US2213325A - Refrigerating apparatus - Google Patents
Refrigerating apparatus Download PDFInfo
- Publication number
- US2213325A US2213325A US253725A US25372539A US2213325A US 2213325 A US2213325 A US 2213325A US 253725 A US253725 A US 253725A US 25372539 A US25372539 A US 25372539A US 2213325 A US2213325 A US 2213325A
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- United States
- Prior art keywords
- cylinder block
- tube
- frame
- opening
- refrigerant
- Prior art date
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Classifications
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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
- F25B31/00—Compressor arrangements
- F25B31/02—Compressor arrangements of motor-compressor units
-
- 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
- F25B49/00—Arrangement or mounting of control or safety devices
- F25B49/02—Arrangement or mounting of control or safety devices for compression type machines, plants or systems
- F25B49/022—Compressor control arrangements
-
- 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
- Y10S417/00—Pumps
- Y10S417/902—Hermetically sealed motor pump unit
Definitions
- This invention relates to refrigerant compressors and more especially to a means for connecting the refrigerant carrying tubing to the compressor.
- the former practice was to braze the tubing to the compressor.
- This method has the disadvantage that fluxes are required in the brazing operation.
- the fluxing material is difiicult to remove and unless completely removed tends to clog the flow restricting devices in the refrigerating system. This clogging is most noticeable in refrigerating systems embodying constantly open flow restricting devices such as capillary tubes or fixed orifices and especially in encased units where the refrigerant contacts both sides of the joint;
- the fluxing material may form the clogging material by itself or may combine with other compounds in the system to form the clogging material.
- One object of this invention is, therefore, to provide a joint between the refrigerant compressor and refrigerant tubing which does not require soldering or brazing.
- Another object is to provide a leak-proof joint between the refrigerant compressor and the refrigerant tubing which is readily assembled.
- Another object is to provide a means for securing the refrigerant tubing on the refrigerant compressor which means also secures the refrigerant compressor to the casing of the motor which drives the compressor.
- Fig. 1 is a vertical section of a motor-driven refrigerant compressor embodying the invention
- Fig. 2 is an end view of the compressor of Fig. 1, with the cover removed and a portion of the casing broken away;
- Fig. 3 is a section on the line III-III of Fig. 1;
- Fig. 4 is a section of the mufiler
- Fig. 5 is an elevation of a holding plate on the motor
- Fig. 6- is a plan view of the cylinder head with the attachment screws in place;
- Fig. 7 is a plan view of the upper flexible valve member
- Fig. 9 is a plan view of the lower flexible valve member.
- Fig. 10 is a section on the line X-X of Fig. 1.
- the reference numera1 It represents a casing comprising a cupshaped container H and a cover l2 welded at its edges to the edges of the container ii.
- a motor l3 comprising a frame it, a stator it, leads IS, a rotor IT, and a shaft I8, is pressed 5 into the cup-shaped container H and a plate I9 is secured to the motor frame l4 by screws 2!.
- the plate I9 is provided with a detent 22 which registers with a second detent 23 pressed into the side of the cup-shaped container I! to prevent 10 the motor frame 14 from moving in the container H.
- the leads It of the motor it pass through an opening 25 in the plate l9 and are connected to bushings 26 sealed in the container wall. These bushings 26 conduct the electric curl5 rent for the motor it through the wall of the container It.
- a cylinder block 21 is secured by a tongue and groove element 28 and by other means, subsequently to be described, to the upper portion of the motor frame M.
- a piston 29, in the cylinder block 27, is actuated by a connecting rod 3
- a counterweight 33 is secured to an extension on the shaft 88 and is located oppositely to the crankpin 32.
- the lower portion of thecasing Hi contains lubricating oil, and the connecting rod 3! is provided with a scoop 3 5 which scoops up the oil in the casing and sprays it over the working elements of the unit. Portions of the oil thus sprayed are caught by an oil collector 35 secured to the plate l9 from which collector 35 the oil flows into' an oil hole 35 which delivers it to the bearing of the shaft It in the motor frame M.
- the cylinder block 21 contains a refrigerant inlet chamber 37, a muffler chamber 38, and a cylinder chamber 39, which chambers are parallel to one another.
- Two horizontal ducts M and 42 are provided in the cylinder block 21, one of which communicates with the bottom of the inlet chamber 37 and the other with the bottom of the muffler chamber 38.
- a muffier element 43 communicates with the horizontal duct 4
- the duct ll has a beveled opening 5! and the tube projects into the duct il of the cylinder block 21 and is 50 provided with a soft metal sleeve 4! having beveled edges 48 and 49, one of which edges lies adjacent the bevel 5
- a channel member or yoke 52 is provided with a hole 53 having a formed beveled edge lil 54 registering with the beveled edge 49 of the sleeve 41.
- and of the channel member 52 clamp and shrink the sleeve 41 on the tube 45 thus securing the tube 45 in place.
- the channel member 52 is adapted to be forced into position by two tap screws 55 which pass through openings in the web of the channel member 52, through registering passages 56 in the cylinder block 21, and engage the threads of threaded holes 5'! in the motor frame l4.
- the tap screws 55 thus hold both the channel member 52 and the cylinder block 21 in place.
- the channel member 52 is made of relatively thin gauge material and is, therefore, slightly elastic. Thus, even though the bolts 55 are drawn down tightly, the force on the flange 64 of the tube BI and on the sleeve 41 of the tube 45 is resilient to permit of temperature expansion and contraction of the various elements.
