US2653013A - Precooler for refrigerated drinking fountains - Google Patents

Precooler for refrigerated drinking fountains Download PDF

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Publication number
US2653013A
US2653013A US158453A US15845350A US2653013A US 2653013 A US2653013 A US 2653013A US 158453 A US158453 A US 158453A US 15845350 A US15845350 A US 15845350A US 2653013 A US2653013 A US 2653013A
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water
storage tank
drain
tube
drain conduit
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Expired - Lifetime
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US158453A
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Clyde P Freer
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HALSEY W TAYLOR CO
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HALSEY W TAYLOR CO
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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

Definitions

  • My invention relates to water coolers, more particularly to water coolers of the refrigerator type, and the principal object of my invention is to provide new and improved apparatus of this character.
  • My invention provides a high degree of thermal transfer between incoming water and outgoing drain water without entailing the disadvantages of prior art constructions.
  • Figure 1 is an elevational view of a water drinking fountain, portions being broken away to disclose detail
  • FIG. 2 is an enlarged elevational view of the pre-cooler unit shown in Figure 1,
  • FIG. 3 is an enlarged, fragmentary sectional View corresponding generally to the line 3-3 of Figure 2,
  • Figure 4 is a transverse sectional View corresponding generally to the line 3-4 of Figure 3, and
  • Figure 5 is a broken, fragmentary View illustrating the invention in a slightly different combination.
  • a refrigerator-type water cooler Ill comprising a casing H, the lower end of which encloses a motor-compressor-condenser unit which may be of any suitable type and therefore is not shown or described.
  • a water storage tank i2 is supported in the upper portion of the casing H.
  • a refrigerant-carrying coil I3 is disposed within the storage tank 12.
  • a conduit l4 provides for upward flow of liquid refrigerant from the condenser, to and through an automatic expansion valve I5 above the tank l2, where the refrigerant is converted to a liquid-vapor mixture, the temperature of which drops due to partial evaporation of the refrigerant.
  • the mixture of liquid refrigerant and vapor enters into the upper end of tank I2 by means of a conduit l6 and is connected to coil l3.
  • At least a part of the coil [3 is disposed withina coil ll which receives water from the interior of the tank I?” and delivers such water to a control valve l8 by means of a conduit l9.
  • a suction line 20 carries gas back from the coil is to the compressor-condensing unit, where it is compressed, condensed and converted into liquid so that the cycle may be repeated.
  • the foregoing is substantially in accordance with the disclosure in Letters Patent No. 2,278,226 issued to Halsey W. Taylor on March 31, 1942, and detailed description is believed to be unnecessary. It will be appreciated that the upper portion of the interior of the casing M will be provided with suitable insulating material surrounding the water tank l2 and cooperating parts to prevent cooling losses. Such insulation is omitted from the drawings for purposes of clarity.
  • the valve i8 controls flow of refrigerated water to a bubbler 2!, or any other suitable dispensing device, which may be carried by a top cover 22 for the casing H.
  • the valve I8 is operated by means of a foot pedal 23 operatively connected to the valve by means of a rod 26.
  • the valve l8 opens to provide for flow of water to and outwardly of the bubbler 2!
  • the top cover 22 is formed with a depressed portion 25 forming a catch basin for the unconsumed water which has issued from the bubbler ii.
  • the lowermost portion of the catch basin is connected to a drain conduit 26 which leads the unconsumed water to a suitable drain (not shown).
  • Means are provided to pre-cool water as it travels from a source to the storage tank 12, and my invention provides eificient thermal-transfer relationship between the drain conduit 26 and the incoming water line, which in this case is in the form of a tube 21.
  • the drain conduit 26 is provided with connections 28 and 29 for .respective connection with the catch basin and the drain.
