US1728740A - Condenser - Google Patents

Condenser Download PDF

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Publication number
US1728740A
US1728740A US538544A US53854422A US1728740A US 1728740 A US1728740 A US 1728740A US 538544 A US538544 A US 538544A US 53854422 A US53854422 A US 53854422A US 1728740 A US1728740 A US 1728740A
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water
coil
pipe
condenser
casing
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US538544A
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Wirt Zebulon
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EDWARD CACKLEY
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EDWARD CACKLEY
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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
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B39/00Evaporators; Condensers
    • F25B39/04Condensers
    • 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
    • F25B2339/00Details of evaporators; Details of condensers
    • F25B2339/04Details of condensers
    • F25B2339/041Details of condensers of evaporative condensers

Definitions

  • Fig. 2 is a sectional view of the condensing device.
  • the gas then passes through pipe 6 to a compressor 7 w-hich'may be of any suitable construction.
  • This compressor is operated by a suitable motor 8.
  • a vacuum gauge 6 is connected with this pipe 6.
  • a pipe 9 leads from the compressor 7 to the condenser 1.
  • the supply of the refrigerating material may be inserted through the pipe 10, which has a valve 11. pres- 0 sure gauge 12 is provided in communication with the pipe 9, so that thepressure can be ascertained.
  • the pipe 9 is provided with a collecting chamber 18 for any foreign material that may be in the gas, and this collecting chamber has a discharge 14:, controlled by a valve 15.
  • the pipe 9 enters the condenser 1 and connects with a coil 16 in -which the compressed gas is cooled and liquefied.
  • the casing of this condenser is preferably of thin metal.
  • I provide means forsupplying water and evaporating it in proximity to the pipe of the coil 16.
  • I provide a water supply pipe 17, which enters the condenser at the top, and which communicates with a coil 18, preferably a single coil, having discharge openings 18 at various points which discharge the water, so that it runs down along an evaporating device consisting of, in this particular in-- stance, pieces of canvas, felt, asbestos .or
  • an air moving device which is illustrated as a fan, 23, operated by themotor 8.
  • the fan is preferably mounted directly upon the condenser as shown.
  • This condenser has at the bottom, an air chamber 24:, which communicates with the fan 23.
  • Above this air chamber is awater chamber 25, and passing through the center of this water chamber is a passageway 26 forthe air from the air chamber .24.
  • the water chamber is provided with an outlet 27 for any surplus water
  • the surpluswater from the coil 18 enters the water chamber 25, and the ends of thewebs 19 and 20 preferably projectintothis water chamber so that they ".villbe'wet, andthey will'also act by capillary attractionto draw the water upwardly therealong.
  • the casing of the condenser is preferably provided with a 'removabletop 28 and a removable bottom 29.
  • the water chamber 25 is separate from the casing and on the inside thereof and is removable, and thecoil 18and associated partsiof the casing may also, be removed to give access to the parts.
  • This air causes the water on the webs 19 and 20 to be evaporated and carries the evaporated water out through the discharge, and thus cools the gas in the coil 16.
  • the gas In the condenser the gas is liquefied and the liquid passes into the receiver 2.
  • this is accomplished by means of a valve 33 in the pipe 17.
  • This valve is providedwith an arm 34 which is connected with a governor 35, operated from the motor shaft 36.
  • the parts are arranged so that when the shaft 36 is operating, the governor will move the arm 34 to open the valve and let water into the coil 18.
  • the governor moves so as to move the arm 3% to close the valve 33 and shut off the water.
  • the use and operation of my invention are as follows When the parts are set up ready to operate, the refrigerant is inserted through the pipe 10.
