US2409928A - Combination receiver and dehydrator - Google Patents
Combination receiver and dehydrator Download PDFInfo
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- US2409928A US2409928A US510731A US51073143A US2409928A US 2409928 A US2409928 A US 2409928A US 510731 A US510731 A US 510731A US 51073143 A US51073143 A US 51073143A US 2409928 A US2409928 A US 2409928A
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- refrigerant
- housing
- receiver
- dehydrator
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B43/00—Arrangements for separating or purifying gases or liquids; Arrangements for vaporising the residuum of liquid refrigerant, e.g. by heat
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B43/00—Arrangements for separating or purifying gases or liquids; Arrangements for vaporising the residuum of liquid refrigerant, e.g. by heat
- F25B43/04—Arrangements for separating or purifying gases or liquids; Arrangements for vaporising the residuum of liquid refrigerant, e.g. by heat for withdrawing non-condensible gases
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S210/00—Liquid purification or separation
- Y10S210/06—Dehydrators
Definitions
- This invention relates to a receiver and dehydrating means and more particularly to an improved and simplified form of a combination receiver and dehydrator unit which is particularly applicable for use in compressor-condensor-expander type refrigerator systems, using a selected kind of volatile refrigerant liquid in continuous repetitive cycles and wherein it is desirable to provide for the proper dehydrating of the refrigerant in a simple and efficient manner.
- One of the principal features and objects of the present invention is to combine the dehydrator with the receiver in a single compact structure.
- Another object of the invention is to provide apparatus for and a method of dehydratinga refrigerant while it is being circulated in a repetitive cycle in a self-contained refrigerating system.
- Still another objectof the invention is to dehydrate and screen a liquid refrigerant while it is being conductedthrougha receiver connected in the refrigerant line of a refrigerating system.
- the invention comprises a novel structure in a combination hereinafter described and more particularly pointed out and defined by the appended claims.
- Figure 1 is a plan view of a combination receiVer and dehydrator embodying the principles of this invention and adapted for connection in the refrigerant line of a vapor compression type refrigerating system or the like.
- FIG. 2 is an enlarged vertical detailed section taken on line II--II of Figure 1 with parts shown in elevation.
- Figure 3 is a fragmentary sectional View taken on line III-1II of Figure 2.
- Figure 4 is a fragmentary sectional view taken on line IVIV of Figure 2 with portions shown in elevation.
- Figure 5 is a schematic diagram of a refrigerating system including a combination receiver and dehydrator.
- This invention relates to refrigerating systems and more particularly to vapor compression types of refrigerator systems using a volatile liquid as a refrigerant in a closed circuit, the efficiency of the operation of which is increased by the use of an improved combination receiver and dehydrator, embodying the principles of this invention, and adaptable for connection in series in the refrigerant line of the system.
- One type of refrigerating system in which the combination receiver and dehydrator may be used is a self-contained electric refrigerating unit of the vapor compression type using a volatile liquid refrigerant in a closed circuit including an evaporator unit 31, a compressor 38, a condenser 39, a receiver and dehydrator unit 40 and an expansion valve 4
- the receiver and dehydrator ii! includes an inlet tube section I leading from the condenser 39 and an outlet refrigerant tube section '2 arranged to be connected to an expansion valve ll or its equivalent.
- the combination receiver and dehydrator unit as clearly illustrated in Figure .2, comprises a hemispherical base or lower body section 3 constructed of metal or other suitable material and having a filler opening in the bottom thereof surrounded by a ring or collar 4.
- the upper margin of the base section 3 is deflected outwardly to form a peripheral flange 5.
- spherical base-section 3 is also provided with an outlet opening 6.
- Mounted and interfitted with the lower basesection 3 is a hemispherical upper ortop section 1 constructed of metal orother suitable material and having an opening in the top thereof surrounded. by an inwardly directed The lower hemiring or collar 8.
- the upper body section 1 has the open lower portion thereof projected downwardly into the upturned lower body section 3 to form a tight fit therewith.
- the two body sections 3 and I are brazed or otherwise rigidly secured together at their overlapping portions to complete and form a spherical liquid refrigerant receiver housing or casing.
