US1634400A - Refrigerating apparatus - Google Patents

Refrigerating apparatus Download PDF

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Publication number
US1634400A
US1634400A US49913A US4991325A US1634400A US 1634400 A US1634400 A US 1634400A US 49913 A US49913 A US 49913A US 4991325 A US4991325 A US 4991325A US 1634400 A US1634400 A US 1634400A
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United States
Prior art keywords
casing
condenser
compressor
refrigerating
receptacle
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US49913A
Inventor
Ransom W Davenport
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Chicago Pneumatic Tool Co LLC
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Chicago Pneumatic Tool Co LLC
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Priority to US49913A priority Critical patent/US1634400A/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
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B31/00Compressor arrangements
    • 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
    • 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
    • F25B2400/07Details of compressors or related parts
    • F25B2400/071Compressor mounted in a housing in which a condenser is integrated

Definitions

  • the present invention relates to apparatus for producing refrigeration mechanically.
  • Among the objects of the invention are to prevent the escape of refrigerant from the system, to eliminate packings on ,the compressor shaft, and in general to simplify and improve the structure and arrangement of refrigerating apparatus of the described type in the interest of more satisfactory and efficient service.
  • the invention comprises the disposing of certain of the apparatus, at leastthe prime mover and the compressor, within a sealed fluid tight casing or container and connecting theinterior of the casing to the high side of the refrigerating system.
  • the condenser is the condenser.
  • the lnvention is particularly adapted for use withrefrigerants of the type described in my copending application No. 603,998 filed Nov. 29, 1922 operating in accordance with-the process set forth in my copending application No. 15,172 filed .Mar. 12, 1925 on account of the low pressures obtaining on the high side of this system, but the invention is by no means confined thereto. I
  • A indicates the upper portion of a refrigerating cabinet upon which is mounted the refrigerating unit 1 which includes a casing preferably of metal, having a.base 2 and, a cover 3.
  • the lower edge of the cover seats in a groove 4: in the base which groove contains suitable semi-plastic sealing material, the parts of the casing being held in sealed engagement. by bolts 5 engaging projecting portions or' brackets 6 on the base and cover respectively.
  • the discharge pipe 7 of'the compressor leads to a condenser 10. While the condenser may be of any suitable or desired type and may be mounted either on the inside or on the outside of the casing as desired, the condenser shown is the conventional double pipe type disposed within the casing. Leads 11 passing through the base 2 supply the cooling medium, in the present instance water, to the inner pipe 10 of condenser 10. Condenser 10 discharges into an openreceptacle 12 mounted within the casing,'thereby connecting the interior of the casing to the high pressure side of the refrigera'ting system. An overflow pipe 13 extends upwardly within the receptacle 12 and terminates somewhat below the discharge end 10 of the condenser.
  • Pipe 13 leads out of the casing through a sealed opening and connects with a coil or refrigerating element within cabinet A, diagrammatically indicated at B, by a throttle device 0 which may be an expansion valve or a Venturi nozzle.
  • a connection from the top of the refrigerating element B is diagrammatically indicated extending to the intake pipe 14 of compressor 7 which pipe passes through a sealed opening in base 2 of the casing.
  • the water connection to condenser 10 preferably includes coils 11 within receptacle 12 for absorbing heat from the contents of the receptacle thereby to insure a body of condensed or liquid refrigerant within the i receptacle.