  • the motor 8 is started in operation, and this operates the compressor 7 and opens the valve 33 and admits water to the coil 18.
  • the water then flows down along the evaporating device consisting of the webs 19 and 20.
  • the compressor compresses the gas and forces it through the coil 16.
  • the fan also forces air up through the condenser. This air evaporates the water and cools the coil 16, and the refrigerant therein, and this refrigerant is then condensed and passes through pipe 1 into the receiver or collector 2.
  • the expansion valve 3 then reduces the pressure so that this'liquid is again converted into a gas, and it passes in an expanded and cool condition through the coil 4: where its cooling eifect' is used in any manner desired.
  • the gas then absorbs heat from the material or articles to be cooled, and passes throughpipe 6 to the compressor 7, and the operation hereinbefore described is continued.
  • An article of manufacture comprising a condenser having an outer casing, a coil of pipe in said casing through which the ma terial to be condensed passes, water evaporating material extending as cylindrical walls along the inner and outer faces of said coil, holding means for holding said material in posit-ion, a water supplying pipe for supplying water thereto and means for automatically supplying water to said supplying pipe.
  • An article of manfacture comprising a condenser having an outer casing, a coil of pipe in said casing through which the material to be condensed passes, water evaporating material extending longitudinally on the inner and outer faces of said coil, holding means for holding said material in position, a water supplying pipe for supplying water thereto, an air passageway extending along the interior of said coil, and means for forcing the air through said evaporating material before it can be discharged from the condenser.
  • An article of manufacture comprising a condenser having an outer casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means for supplying water to the water evaporating material, and means for bold ing said water evaporating material in proper relation to said coil, comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held.
  • An article of manufacture comprising a condenser having an outer casing, a Water chamber at the bottom of said casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means for supplying water to the water evaporating material, the surplus water bein deposited in said water receptacle, and means for holding said water evaporating material in proper relation to said coil comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held.
  • An article of manufacture comprising a condenser having an outer casing, a water chamber at the bottom of said casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means forsupplying water to the water evaporating material, the surplus water being deposited in said water receptacle, means for holding said water evaporating material in proper relation to said coil comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held, an air moving device attached to said outer casing, an air chamber at the bottom of said casing communicating with said air moving device, said water receptacle being provided with a centrally located air passageway communicating with said air chamber and extending into the center of said coil.
  • An article of manufacture comprising a condenser having an outer casing, a water chamber at the bottom of said casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means for supplying water to the water evaporating material, the surplus water being deposited in said water receptacle, means for holding said water evaporating material in proper relation to said coil comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held, an air moving device attached to said outer casing, an air chamber at the bottom of said casing communicating with said air moving device, said water receptacle being provided with a centrally located air passageway communicating with said air chamber and extending into the center of said coil, a discharge at the upper end of said casing, and an air obstructing device between said discharge and said air chamber which causes the air to pass through the evaporating ma- "terial before escaping from said casin Signed