- the upper receiver section 1 is also provided with a liquid refrigerant inlet opening 9 surrounded by an inwardly turned ring or flange Ill.
- a concave or cup-shaped holder H forming a part of a supporting base l2 formed with a supporting base plate or flange l3 upon which the unit is supported.
- the cup-shaped holder I I of the supporting base is provided with a middle opening surrounded by a ring or flange M.
- the opening in the holder H is positioned below and in axial alignment with the opening in the bottom of the receiver section 3 and said registering openings are used to permit the interior of the receiver housing or casing to be filled to about 85% of its capacity with a dehydrating element or substance I5.
- the dehydrating substance I5 is of a kind which will not powder; such, for example, as silica gel having a suitable grain size such as l l to 20 mesh. After the desired amount of silica gel has been deposited in the receiver housing, the bottom openings of said receiver housing are closed by means of a plug l6 which is sealed in place.
- a reduced end or base ll which forms a part of a purge valve body or housing i8 which projects axially from the top' of the housing.
- the purge valve housing I8 is provided with an internally threaded valve chamber IS, the lower end of which communicates with a passage 20 provided in the'base ll of the purge valve housing and in communication with the interior of the receiver housing above the top level of the silica gel contained therein. Where the upper end of the passage 20 communicates with the internally threaded valve chamber l9, a valve seat 2
- a conical purge valve 22 within the purge valve housing is adapted to coact with the valve seat 2
- the valve 22 is provided with a square opening 23 for the reception of a square tool of any de- I sired type for operating the valve.
- valve by-pass or outlet passage 24 Communicating with the lower end of the square opening 23 in the valve is a valve by-pass or outlet passage 24 which is diagonally disposed and opens out through one side of the conical purge Valve 22 so that when the purge valve 22 is open, bleeding of air out of the receiver housing in'the refrigerant system is permitted to take place until a little of the refrigerant starts to come out, at which time the control valve 22 is again tightly closed.
- the refrigerant vapor after being compressed in the compressor of the refrigerating system is advanced through the condenser where the refrigez ant is liquified and then passes through the refrigerant lineitube section I to enter'the upper-end of the receiver housing.
- the inner end portion of the entrance screen 25 projects through the space above the silica gel l5 and extends into the upper portion of the silica gel a short distance as illustrated in the figure.
- This arrangement permits the liquid refrigerant from the line I to enter the upper portion of the receiver and dehydrating casing or housing and permits the refrigerant to pass through the screen 25 into the upper portion of the housing and into the silica gel to become dehydrated thereby.
- the liquid refrigerant passing through the silica gel within the receiver housing passes downwardly and enters into a cylindrical or sleeve type outlet screen 2'! constructed of Monel metal or the like.
- the inner end of the outlet 27 is closed by means of a screen end piece or by a solid end piece as preferred, while the opposite end of the cylindrical screen is open and is slipped over an end portion of a metal outlet tubeor sleeve 28 to which it is soldered or otherwise rigidly secured.
- the screen 21 and the tube 28 are assembled before mounting and after an internally threaded socket 29 is slidablyengaged over the tube 28 permitting a beveled internal shoulder 30 of the socket to seat on a conical flange 3
- the screen 21 With the screen 21, the tube 28 and the socket 29 assembled as a unit the screen may be projected through the opening 5 in the lower section of the receiver housing. Solder 32 is thenfused to rigidly secure both the tube 28 and the socket 29 to the outer surface of the receiver housing section 3 with the solderfilling the opening 6 to tightly close the joints.
- combinationreceiver and ,de-. hydrator unit is provided and is adapted tobe conveniently connected in series in the refrige erant line of a vapor compression typerefrigcrating system to provide a simple and eilicient means for receiving the refrigerantliquid from the line tube section I, leading from a refrigerating system condenser, and permitting the liquid refrigerant to enter and be stored in the receiver housing.
- the refrigerant stored in the receiver is now dehydrated by the action of the silica gel in the housing.
- the dehydrated liquid refrigerant when needed is permitted to pass from the receiver into the refrigerant line tube section 2 on its way to the expansion valve and the evaporator unit of the refrigerator system in which the combination receiver and dehydrator is connected.
- any air which may find its way into the closed refrigerant line gradually finds its way into the space above the silica gel in the combination receiver housing.