  • the drain conduit is non-rectilinear and is preferably of a tortuous character so that water flowing therethrough is caused .to follow a tortuous path.
  • that portion of the drain conduit intermediate the connections 28, 29 is formed in the shape of ahelix.
  • the diameter of the helix is large enough so that the storage tank may be disposed within the confines of the helical coil, as seen in Figure 1.
  • the water tube 27 has its lower end connectable to a source of supply (not shown) and has its upper end leading into the upper portion of the storage tank l2.
  • the tube 21 is held in good thermal-transfer relationship with the drain conduit 26 and is also preferably of .a tortuous character so that water flowing upward- 1y therethrough will be cooled by waste water flowing downwardly through the drain conduit 26.
  • the tube 2'! is spirally wound around the drain tube.
  • the convolutions of the .drain conduit 26 are spaced-apart to provide sufficient inclination so that water will freely flow through the drain conduit 26.
  • the interior of the drain conduit is entirely unobstructed and therefore an foreign matter will be constantly washed out of the drain conduitbyflow of waste water.
  • the drain conduit will be free of the danger of clogging.
  • waste water flowing therethrough will be urged to engagement with its defining wall by inertia and centrifugal force.
  • the water supply tube 21 is wound about the drain tube 26 with a spiral lead sufficient to accommodate the required overall length of the tube,
  • the lead is such as to provide space between adjoining convolutions of the spiral tube.
  • a method of forming the pre-cooler unit herein disclosed is to first wind the tube 2'! in spiral fashion on the drain conduit 26 when the latter is in rectilinear condition. Thereafter the drain conduit, with the tube 21 Wound thereon, is formed to spiral shape. It will be appreciated that such method will cause the tube 21 to be drawn into efficient thermal-transfer contact with the exterior wall of the drain conduit 26. To further increase thermal-conducting relation, the entire assembly may be dipped in a hot tin bath so as to metallically bond the tube 21 to the drain conduit 25.
  • the pre-cooler unit shown in Figure may be in all respects similar to the unit hereinbefore described.
  • the refrigerant coil l3a is wound about the exterior of the storage tank l2a in order to meet requirements of certain localities.
  • a drinking fountain comprising a housing for the drinking fountain structure, a water storage tank for storing chilled water, said tank being disposed within said housing in spaced relation with respect to the inner wall surface thereof and having an outlet connected to a service outlet for dispensing chilled water for consump tion, a waste pipe for conducting unconsumed chilled water from said service outlet, said waste pipe being disposed within the space between said housing and said storage tank in surrounding relation with respect to said storage tank.
  • a coiled water supply pipe connected to said storage tank for admitting water thereto from a source of supply, said supply pipe'being mounted on said waste pipe with convolutions thereof extending transversely about said Waste pipe in close heat transfer contact with the outer surface thereof, whereby water to be admitted to said storage tank is pre-cooled by waste chilled water flowing through said waste pipe.
  • a drinking fountain comprising a housing for the drinking fountain structure, a water storage tank for storing chilled water, said tank being disposed within said housing in spaced relation with respect to the inner wall surface thereof and'having an outlet connected to a service outlet for dispensing chilled water for consumption, a helically coiled waste pipe for conducting unconsumed chilled water from said service outlet, said waste pipe being disposed within the space between said housing and said storage tank in coiled relation.
  • a coiled supply pipe connected to said storage tank for admitting water thereto from a source of supply, said supply pipe being mounted on said waste pipe with convolutions thereof extending transversely about the convolutions of said waste pipe in close heat transfer contact with the outer surface thereof, whereby water to be admitted to said storage tank is pre-cooled by waste chilled water flowing through said waste pipe.