  • Means such as wicking 15 extendmg through a pipe 16 may be utilized to conduct some of the liquid refrigerant from receptacle 12 into compressor 7 to lubricate the same.
  • the present invention makes provision for the assembly into a compact unit ofthe entire refrigerating apparatus except for the refrigerating element and the immediate connections thereto, that the sealing of the casing practically eliminates all refrigerant leakage with its attendant disagreeable and dangerous features, and that the present invention avoids the necessity of providing packed joints which are difficult to maintain in a fluid tight condition.
  • the "invention is par-. ticularly adapted for use inclosed cycle syscombination, a fluid tight-casing, a compres sor and a prime mover therefor sealed Within said casing, a condenser connected to the high side of said compressor, and an open receptacle within said easing into which said condenser discharges, whereby the interior of said casing is connected to the discharge or high pressure side of said compressor.
  • a refrigerating system in combination, a refrigerator, a refrigerating coil therein. a casing having connections to the in said casing, a water condenser of the double pipe type into which said compressor ischarges, an open receptacle within said easing into which said. condenser the water connection to said condenser being arranged to absorb'heat from the contents of said receptacle.
  • a fluid tight casing in combination, a fluid tight casing, a compressor and a prime mover therefor sealed within said casing, a water condenser of the double pipe type into which said compressor discharges, an open receptacle withln said casing into which said condenser discharges, the water connection to said condenser hav: ing coils disposed within said receptacle to absorb heat from the contents thereof. .7.
  • a closed cycle system for producing refrigeration mechanically the combination with a refrigerator containing a refrigerating element, of a refrigerating unit in the form of a casing having a base and a cover arranged to be sealed to said base to form a fluid tight compartment, the remaining refrigerating apparatus comprising condenser, compressor and prime mover being mounted in said compartment, an open receptacle within said compartment into which said condenser discharges, thereby placin said compartment in communication wit the discharges,
  • a compressor in combination, a compressor, a prime mover, and a condenser, a fluid tight casing having said compressor and said prime mover sealed therewithin, an open receptacle within said casing into which said condenser'discharges thereby connecting said casing to high side pressure, means for extracting heat from the contents of said receptacle, and-suitable connections through the walls of said casing to enable the same to be connected into and system.
  • a compressor in combination, a compressor, a prime mover, and a double-pipe condenser, a fluid tight casing having said compressor and said prime mover sealed therewithin, an open receptacle within said casing into which said condenser discharges thereby connecting said casing to high side pressure, means utilizing the cooling medium for said condenser to exing.
  • tract heat from the contents of said recepand form a part of a closed cycle refrigerating system, one of said connections being arranged to withdraw at the'same time gas from said casing and liquid from said receptacle.
  • a com ressor in combination, a prime mover, and a condenser, a uid tight casing having said compressor and said prime mover sealed therewithin,'an open receptacle within said casing int-o which said condenser discharges thereby connecting said casing to high side pressure
  • means for extracting heat from the contents of said receptacle and suitable connections through the walls of said caslng to enable the same'to be connected into and form a part of a closed cycle refrigerating system including a conduit having its open and adjacent the top of said receptacle so as to withdraw at the same time both l1qu1d from said receptacle and gas from sald cas- Signed by me at Detroit, Michigan, this 5 day'of August, 1925.