- the air thus trapped in said housing may be ejected by means of the purge valve unit by opening the purge valve 22 allowing the trapped air to escape through the passage 29 and the outlet passage 24 in the valve out through the upper end of the purge valve housing l8.
- the purge valve 22 is closed when the trapped air has escaped and when a little of the refrigerant starts to come out.
- valve 22 is primarily used as a purge valve, attention is called to the fact that the valve may also be used as a charging valve to permit additional refrigerant to be added to the system.
- a combination refrigerant receiver and dehydrating unit connectable in the refrigerant line of a refrigerating system, said unit comprising a housing having a filler opening therein, a refrigerant dehydrating substance deposited in the housing through said filler opening, a plug means in said filler opening to tightly seal the same, a screened refrigerant intake member connected with the refrigerant line and projecting into the housing to admit a refrigerant therein to pass through said substance, a screened refrigerant outlet member in said housing and projecting from the housing, and coupling means for connecting the screened outlet member with the refrigerant line of said system.
- a combination refrigerant receiver and dehydrator unit connectable in the refrigerant line of the system, said unit comprising a housing, an air purge means on said housing, means for filling the housing, a refrigerant dehydrating compound in said housing filling the major portion thereof, tube members projecting into the housing to permit a flow of refrigerant through the housing and through the compound therein to dehydrate the refrigerant, and screens on said tube members within the housing of a mesh permitting the refrigerant to pass therethrough but preventing entrance of the compound into the refrigerant line of the system.
- a combination refrigerant receiver and dehydrating unit connectable in the refrigerant line of the system, said unit comprising a housing having a filling opening therein, means for, closing the opening, an air purge unit on the housing, a bed of silica gel particles filling the major portion of the housing, a screened refrigerant intake means for connection with the refrigerant line of the system, and a screened refrigerant outlet means for connection with said refrigerant line.
- a combination refrigerant receiver and dehydrating unit connectable in the refrigerant line of the system, said unit comprising a housing, a bed of silica gel particles filling the major portion thereof, a screened refrigerant intake means for connection with the refrigerant lineof the system, a screened refrigerant outlet means for connection with said refrigerant line, and an air purge valve means on said housing above the silica gel and operable to permit the escape of air from the housing.
- a combination refrigerant receiver and dehydrator unit comprising a closed housing, a screened refrigerant intake means connected in the refrigerant line of the system and projecting into the housing, a screened refrigerant outlet means in the housing and connected in the refrigerant line of said system, a refrigerant dehydrating element in said housing and having a grain mesh size preventing entrance of the element into the screened intake means and into the screened outlet means, and an air purge valve unit in the housing for permitting the discharge of air therefrom.
- a combination refrigerant receiver and dehydrator unit comprising a closed housing having a filling opening therein, a purge valve on the housing, a screened refrigerant intake means connected with the refrigerant line of the system and projecting into the housing, a screened refrigerant outlet means in the housing and connected with the refrigerant line of said system, a refrigerant dehydrating element in said housing and having a grain mesh size preventing entrance of the element into the screened intake means and into the screened outlet means, and means for closing the housing opening after the refrigerant dehydrating element has been deposited in the housing.
- a combination refrigerant receiver and dehydrator unit comprising a closed housing, a refrigerant intake means connected with the refrigerant line of the system and with the housing, a refrigerant outlet means connected with said housing and with the refrigerant line of said system, a refrigerant dehydrating element in the housing and having a grain mesh size preventing entrance of the element into the intake and outlet means, and a charging valve in the housing for the addition of refrigerant to the system.
Description
Oct. 22, 1946. A EN LI, JR 2,409,928
COMBINATION RECEIVER AND DEHYDRATOR Filed Nov. 18, 1943 Patented Oct. 22, 1946 COMBINATION RECEIVER AND DEHYDRATOR Martin T. Cahenzli, Jr., Chicago, Ill., assignor'to The Harry Alter Company, Chicago, IlL, a corporation of Illinois Application November 18, 1943, Serial No. 510,731
'7 Claims. 1
This invention relates to a receiver and dehydrating means and more particularly to an improved and simplified form of a combination receiver and dehydrator unit which is particularly applicable for use in compressor-condensor-expander type refrigerator systems, using a selected kind of volatile refrigerant liquid in continuous repetitive cycles and wherein it is desirable to provide for the proper dehydrating of the refrigerant in a simple and efficient manner.