Description

Sept. 22, 1953 v c. P. FREER 2,653,013
PRECOOLER FOR REFRIGERATED DRINKING FOUNTAINS Filed April 27, 1950 IN V EN TOR.
HT TQHME Y Patented Sept. 22, 1953 PRECOOLER FOR REFBIGERATED DRINKING FOUNTAINS Clyde P. Freer, Warren, Ohio, assignor to Halsey W. Taylor Company, Warren, Ohio, a corporation of Ohio Application April 27, 1950, Serial No. 158,453
2 Claims. (Cl. 257241) My invention relates to water coolers, more particularly to water coolers of the refrigerator type, and the principal object of my invention is to provide new and improved apparatus of this character.
The industry is constantly striving to achieve the utmost in efliciency in water coolers. One means to increase efiiciency is to pre-cool the water coming from a source by passing it in thermal-conducting relationship with waste fluids passing to a drain.
It is a well known fact that a portion of the refrigerated water issuing from adispensing device of a water cooler is wasted because of various reasons. Such waste may be caused by a consumer who turns on the water control valve and permits a quantity of refrigerated water to flow from the dispensing device before taking a drink. Also, waste is created because not all the Water issuing from the dispensing device is con- The prior art has employed thermal-transfer devices whereby the incoming water is precooled by the water passing to the drain, but such devices have met with many objections for the reason that they were either subject to clogging by debris accumulating in the drain, or represented only a negligible amount of efficiency as compared to the increase in cost of manufacture.
My invention provides a high degree of thermal transfer between incoming water and outgoing drain water without entailing the disadvantages of prior art constructions.
In the drawing accompanying this specification and forming a part of this application, there is shown, for purposes of illustration, an embodiment which my invention may assume, and in this drawing:
Figure 1 is an elevational view of a water drinking fountain, portions being broken away to disclose detail,
Figure 2 is an enlarged elevational view of the pre-cooler unit shown in Figure 1,
Figure 3 is an enlarged, fragmentary sectional View corresponding generally to the line 3-3 of Figure 2,
Figure 4 is a transverse sectional View corresponding generally to the line 3-4 of Figure 3, and
Figure 5 is a broken, fragmentary View illustrating the invention in a slightly different combination.
Referring to the drawing, the embodiment of myinvention is herein disclosed for use with a refrigerator-type water cooler Ill comprising a casing H, the lower end of which encloses a motor-compressor-condenser unit which may be of any suitable type and therefore is not shown or described. A water storage tank i2 is supported in the upper portion of the casing H.
Referring particularly to Figure 1, a refrigerant-carrying coil I3 is disposed within the storage tank 12. A conduit l4 provides for upward flow of liquid refrigerant from the condenser, to and through an automatic expansion valve I5 above the tank l2, where the refrigerant is converted to a liquid-vapor mixture, the temperature of which drops due to partial evaporation of the refrigerant. The mixture of liquid refrigerant and vapor enters into the upper end of tank I2 by means of a conduit l6 and is connected to coil l3. At least a part of the coil [3 is disposed withina coil ll which receives water from the interior of the tank I?! and delivers such water to a control valve l8 by means of a conduit l9. A suction line 20 carries gas back from the coil is to the compressor-condensing unit, where it is compressed, condensed and converted into liquid so that the cycle may be repeated. The foregoing is substantially in accordance with the disclosure in Letters Patent No. 2,278,226 issued to Halsey W. Taylor on March 31, 1942, and detailed description is believed to be unnecessary. It will be appreciated that the upper portion of the interior of the casing M will be provided with suitable insulating material surrounding the water tank l2 and cooperating parts to prevent cooling losses. Such insulation is omitted from the drawings for purposes of clarity.
The valve i8 controls flow of refrigerated water to a bubbler 2!, or any other suitable dispensing device, which may be carried by a top cover 22 for the casing H. In the construction herein shown, the valve I8 is operated by means of a foot pedal 23 operatively connected to the valve by means of a rod 26. When the foot pedal 23 is depressed, the valve l8 opens to provide for flow of water to and outwardly of the bubbler 2! The top cover 22 is formed with a depressed portion 25 forming a catch basin for the unconsumed water which has issued from the bubbler ii. The lowermost portion of the catch basin is connected to a drain conduit 26 which leads the unconsumed water to a suitable drain (not shown).
Means are provided to pre-cool water as it travels from a source to the storage tank 12, and my invention provides eificient thermal-transfer relationship between the drain conduit 26 and the incoming water line, which in this case is in the form of a tube 21.
As best seen in Figure 2, the drain conduit 26 is provided with connections 28 and 29 for .respective connection with the catch basin and the drain. The drain conduit is non-rectilinear and is preferably of a tortuous character so that water flowing therethrough is caused .to follow a tortuous path. As herein disclosed, that portion of the drain conduit intermediate the connections 28, 29 is formed in the shape of ahelix. In order that the pre-cooler unit combines with other structure to form a compact unit, the diameter of the helix is large enough so that the storage tank may be disposed within the confines of the helical coil, as seen in Figure 1.