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Vaporization, Distillation, Condensation, Sublimation, And Cold Traps (AREA)

Description

Sept. 17, 1929. z, w 'r 1,728,740
counnusmn Original Filed Feb. 23, 1922 2 Sheets-Sheet 1 I /2 v m N a o I 3 aa ii EXPANSION 1" VALVE l Hll l l Hill! H Patented Sept. 17, 1929 UNITED STATES PATENTOFFICE.
ZEBULON WIR'I, or LOS ANGELES, CALIFORNIA, ASSIGNOR or ONE-FOURT TO 'EID- WARD CACKLEY, F OMAHA, NEBRASKA CONDENSER Application filed. February 23, 1922, SeriaINo. 538,544. Renewed August 17,1928. 1
Fig. 2 is a sectional view of the condensing device.
Like numerals refer to like parts through out the several figures.
In carrying out the invention I provide some suitable gas which can be easily liquefied or condensed, and which when converted into a gas will produce the desired cooling effect. I have. found that for house boxes sulphur dioxide is very efficient for this pur pose. The gas is condensed in the condenser 1, and. the liquid. then passes through pipe 1* into the receiver .2, and through the expansion valve 8, and it then passes through a suitable expansion coil or coils 4: where it is again converted into a gas in the refrigerator 5, which may be of any suitable construction,
and arrangement. The gas then passes through pipe 6 to a compressor 7 w-hich'may be of any suitable construction. This compressor is operated by a suitable motor 8.
5 A vacuum gauge 6 is connected with this pipe 6. A pipe 9 leads from the compressor 7 to the condenser 1. The supply of the refrigerating material may be inserted through the pipe 10, which has a valve 11. pres- 0 sure gauge 12 is provided in communication with the pipe 9, so that thepressure can be ascertained. The pipe 9 is provided with a collecting chamber 18 for any foreign material that may be in the gas, and this collecting chamber has a discharge 14:, controlled by a valve 15. The pipe 9 enters the condenser 1 and connects with a coil 16 in -which the compressed gas is cooled and liquefied. The casing of this condenser is preferably of thin metal.
I provide means forsupplying water and evaporating it in proximity to the pipe of the coil 16. In the construction herein shown I provide a water supply pipe 17, which enters the condenser at the top, and which communicates with a coil 18, preferably a single coil, having discharge openings 18 at various points which discharge the water, so that it runs down along an evaporating device consisting of, in this particular in-- stance, pieces of canvas, felt, asbestos .or
other suitable web like material 19, 20, through which aircan pass .Theselwebs are placed on opposite sides of the coil 16, and extend longitudinally, as shown. The water is preferably discharged between the webs 19 and 20 so that it will run down along the coils and wet these webs. These webs may be arranged in various ways, but, I prefer to have themin strips, and to hold them'in place by means of coils of springwire 21;, 22, located on the outside and inside, as shown 'in Fig. 2, the coils of the wires being located between the coils of the pipe, and. the webs being held. inplacelby the pressure of the coils 21 and 22. Air is forced up around the coils in, any suitable manner,as by. means of an air moving device which is illustrated as a fan, 23, operated by themotor 8. The fan is preferably mounted directly upon the condenser as shown. This condenser has at the bottom, an air chamber 24:, which communicates with the fan 23. Above this air chamber is awater chamber 25, and passing through the center of this water chamber is a passageway 26 forthe air from the air chamber .24. The water chamber is provided with an outlet 27 for any surplus water The surpluswater from the coil 18 enters the water chamber 25, and the ends of thewebs 19 and 20 preferably projectintothis water chamber so that they ".villbe'wet, andthey will'also act by capillary attractionto draw the water upwardly therealong.
The casing of the condenser is preferably provided with a 'removabletop 28 and a removable bottom 29. The water chamber 25 is separate from the casing and on the inside thereof and is removable, and thecoil 18and associated partsiof the casing may also, be removed to give access to the parts. By means of this construction the coil can be easily, quickly and cheaply assembled and covered and uncovered as desired.
I prefer to provide an obstructing device 30 at the top of the condenser, which prevents the air from passing straight through, and causes it to go through the porous webs 19 and 20. There is an air chamber 31 at the top into which this air passes, and it is then discharged through the discharge 32. This air causes the water on the webs 19 and 20 to be evaporated and carries the evaporated water out through the discharge, and thus cools the gas in the coil 16. In the condenser the gas is liquefied and the liquid passes into the receiver 2.
I preferto make the device automatic and to do this I provide some means for automatically turning on and shutting off the water supplied to coil 18. In the construction shown this is accomplished by means of a valve 33 in the pipe 17. This valve is providedwith an arm 34 which is connected with a governor 35, operated from the motor shaft 36. The parts are arranged so that when the shaft 36 is operating, the governor will move the arm 34 to open the valve and let water into the coil 18. When the motor stops, the governor moves so as to move the arm 3% to close the valve 33 and shut off the water. I prefer to provide a spring 37 to assist this latter movement.
I have described in detail a particular construction embodying the invention but it is of course evident that the parts may be varied in many particulars Without departing from the spirit of the invention as embodied in the claims hereto appended, and I therefore do not limit myself to the particular construction shown. 4