Heretofore in the various types of self-contained electric refrigerating units, of the vapor compression class, a separate receiver has frequently been used in the system following the condenser. This has been particularly true in systems employing a capillary tube for metering the refrigerant in place of an expansion valve. A separate dehydrating unit has also been employed in systems of the above type for even though the refrigerant be employed in a closed cycle, it has been found that moisture will get into the refrigerant and shouldbe removed for most efficient operation.
One of the principal features and objects of the present invention is to combine the dehydrator with the receiver in a single compact structure.
It is a further object. of this invention to provide a simple and effective type of combination liquid refrigerant receiver and dehydrator for use with a vapor compression type refrigerator system and adapted to simultaneously serve as a liquid refrigerant receiver and as a medium for screening and dehydrating the liquid refrigerant as it passes through the unit.
It is a further object of this invention to provide a refrigerator system with an improved unit connected in series with the refrigerant line and containing a dehydrating medium within a liquid refrigerant receiving chamber in whichthe intake and outlet for the refrigerant are screened to prevent the entrance of the dehydrating medium into. the refrigerant circulating line.
Another object of the invention is to provide apparatus for and a method of dehydratinga refrigerant while it is being circulated in a repetitive cycle in a self-contained refrigerating system.
Still another objectof the invention is to dehydrate and screen a liquid refrigerant while it is being conductedthrougha receiver connected in the refrigerant line of a refrigerating system.
The invention comprises a novel structure in a combination hereinafter described and more particularly pointed out and defined by the appended claims.
On the drawing:
Figure 1 is a plan view of a combination receiVer and dehydrator embodying the principles of this invention and adapted for connection in the refrigerant line of a vapor compression type refrigerating system or the like.
Figure 2 is an enlarged vertical detailed section taken on line II--II of Figure 1 with parts shown in elevation.
Figure 3 is a fragmentary sectional View taken on line III-1II of Figure 2.
Figure 4 is a fragmentary sectional view taken on line IVIV of Figure 2 with portions shown in elevation.
Figure 5 is a schematic diagram of a refrigerating system including a combination receiver and dehydrator.
As shown on the drawing:
This invention relates to refrigerating systems and more particularly to vapor compression types of refrigerator systems using a volatile liquid as a refrigerant in a closed circuit, the efficiency of the operation of which is increased by the use of an improved combination receiver and dehydrator, embodying the principles of this invention, and adaptable for connection in series in the refrigerant line of the system.
One type of refrigerating system in which the combination receiver and dehydrator may be used, is a self-contained electric refrigerating unit of the vapor compression type using a volatile liquid refrigerant in a closed circuit including an evaporator unit 31, a compressor 38, a condenser 39,a receiver and dehydrator unit 40 and an expansion valve 4| (Figure 5). The receiver and dehydrator ii! includes an inlet tube section I leading from the condenser 39 and an outlet refrigerant tube section '2 arranged to be connected to an expansion valve ll or its equivalent.
The combination receiver and dehydrator unit as clearly illustrated in Figure .2, comprises a hemispherical base or lower body section 3 constructed of metal or other suitable material and having a filler opening in the bottom thereof surrounded by a ring or collar 4. The upper margin of the base section 3 is deflected outwardly to form a peripheral flange 5. spherical base-section 3 is also provided with an outlet opening 6. Mounted and interfitted with the lower basesection 3 is a hemispherical upper ortop section 1 constructed of metal orother suitable material and having an opening in the top thereof surrounded. by an inwardly directed The lower hemiring or collar 8. The upper body section 1 has the open lower portion thereof projected downwardly into the upturned lower body section 3 to form a tight fit therewith. The two body sections 3 and I are brazed or otherwise rigidly secured together at their overlapping portions to complete and form a spherical liquid refrigerant receiver housing or casing. The upper receiver section 1 is also provided with a liquid refrigerant inlet opening 9 surrounded by an inwardly turned ring or flange Ill.