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

Description

1,634,400 y 5 1927' R. w. DAVENPORT REFRIGERAT ING APPARATUS Filed A112. 15. 1925 [/V VEN 7' 0]? Rel/750m W [MW/720M tack and corrode the apparatus.
Patented July 5, 1927.
UNITEDSTATES PATENT OFFICE.
RANS OM W. DAVENPORT, OF DETROIT,
MICHIGAN-,ASSIGNOR T0 GHICAG'O rnnumn'rrc v TOOL COMPANY, OF NEW YORK, N. Y., A CORPORATION OF NEW JERSEY REFRIGERATTNG APPARATUS.
Application filed August 13, 1925. Serial No.'49,913.
The present invention relates to apparatus for producing refrigeration mechanically.
In refrigerating apparatus of the type described as heretofore used much'trouble has been experienced in confining the refrigerant. Leakage of the refrigerant not only eventuals ly impairs or destroys the efliciency of the apparatus but also has many disagreeable, if not actually dangerous, features. Practically all of the ordinary refrigerants are inflammable and some of them are explosive. They usually have a disagreeable or offensive odor and certain of them are poisonous. The refrigerant lost by leakage is replaced by air, which in the conventional system interferes with the operation ofthe system. The air thus admitted ordinarily contains Water .vapor which combines chemically with certain refrigerants producing acids which at- Leakage most frequently develops and ,is practically confined to the packings of the compressor or' pump.
Among the objects of the invention are to prevent the escape of refrigerant from the system, to eliminate packings on ,the compressor shaft, and in general to simplify and improve the structure and arrangement of refrigerating apparatus of the described type in the interest of more satisfactory and efficient service.
The invention comprises the disposing of certain of the apparatus, at leastthe prime mover and the compressor, within a sealed fluid tight casing or container and connecting theinterior of the casing to the high side of the refrigerating system. The condenser.
may be disposed either inside or outside the casing as desired, but the 60111186131011 of the high side pressure to the casing is by preference=at a point beyond-the condenser. The lnvention is particularly adapted for use withrefrigerants of the type described in my copending application No. 603,998 filed Nov. 29, 1922 operating in accordance with-the process set forth in my copending application No. 15,172 filed .Mar. 12, 1925 on account of the low pressures obtaining on the high side of this system, but the invention is by no means confined thereto. I
y In order to illustrate the invention and the manner of its operation one concrete embodiment thereof is disclosed inthe accompanying drawing in which the sealed casing or container for the refrigerating apparatus is disclosed in section as mounted upon a refrigerator cabinet, largely broken away, the
remaining parts of the apparatus includin the refrigerating element for the cabinet an the connections thereto being diagrammatically illustrated. I
In the embodiment shown, A indicates the upper portion of a refrigerating cabinet upon which is mounted the refrigerating unit 1 which includes a casing preferably of metal, having a.base 2 and, a cover 3. The lower edge of the cover seats in a groove 4: in the base which groove contains suitable semi-plastic sealing material, the parts of the casing being held in sealed engagement. by bolts 5 engaging projecting portions or' brackets 6 on the base and cover respectively. Within the casing is mounted the compressor 7,-which may be of any suitable or preferred type (that shown having a double ended piston) and has a crank shaft 7 upon which is mounted a fly wheel 7 over which runs a belt 8 driven by a prime mover such as the electric motor 9 also mounted within the casing. The discharge pipe 7 of'the compressor leads to a condenser 10. While the condenser may be of any suitable or desired type and may be mounted either on the inside or on the outside of the casing as desired, the condenser shown is the conventional double pipe type disposed within the casing. Leads 11 passing through the base 2 supply the cooling medium, in the present instance water, to the inner pipe 10 of condenser 10. Condenser 10 discharges into an openreceptacle 12 mounted within the casing,'thereby connecting the interior of the casing to the high pressure side of the refrigera'ting system. An overflow pipe 13 extends upwardly within the receptacle 12 and terminates somewhat below the discharge end 10 of the condenser. Pipe 13 leads out of the casing through a sealed opening and connects with a coil or refrigerating element within cabinet A, diagrammatically indicated at B, by a throttle device 0 which may be an expansion valve or a Venturi nozzle. A connection from the top of the refrigerating element B is diagrammatically indicated extending to the intake pipe 14 of compressor 7 which pipe passes through a sealed opening in base 2 of the casing.
The water connection to condenser 10 preferably includes coils 11 within receptacle 12 for absorbing heat from the contents of the receptacle thereby to insure a body of condensed or liquid refrigerant within the i receptacle. Means such as wicking 15 extendmg through a pipe 16 may be utilized to conduct some of the liquid refrigerant from receptacle 12 into compressor 7 to lubricate the same. The use of liquid refrigerant as a lubricant for the'compressor is disclosed in my copending application Serial No. 705,809 filed April 11, 1924.
,In operation the gaseous'portions of the refrigerant are drawn from the top of the refrigerating element B, compressed in pump 7, and discharged under pressure into conpipe 13, whence it expands up through the refrigerating element B absorbing heat from cabinet A and completing the cycle. Since the interior of the casing is open to the high pressure side of the system no fluid tight packings are used or required for the crank shaft 7*, of the pump.
From the above it will be appa rent that I the present invention makes provision for the assembly into a compact unit ofthe entire refrigerating apparatus except for the refrigerating element and the immediate connections thereto, that the sealing of the casing practically eliminates all refrigerant leakage with its attendant disagreeable and dangerous features, and that the present invention avoids the necessity of providing packed joints which are difficult to maintain in a fluid tight condition.
As stated previously,