The use and operation of my invention are as follows When the parts are set up ready to operate, the refrigerant is inserted through the pipe 10. The motor 8 is started in operation, and this operates the compressor 7 and opens the valve 33 and admits water to the coil 18. The water then flows down along the evaporating device consisting of the webs 19 and 20. The compressor compresses the gas and forces it through the coil 16. The fan also forces air up through the condenser. This air evaporates the water and cools the coil 16, and the refrigerant therein, and this refrigerant is then condensed and passes through pipe 1 into the receiver or collector 2. The expansion valve 3 then reduces the pressure so that this'liquid is again converted into a gas, and it passes in an expanded and cool condition through the coil 4: where its cooling eifect' is used in any manner desired. The gas then absorbs heat from the material or articles to be cooled, and passes throughpipe 6 to the compressor 7, and the operation hereinbefore described is continued.
I claim:
1. An article of manufacture comprising a condenser having an outer casing, a coil of pipe in said casing through which the ma terial to be condensed passes, water evaporating material extending as cylindrical walls along the inner and outer faces of said coil, holding means for holding said material in posit-ion, a water supplying pipe for supplying water thereto and means for automatically supplying water to said supplying pipe.
2. An article of manfacture comprising a condenser having an outer casing, a coil of pipe in said casing through which the material to be condensed passes, water evaporating material extending longitudinally on the inner and outer faces of said coil, holding means for holding said material in position, a water supplying pipe for supplying water thereto, an air passageway extending along the interior of said coil, and means for forcing the air through said evaporating material before it can be discharged from the condenser.
An article of manufacture comprising a condenser having an outer casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means for supplying water to the water evaporating material, and means for bold ing said water evaporating material in proper relation to said coil, comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held.
4. An article of manufacture comprising a condenser having an outer casing, a Water chamber at the bottom of said casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means for supplying water to the water evaporating material, the surplus water bein deposited in said water receptacle, and means for holding said water evaporating material in proper relation to said coil comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held.
5. An article of manufacture comprising a condenser having an outer casing, a water chamber at the bottom of said casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means forsupplying water to the water evaporating material, the surplus water being deposited in said water receptacle, means for holding said water evaporating material in proper relation to said coil comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held, an air moving device attached to said outer casing, an air chamber at the bottom of said casing communicating with said air moving device, said water receptacle being provided with a centrally located air passageway communicating with said air chamber and extending into the center of said coil.
6. An article of manufacture comprising a condenser having an outer casing, a water chamber at the bottom of said casing, a coil of pipe in said casing, water evaporating material on the inner and outer surfaces of said coil and extending longitudinally therealong, means for supplying water to the water evaporating material, the surplus water being deposited in said water receptacle, means for holding said water evaporating material in proper relation to said coil comprising inner and outer holding coils located between the coils of said pipe and between which said evaporating material is held, an air moving device attached to said outer casing, an air chamber at the bottom of said casing communicating with said air moving device, said water receptacle being provided with a centrally located air passageway communicating with said air chamber and extending into the center of said coil, a discharge at the upper end of said casing, and an air obstructing device between said discharge and said air chamber which causes the air to pass through the evaporating ma- "terial before escaping from said casin Signed at Chicago, county of Cook and State of Illinois, this 15th day of February,
ZEBULON lVIRT.
US538544A 1922-02-23 1922-02-23 Condenser Expired - Lifetime US1728740A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2740268A (en) * 1953-05-14 1956-04-03 Calvin M Jones High speed air conditioner circulating chamber
US2877995A (en) * 1955-06-29 1959-03-17 E C Schleyer Pump Company Inc Cooling tower
US2911801A (en) * 1958-02-20 1959-11-10 Creamery Package Mfg Co Refrigerant condensing unit
US3751191A (en) * 1971-02-02 1973-08-07 Mott Corp Hydraulic pump and cooler unit
WO2001031267A1 (en) * 1999-10-27 2001-05-03 BSH Bosch und Siemens Hausgeräte GmbH Refrigeration device, such as a refrigerator, a refrigerator/freezer combination or the like

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2740268A (en) * 1953-05-14 1956-04-03 Calvin M Jones High speed air conditioner circulating chamber
US2877995A (en) * 1955-06-29 1959-03-17 E C Schleyer Pump Company Inc Cooling tower
US2911801A (en) * 1958-02-20 1959-11-10 Creamery Package Mfg Co Refrigerant condensing unit
US3751191A (en) * 1971-02-02 1973-08-07 Mott Corp Hydraulic pump and cooler unit
WO2001031267A1 (en) * 1999-10-27 2001-05-03 BSH Bosch und Siemens Hausgeräte GmbH Refrigeration device, such as a refrigerator, a refrigerator/freezer combination or the like

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