Spot welded or otherwise rigidly secured to the outer surface of the bottom receiver section 3 is a concave or cup-shaped holder H forming a part of a supporting base l2 formed with a supporting base plate or flange l3 upon which the unit is supported. The cup-shaped holder I I of the supporting base is provided with a middle opening surrounded by a ring or flange M. The opening in the holder H is positioned below and in axial alignment with the opening in the bottom of the receiver section 3 and said registering openings are used to permit the interior of the receiver housing or casing to be filled to about 85% of its capacity with a dehydrating element or substance I5. The dehydrating substance I5 is of a kind which will not powder; such, for example, as silica gel having a suitable grain size such as l l to 20 mesh. After the desired amount of silica gel has been deposited in the receiver housing, the bottom openings of said receiver housing are closed by means of a plug l6 which is sealed in place.
Engaged in the top opening, formed by the collar 8 of the top section 1 of the housing, is a reduced end or base ll which forms a part of a purge valve body or housing i8 which projects axially from the top' of the housing. The purge valve housing I8 is provided with an internally threaded valve chamber IS, the lower end of which communicates with a passage 20 provided in the'base ll of the purge valve housing and in communication with the interior of the receiver housing above the top level of the silica gel contained therein. Where the upper end of the passage 20 communicates with the internally threaded valve chamber l9, a valve seat 2| is formed. A conical purge valve 22 within the purge valve housing is adapted to coact with the valve seat 2| to close the passage 20 or open the same by the rotation of the valve 22 the upper portion of which is of cylindrical form and is externally threaded as indicated in Figure 2. The valve 22 is provided with a square opening 23 for the reception of a square tool of any de- I sired type for operating the valve. Communicating with the lower end of the square opening 23 in the valve is a valve by-pass or outlet passage 24 which is diagonally disposed and opens out through one side of the conical purge Valve 22 so that when the purge valve 22 is open, bleeding of air out of the receiver housing in'the refrigerant system is permitted to take place until a little of the refrigerant starts to come out, at which time the control valve 22 is again tightly closed.
The refrigerant vapor after being compressed in the compressor of the refrigerating system is advanced through the condenser where the refrigez ant is liquified and then passes through the refrigerant lineitube section I to enter'the upper-end of the receiver housing. Engaged on the end portion of the refrigerant tube section l as clearly illustrated in Figure 4, in the open end oiatubular type screen 25 constructed of Monel metal or the like taneously solder thetube section I and the screen to the upper section 1 of the receiver housing. As shown in Figure 2, the inner end portion of the entrance screen 25 projects through the space above the silica gel l5 and extends into the upper portion of the silica gel a short distance as illustrated in the figure.
This arrangement permits the liquid refrigerant from the line I to enter the upper portion of the receiver and dehydrating casing or housing and permits the refrigerant to pass through the screen 25 into the upper portion of the housing and into the silica gel to become dehydrated thereby.
The liquid refrigerant passing through the silica gel within the receiver housing passes downwardly and enters into a cylindrical or sleeve type outlet screen 2'! constructed of Monel metal or the like. The inner end of the outlet 27 is closed by means of a screen end piece or by a solid end piece as preferred, while the opposite end of the cylindrical screen is open and is slipped over an end portion of a metal outlet tubeor sleeve 28 to which it is soldered or otherwise rigidly secured. The screen 21 and the tube 28 are assembled before mounting and after an internally threaded socket 29 is slidablyengaged over the tube 28 permitting a beveled internal shoulder 30 of the socket to seat on a conical flange 3| integrally formed or rigidly secured on the outer end of the tube 28 by means of solder or other suitable material. With the screen 21, the tube 28 and the socket 29 assembled as a unit the screen may be projected through the opening 5 in the lower section of the receiver housing. Solder 32 is thenfused to rigidly secure both the tube 28 and the socket 29 to the outer surface of the receiver housing section 3 with the solderfilling the opening 6 to tightly close the joints.
