it is cooled and liquefied and then returned through the pipe end 15 to the expansion coils or heat absorptive device illustrated by the coils 10. A suitable expansion valve, diagrammatically illus- Serial No. 296,915.
pressor 16 only intermittently inasmuch as the fluid 7 will be cooled to a sufiicient extent by less than continuous operation. Operation of the compressor by the motor 17, which results in the drawing off of gasified refrigerant from the coil 10 permits that coil to be operated in the most eflicient manner as a heat absorptive device and as it absorbs heat a coatirg of ice will be formed thereon. As the amount of ice so formed increases there will be a tendency for the same to float thus raising the coils 10 and the supporting arm 12, the latter pivoting on its bracket support 13 and slightly bending the coils 20 of the pipe ends 14 and 15. This raising of the support 12 and pivoting of the same will cause a lowering of the end 21 thereof. Mounted on this end 21 is a bulb 22 containing a drop of mercury 23 as well as a pair of electrical contact points-24 and 25. As the end 21 is lowered the mercury drop 23 will move away from the contact points 24 and 25 breaking the connection between the same and thus breaking the electrical circuit maintained by the wires 26 and 27 to the motor 17 thus stopping the motor and discontinuing the operation of the compressor. As the compressor remains idle the ice formed on the coils 10 will melt causing a lowering of the coils 10 together with the support 12, thereby permitting the mercury drop 23 to fall to the opposite end of the tube 21 from that shown in the drawing, thereby connecting the points 24 and 25 and reestablishing the circuit between the electric lead lines 26 and 27 to again operate the motor and compressor.
In order that the weight of the coils 10 may not be so excessive as to require the formation of too great an amount of ice thereon in order to operate the control, I may provide a counter weight 28 on the end 21 of the support 12.
It will be readily understood by those skilled in the art that the piping at the ends 14 and 15 should be relatively flexible, such as thin walled copper tubing, in order that the term electrical circuit in a broad'sense and that any other mechanism by which the 1 refrigeration system is alternately operated and allowed to remain idle is the full m'echanical equivalent thereof.
It will be obvious that various'changes may L be made in the arrangement, combination and spirit of my invention and it is my intentlon to coverby m claims such changes as may reasonably be included within the scope 5 thereof.
What I claim is r 1. A refrigerating apparatus including a heat dissipating device and a movable heat absorbing device, and means, controlled by 3 the movement of said heat absorbing device,
independent of any movement of the heat dissipating device, foralternately operating said heat dissipating device.
2. A refrigerating apparatus including a heat dissipating device and a vertically movable heat absorbing device, and means, controlled by the upward movement of the heat absorbing device, independent of any movement of the heat dissipating device, for stopping and by the downward movement thereof for starting the operating of the heat dissipating device. .1;
3. A refrigerating apparatus including a heat dissipating device and a movable heat absorbing device, means controlled b the absorption of heat by said heat absor ing device for moving it and means, controlled by such movement, independent of anymovement of the'Lhe'at dissipating device, for intermittently operating said heat dissipating device.
4;. A refrigerating apparatus including a heat dissipating device and a movable heat absorbing device, a body of liquid at least partially enclosin the latter device ada ted to congeal on sai device as it absorbs eat whereby, when a sufiicient body of ice has been formed thereon, said device may float and rise in said liquid, and means controlled by the rising and falling of said device for intermittently operating the heat dissipating device.
5. water cooler comprising a rece tacle containing water to be cooled, a heat a sorbing device positioned in said water adapted to construction of the various parts of my improved device without departing from the congeal water on its surface by its heat abszrftlve action whereby, when a suificient b y of ice has been formed thereon, it may float and rise, a heat dissipating device and means controlled by the rising and falling of 7 the/heat absorbing deviceofor intermittently operating the heat dissi ating device.
HUG J. SCULLEN.
US296915A 1928-08-02 1928-08-02 Refrigerating system Expired - Lifetime US1815383A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2449127A (en) * 1944-03-15 1948-09-14 Dole Refrigerating Co Apparatus for cooling the interiors of containers
US2460623A (en) * 1944-10-24 1949-02-01 Reconstruction Finance Corp Liquid cooler for air-conditioning systems
US2730865A (en) * 1952-02-26 1956-01-17 Albert L Murdock Automatic ice making apparatus
US3003327A (en) * 1958-08-25 1961-10-10 Council Ice making machine
US3546894A (en) * 1969-05-02 1970-12-15 Whirlpool Co Frost weighing demand defrost device for refrigerators

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2449127A (en) * 1944-03-15 1948-09-14 Dole Refrigerating Co Apparatus for cooling the interiors of containers
US2460623A (en) * 1944-10-24 1949-02-01 Reconstruction Finance Corp Liquid cooler for air-conditioning systems
US2730865A (en) * 1952-02-26 1956-01-17 Albert L Murdock Automatic ice making apparatus
US3003327A (en) * 1958-08-25 1961-10-10 Council Ice making machine
US3546894A (en) * 1969-05-02 1970-12-15 Whirlpool Co Frost weighing demand defrost device for refrigerators

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