The water tube 27 has its lower end connectable to a source of supply (not shown) and has its upper end leading into the upper portion of the storage tank l2. The tube 21 is held in good thermal-transfer relationship with the drain conduit 26 and is also preferably of .a tortuous character so that water flowing upward- 1y therethrough will be cooled by waste water flowing downwardly through the drain conduit 26. To provide for adequate length of the tube 27 and for optimum thermal-transfer engagement with the drain conduit 26, the tube 2'! is spirally wound around the drain tube.
The convolutions of the .drain conduit 26 are spaced-apart to provide sufficient inclination so that water will freely flow through the drain conduit 26. As seen in Figure '3, the interior of the drain conduit is entirely unobstructed and therefore an foreign matter will be constantly washed out of the drain conduitbyflow of waste water. Accordin ly, the drain conduit will be free of the danger of clogging. Further, because of the spiralled character of the drain conduit 26, waste water flowing therethrough will be urged to engagement with its defining wall by inertia and centrifugal force.
The water supply tube 21 is wound about the drain tube 26 with a spiral lead sufficient to accommodate the required overall length of the tube, In the embodiment herein disclosed, the lead is such as to provide space between adjoining convolutions of the spiral tube.
A method of forming the pre-cooler unit herein disclosed is to first wind the tube 2'! in spiral fashion on the drain conduit 26 when the latter is in rectilinear condition. Thereafter the drain conduit, with the tube 21 Wound thereon, is formed to spiral shape. It will be appreciated that such method will cause the tube 21 to be drawn into efficient thermal-transfer contact with the exterior wall of the drain conduit 26. To further increase thermal-conducting relation, the entire assembly may be dipped in a hot tin bath so as to metallically bond the tube 21 to the drain conduit 25.
The pre-cooler unit shown in Figure may be in all respects similar to the unit hereinbefore described. In this instance the refrigerant coil l3a is wound about the exterior of the storage tank l2a in order to meet requirements of certain localities.
In view of the foregoing, it will be apparent to those skilled in the art that 'I have accomplished at least the principal object of my invention and it will also be apparent to those 4 skilled in the art that the embodiment herein described may be variously changed and modified, without departing from the spirit of the invention, and that the invention is capable of use and has advantages not herein specifically described; hence it will be appreciated that the herein disclosed embodiment is illustrative only, and that my invention is not limited thereto.
I claim:
1. A drinking fountain, comprising a housing for the drinking fountain structure, a water storage tank for storing chilled water, said tank being disposed within said housing in spaced relation with respect to the inner wall surface thereof and having an outlet connected to a service outlet for dispensing chilled water for consump tion, a waste pipe for conducting unconsumed chilled water from said service outlet, said waste pipe being disposed within the space between said housing and said storage tank in surrounding relation with respect to said storage tank. thereby providing for compactness in manufacture, and a coiled water supply pipe connected to said storage tank for admitting water thereto from a source of supply, said supply pipe'being mounted on said waste pipe with convolutions thereof extending transversely about said Waste pipe in close heat transfer contact with the outer surface thereof, whereby water to be admitted to said storage tank is pre-cooled by waste chilled water flowing through said waste pipe.
2. A drinking fountain, comprising a housing for the drinking fountain structure, a water storage tank for storing chilled water, said tank being disposed within said housing in spaced relation with respect to the inner wall surface thereof and'having an outlet connected to a service outlet for dispensing chilled water for consumption, a helically coiled waste pipe for conducting unconsumed chilled water from said service outlet, said waste pipe being disposed within the space between said housing and said storage tank in coiled relation. around said storage tank, thereby providing for compactness in manufacture, and a coiled supply pipe connected to said storage tank for admitting water thereto from a source of supply, said supply pipe being mounted on said waste pipe with convolutions thereof extending transversely about the convolutions of said waste pipe in close heat transfer contact with the outer surface thereof, whereby water to be admitted to said storage tank is pre-cooled by waste chilled water flowing through said waste pipe.
CLYDE P. FREER.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,046,842 Ofiutt Dec. 10, 1912 1,164,075 Dean Dec. 14, 1915 1,911,042 Steenstrup May 23, 1933 1,928,212 Salto Sept. 26, 1933 2,010,504 Askin Aug. 6, 1935 2,324,707 Johnson July 20, 1943 2,433,977 Bently Jan. 6, 1948 2,446,289 Love Aug. 3,1948 2,481,662 Hastings Sept. 13, 1949 2,577,574 Freer Dec. 4, 1951 FOREIGN PATENTS Number Country Date 5,007 Great Britain Feb. 19, 1898
US158453A 1950-04-27 1950-04-27 Precooler for refrigerated drinking fountains Expired - Lifetime US2653013A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2914252A (en) * 1959-11-24 Water dispensing equipment
US4257356A (en) * 1978-06-22 1981-03-24 Electric Power Research Institute Heat exchanging apparatus and method
US4300247A (en) * 1980-05-07 1981-11-17 Berg Charles A Energy conservation in shower bathing
US4398308A (en) * 1980-05-07 1983-08-16 Berg Charles A Energy conservation in shower bathing
EP1723375A1 (en) * 2004-02-18 2006-11-22 Renewability Energy, Inc. Helical coil-on-tube heat exchanger
WO2020134642A1 (en) * 2018-12-29 2020-07-02 张钧胜 Novel liquid cooler

Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1046842A (en) * 1909-12-10 1912-12-10 John H Nicholson Sterilizing apparatus.
US1164075A (en) * 1914-02-25 1915-12-14 Roy M Dean Heater.
US1911042A (en) * 1932-03-11 1933-05-23 Gen Electric Refrigerating apparatus
US1928212A (en) * 1931-07-21 1933-09-26 Rex Cole Inc Refrigerator
US2010504A (en) * 1933-05-13 1935-08-06 Fedders Mfg Co Inc Liquid cooling and dispensing device
US2324707A (en) * 1941-06-30 1943-07-20 Herman K Johnson Cooling apparatus
US2433977A (en) * 1945-07-11 1948-01-06 Mccray Refrigerator Company Liquid cooling apparatus
US2446289A (en) * 1948-01-08 1948-08-03 Ebco Mfg Company Precooler system for refrigerated drinking fountains
US2481662A (en) * 1943-05-06 1949-09-13 Westinghouse Electric Corp Water cooler
US2577574A (en) * 1948-08-24 1951-12-04 Halsey W Taylor Co Liquid cooling apparatus

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1046842A (en) * 1909-12-10 1912-12-10 John H Nicholson Sterilizing apparatus.
US1164075A (en) * 1914-02-25 1915-12-14 Roy M Dean Heater.
US1928212A (en) * 1931-07-21 1933-09-26 Rex Cole Inc Refrigerator
US1911042A (en) * 1932-03-11 1933-05-23 Gen Electric Refrigerating apparatus
US2010504A (en) * 1933-05-13 1935-08-06 Fedders Mfg Co Inc Liquid cooling and dispensing device
US2324707A (en) * 1941-06-30 1943-07-20 Herman K Johnson Cooling apparatus
US2481662A (en) * 1943-05-06 1949-09-13 Westinghouse Electric Corp Water cooler
US2433977A (en) * 1945-07-11 1948-01-06 Mccray Refrigerator Company Liquid cooling apparatus
US2446289A (en) * 1948-01-08 1948-08-03 Ebco Mfg Company Precooler system for refrigerated drinking fountains
US2577574A (en) * 1948-08-24 1951-12-04 Halsey W Taylor Co Liquid cooling apparatus

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2914252A (en) * 1959-11-24 Water dispensing equipment
US4257356A (en) * 1978-06-22 1981-03-24 Electric Power Research Institute Heat exchanging apparatus and method
US4300247A (en) * 1980-05-07 1981-11-17 Berg Charles A Energy conservation in shower bathing
US4398308A (en) * 1980-05-07 1983-08-16 Berg Charles A Energy conservation in shower bathing
EP1723375A1 (en) * 2004-02-18 2006-11-22 Renewability Energy, Inc. Helical coil-on-tube heat exchanger
US20080017361A1 (en) * 2004-02-18 2008-01-24 Renewability Energy Inc. Helical coil-on-tube heat exchanger
EP1723375B1 (en) * 2004-02-18 2012-04-11 Renewability Energy, Inc. Method for heating fresh water
US8251133B2 (en) 2004-02-18 2012-08-28 Renewability Energy Inc. Helical coil-on-tube heat exchanger
WO2020134642A1 (en) * 2018-12-29 2020-07-02 张钧胜 Novel liquid cooler

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