As illustrated in Figure l therefrigerant line tube 2 is provided with the ordinary type of coupling nut 33 which is adapted to be threaded onto one end of an externally threaded union or coupling fitting 34 the opposite threaded end of which is threaded into the socket 29 rigidly secured tothe receiver housing. The union or coupling 34 has the ends thereof beveled as clearly illustrated in Figure 3 so that the end of the coupling .34 which is threaded into thesocket 29 seats tightly against the conical pipe flange 3| to form a tight joint so that the axial passage 35 in the union or coupling 34 completes the passage between the tube 28 and the refrigerant line tube 2. For the purpose of operating the union or coupling 34 a nut portion 35 is formed integrally on the exterior of said union between the ends thereof. L i
As illustrated in the drawingan improved'and simplified form of combinationreceiver and ,de-. hydrator unit is provided and is adapted tobe conveniently connected in series in the refrige erant line of a vapor compression typerefrigcrating system to provide a simple and eilicient means for receiving the refrigerantliquid from the line tube section I, leading from a refrigerating system condenser, and permitting the liquid refrigerant to enter and be stored in the receiver housing. The refrigerant stored in the receiver is now dehydrated by the action of the silica gel in the housing. The dehydrated liquid refrigerant when needed is permitted to pass from the receiver into the refrigerant line tube section 2 on its way to the expansion valve and the evaporator unit of the refrigerator system in which the combination receiver and dehydrator is connected.
During the operation of a vapor compression type refrigerating system in which the combination receiver and dehydrator unit of this invention is adapted to be used, any air which may find its way into the closed refrigerant line gradually finds its way into the space above the silica gel in the combination receiver housing. The air thus trapped in said housing may be ejected by means of the purge valve unit by opening the purge valve 22 allowing the trapped air to escape through the passage 29 and the outlet passage 24 in the valve out through the upper end of the purge valve housing l8. The purge valve 22 is closed when the trapped air has escaped and when a little of the refrigerant starts to come out.
While the valve 22 is primarily used as a purge valve, attention is called to the fact that the valve may also be used as a charging valve to permit additional refrigerant to be added to the system.
While the improved combination receiver and dehydrator has been described for use in a vapor compression type of refrigerating system it will of course be understood that the combination unit of this invention may be adaptable for other types of refrigerating systems. It is furthermore to be understood that various details of construction may be varied through a wide range without departing from the principles of this in vention and it is, therefore, not the purpose to limit the patent granted hereon otherwise than necessitated by the scope of the appended claims.
I claim as my invention:
1. A combination refrigerant receiver and dehydrating unit connectable in the refrigerant line of a refrigerating system, said unit comprising a housing having a filler opening therein, a refrigerant dehydrating substance deposited in the housing through said filler opening, a plug means in said filler opening to tightly seal the same, a screened refrigerant intake member connected with the refrigerant line and projecting into the housing to admit a refrigerant therein to pass through said substance, a screened refrigerant outlet member in said housing and projecting from the housing, and coupling means for connecting the screened outlet member with the refrigerant line of said system.
2. In a vapor compression type of refrigerating system a combination refrigerant receiver and dehydrator unit connectable in the refrigerant line of the system, said unit comprising a housing, an air purge means on said housing, means for filling the housing, a refrigerant dehydrating compound in said housing filling the major portion thereof, tube members projecting into the housing to permit a flow of refrigerant through the housing and through the compound therein to dehydrate the refrigerant, and screens on said tube members within the housing of a mesh permitting the refrigerant to pass therethrough but preventing entrance of the compound into the refrigerant line of the system.
3. In a device of the class described for use in a refrigerating system, a combination refrigerant receiver and dehydrating unit connectable in the refrigerant line of the system, said unit comprising a housing having a filling opening therein, means for, closing the opening, an air purge unit on the housing, a bed of silica gel particles filling the major portion of the housing, a screened refrigerant intake means for connection with the refrigerant line of the system, and a screened refrigerant outlet means for connection with said refrigerant line.
4. In a device of the class described for use in a refrigerating system, a combination refrigerant receiver and dehydrating unit connectable in the refrigerant line of the system, said unit comprising a housing, a bed of silica gel particles filling the major portion thereof, a screened refrigerant intake means for connection with the refrigerant lineof the system, a screened refrigerant outlet means for connection with said refrigerant line, and an air purge valve means on said housing above the silica gel and operable to permit the escape of air from the housing.