tems utilizing as a refrigerant a physical mixture of a liquid and a gas substantially inert to and insoluble in theliquid in accordance with the method disclosed and claimed in my'copending application, Serial No. 1 5,172 filed Mar. 12, 1925.
While but one form of the invention has been herein shown and described it is to be understood that the invention is not limited to the specific details thereof but covers all changes, modifications and adaptations 'within the scope of the a pended claims.
I claim as my inv .ntion:
1. In apparatus of the type described, in combination, a fluid tight casing, a compressor and a prime mover therefor sealed within said casing, av condenser into which said compressor discharges, and means connecting the interior of said casing to the discharge of said condenser.
-2. In apparatus of the typedescribed, in
the "invention is par-. ticularly adapted for use inclosed cycle syscombination, a fluid tight-casing, a compres sor and a prime mover therefor sealed Within said casing, a condenser connected to the high side of said compressor, and an open receptacle within said easing into which said condenser discharges, whereby the interior of said casing is connected to the discharge or high pressure side of said compressor.
3. In a closed cycle system for producing refrigeration mechanically, the combination with a refrigerator containing a refrigerating element, of a refrigerating unit in the form of a casing having the rest of the refrigerating apparatus scaled therewithin, in-
eluding prime mover, compressor and condenser, the condenser connection being interrupted at one point to place the interior of said casing in connection'with the high side of said. system therebyto enable the system to operate properly without fluid tight packings-for the compressor shaft.
4. In a refrigerating system, in combination, a refrigerator, a refrigerating coil therein. a casing having connections to the in said casing, a water condenser of the double pipe type into which said compressor ischarges, an open receptacle within said easing into which said. condenser the water connection to said condenser being arranged to absorb'heat from the contents of said receptacle.
6. In apparatus of the type described, in combination, a fluid tight casing, a compressor and a prime mover therefor sealed within said casing, a water condenser of the double pipe type into which said compressor discharges, an open receptacle withln said casing into which said condenser discharges, the water connection to said condenser hav: ing coils disposed within said receptacle to absorb heat from the contents thereof. .7. In a closed cycle system for producing refrigeration mechanically the combination with a refrigerator containing a refrigerating element, of a refrigerating unit in the form of a casing having a base and a cover arranged to be sealed to said base to form a fluid tight compartment, the remaining refrigerating apparatus comprising condenser, compressor and prime mover being mounted in said compartment, an open receptacle within said compartment into which said condenser discharges, thereby placin said compartment in communication wit the discharges,
,form a part of a closed cycle refrigerating high pressure side of said system, an overflow from said receptacle connected through the base of said casing to the lower part of said refrigerating element, and a connection from the upper portion of said element through said base to the intake of said compressor. a
' 8. In apparatus of the type described, in combination, a compressor, a prime mover",
and a condenser, a fluid tight casing having said compressor and said prime mover sealed therewithin, an open receptacle within said casing into which said condenser discharges-thereby connecting said casing to high side pressure, and suitable connections between said parts and through .the walls of said casing to enable the same to be connected into and form a part of a closed cycle refrigerating system.
9. In apparatus of the type described, in combination, a compressor, a prime mover, and a condenser, a fluid tight casing having said compressor and said prime mover sealed therewithin, an open receptacle within said casing into which said condenser'discharges thereby connecting said casing to high side pressure, means for extracting heat from the contents of said receptacle, and-suitable connections through the walls of said casing to enable the same to be connected into and system.
10. In apparatus of the type described, in combination, a compressor, a prime mover, and a double-pipe condenser, a fluid tight casing having said compressor and said prime mover sealed therewithin, an open receptacle within said casing into which said condenser discharges thereby connecting said casing to high side pressure, means utilizing the cooling medium for said condenser to exing.
tract heat from the contents of said recepand form a part of a closed cycle refrigerating system, one of said connections being arranged to withdraw at the'same time gas from said casing and liquid from said receptacle. k
12. In apparatus of the type described, in combination, a com ressor, a prime mover, and a condenser, a uid tight casing having said compressor and said prime mover sealed therewithin,'an open receptacle within said casing int-o which said condenser discharges thereby connecting said casing to high side pressure, means for extracting heat from the contents of said receptacle and suitable connections through the walls of said caslng to enable the same'to be connected into and form a part of a closed cycle refrigerating system, including a conduit having its open and adjacent the top of said receptacle so as to withdraw at the same time both l1qu1d from said receptacle and gas from sald cas- Signed by me at Detroit, Michigan, this 5 day'of August, 1925.
RANSOM W. DAVENPORT.
US49913A 1925-08-13 1925-08-13 Refrigerating apparatus Expired - Lifetime US1634400A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5660050A (en) * 1995-07-10 1997-08-26 Russell Coil Company Refrigeration condenser, receiver subcooler system
FR2807499A1 (en) * 2000-04-07 2001-10-12 Toyoda Automatic Loom Works Air conditioner has compressor for refrigerant with condenser and evaporator formed integrally

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5660050A (en) * 1995-07-10 1997-08-26 Russell Coil Company Refrigeration condenser, receiver subcooler system
FR2807499A1 (en) * 2000-04-07 2001-10-12 Toyoda Automatic Loom Works Air conditioner has compressor for refrigerant with condenser and evaporator formed integrally

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