5. In a refrigerator system using a volatile liquid refrigerant, a combination refrigerant receiver and dehydrator unit comprising a closed housing, a screened refrigerant intake means connected in the refrigerant line of the system and projecting into the housing, a screened refrigerant outlet means in the housing and connected in the refrigerant line of said system, a refrigerant dehydrating element in said housing and having a grain mesh size preventing entrance of the element into the screened intake means and into the screened outlet means, and an air purge valve unit in the housing for permitting the discharge of air therefrom.
6. In a refrigerator system using a volatile liquid refrigerant, a combination refrigerant receiver and dehydrator unit comprising a closed housing having a filling opening therein, a purge valve on the housing, a screened refrigerant intake means connected with the refrigerant line of the system and projecting into the housing, a screened refrigerant outlet means in the housing and connected with the refrigerant line of said system, a refrigerant dehydrating element in said housing and having a grain mesh size preventing entrance of the element into the screened intake means and into the screened outlet means, and means for closing the housing opening after the refrigerant dehydrating element has been deposited in the housing.
7. In a refrigerator system using a volatile liquid refrigerant, a combination refrigerant receiver and dehydrator unit comprising a closed housing, a refrigerant intake means connected with the refrigerant line of the system and with the housing, a refrigerant outlet means connected with said housing and with the refrigerant line of said system, a refrigerant dehydrating element in the housing and having a grain mesh size preventing entrance of the element into the intake and outlet means, and a charging valve in the housing for the addition of refrigerant to the system.
MARTIN T. CAHENZLI, JR.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US510731A US2409928A (en) | 1943-11-18 | 1943-11-18 | Combination receiver and dehydrator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US510731A US2409928A (en) | 1943-11-18 | 1943-11-18 | Combination receiver and dehydrator |
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US2409928A true US2409928A (en) | 1946-10-22 |
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US510731A Expired - Lifetime US2409928A (en) | 1943-11-18 | 1943-11-18 | Combination receiver and dehydrator |
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Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2557557A (en) * | 1948-03-23 | 1951-06-19 | Remco Inc | Refrigerant drier-filter unit |
US2702125A (en) * | 1951-09-18 | 1955-02-15 | Willinger Harding Warren | Dip tube |
US2736181A (en) * | 1956-02-28 | Cigarette and cigar lighter | ||
US3448859A (en) * | 1966-04-08 | 1969-06-10 | Atomic Energy Commission | Radioactive waste removal method |
US4853125A (en) * | 1986-06-30 | 1989-08-01 | Toyoda Gosei Co., Ltd. | Fluid chamber having a tubular filter and a securing recess for mounting the same |
US5168068A (en) * | 1989-06-20 | 1992-12-01 | President And Fellows Of Harvard College | Adsorbent-type gas monitor |
US6581407B1 (en) * | 1999-05-12 | 2003-06-24 | Volkswagen | Refrigerant collector for an air conditioning system in a vehicle |
US10463999B2 (en) * | 2014-01-03 | 2019-11-05 | Clean Fuel Screen Company LLC | Methods, devices, and systems for filtering hydrocarbons |
-
1943
- 1943-11-18 US US510731A patent/US2409928A/en not_active Expired - Lifetime
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2736181A (en) * | 1956-02-28 | Cigarette and cigar lighter | ||
US2557557A (en) * | 1948-03-23 | 1951-06-19 | Remco Inc | Refrigerant drier-filter unit |
US2702125A (en) * | 1951-09-18 | 1955-02-15 | Willinger Harding Warren | Dip tube |
US3448859A (en) * | 1966-04-08 | 1969-06-10 | Atomic Energy Commission | Radioactive waste removal method |
US4853125A (en) * | 1986-06-30 | 1989-08-01 | Toyoda Gosei Co., Ltd. | Fluid chamber having a tubular filter and a securing recess for mounting the same |
US5168068A (en) * | 1989-06-20 | 1992-12-01 | President And Fellows Of Harvard College | Adsorbent-type gas monitor |
US6581407B1 (en) * | 1999-05-12 | 2003-06-24 | Volkswagen | Refrigerant collector for an air conditioning system in a vehicle |
US10463999B2 (en) * | 2014-01-03 | 2019-11-05 | Clean Fuel Screen Company LLC | Methods, devices, and systems for filtering hydrocarbons |
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