- the tube 46 of the muffler element is open to the interior of the casing l0 and also communicating therewith is the inlet tube 5
- An extension 58 on the channel member or yoke 52 is provided with a slot 59 which engages the tube 45 of the mufiler element 43 and prevents the muffler element 43 from rotating on the sleeve 41. It will be observed that the vapor pressure in the inlet chamber 31 is substantially the same as that in the casing l0 so that there is little tendency for the joint between the tube 45 and the cylinder block 21 to leak.
- the channel member 52 also constitutes a holding element for a tube 6
- the edges 62 of the en trance of the duct 42 are undercut to form a projecting conical nipple 63.
- is provided with conical flanges 64 to flt the conical surfaces of the nipple 63 and are clamped thereon by the channel member 52.
- the channel member 52 has a hole with formed conical edges which engage the outer surfaces of the flanges 64 formed on the tube El and presses the flanges 64 against the nipple 63. This construction is best shown in Fig. 3.
- and the cylinder block 21 of the compressor do not require soldering or brazing so that the use of solder or brazing fluxes is avoided.
- is expanded and provided with a bead 61 spaced from the edge of the tube 6
- is passed through a hole 68 in the casing 30 and the edges of the tube 6
- a refrigerant conducting tube 59 leading to an evaporator (not shown) is inserted in the expanded portion of the tube 6
- the valve mechanism of the pump comprises a rigid valve plate 73, an upper flexible valve member 14, a lower flexible valve member 15, and a cylinder head 76. These various elements are shown in Figs. 6 to 9 in their natural sequence and are shown in an assembled position in Fig. 10.
- the cylinder head 16, the two flexible valve elements 14 and 15, and the valve plate 13 are each provided with six registering holes 7'! through which six tap screws 18 pass and engage with screw threaded holes (not shown) in the cylinder block 21 to hold the valve assemblage and the cylinder head 15 in place.
- the valve plate T3 and the two flexible valve members 14 and 15 are provided with holes 19 and 8
- the rigid plate I3 is further provided with two spaced openings 82 and 83 communicating with the cylinder chamber 39.
- the lower valve member '15 has an opening 84 registering with the opening 83 in the valve plate '13 and further has a flexible tongue 85 formed in the valve member 15 which closes the opening 82 of the valve plate 13.
- the upper flexible valve member 14 has a hole 86 commensurate with and registering with the hole 82 of the rigid valve plate 13 and has a flexible tongue 81 formed in the member T4 which closes the opening 83 of the valve plate 13.
- the edges of the openings 32 and B3 of the rigid valve plate l3 which contact the flexible tongues 85 and ill are undercut around the edges to concentrate the pressure of the tongues 85 and 8! on the edges of the holes 82 and 83.
- the cylinder head 16 is formed with two cavities 88 and 59, one of which communicates with the openings (9 and 85 in the upper flexible valve member and the other of which communicates with the hole 8
- the cylinder head it) also has an arcuate valve tongue stop 9
- the purpose of this arcuate valve tongue stop Si is to prevent the breaking of the flexible tongue 87.
- a refrigerant compressor comprising a cylinder block having a cylindrical bore, a piston in said bore, and a cylinder head 011 said block, said cylinder block having an opening therein communicating with said bore, a refrigerantconveying tube communicating with said opening, said tube having a circumferential enlargement adjacent the end which communicates with said opening, a holding member adapted to engage and force said circumferential enlargement against the cylinder block, and a screw passing through the holding member and through the cylinder block and engaging said frame for securing said cylinder block on said frame and said holding member on said cylinder block.
- a refrigerant compressor the combination of a motor, a frame theref r a pump supported on said frame, said pump including a cylinder block and a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a tube communicating with said opening, said tube having a flange, a holding member for engaging and forcing the flange of said tube against the cylinder block; and a screw engaging said holding member and said frame to secure said cylinder block on said frame and said holding member on said cylinder block.
- a refrigerant compressor according to claim 2 in which the holding member is slightly elastic to afford an elastic pressure on the flanges of the tube.
- a motor a frame therefor, a pump supported on said frame, said pump including acylinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston, an opening adjacent and communicating with said bore, a tongue and groove connection between the frame and said cylinder block, a tube communicating with said opening, said tube having a flange, a holding member for engaging and forcing the flange of said tube against the cylinder block, and a fastening means engaging said holding member and said frame to secure said cylinder block on said frame and said holding member on said cylinder block.
- a refrigerant compressor the combination of a motor, a frame therefor, a pump supported on said frame, said pump including a cylfinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a conical nipple formed on said cylinder block and communicating with said opening, a refrigerant-carrying tube communicating with said'nipple, said tube having a conical flange thereon, a yoke for pressing said conical flange against the conical nipple, and means for securing the yoke to the cylinder block and the cylinder block to the frame.
- a motor a frame therefor, a pump supported on said frame, said pump including-a cylinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, said opening having a conical edge portion, a tube communicating with said opening, said tube having a soft metal ring adjacent one end thereof, said ring lying adjacent the conical edge portion of said opening, a yoke having a conical opening engaging said ring, and means for forcing said yoke against said cylinder block to clamp said ring therebetween, said means also securing said cylinder block to said frame.
- a refrigerant compressor the combination of a motor, a frame therefor, a pump supported on said frame, said pump including a cylinder block, a cylinder head on said cylinder block, a gas-tight casing enclosing said motor and compressor, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a conical nipple formed on said cylinder block and communicating with said opening, a refrigerant-carrying tube communicating with said nipple, said tube having a conical flange thereon, a yoke for pressing said conical flange against the conical nipple, and means for securing the yoke to the cylinder block and the cylinder block to the frame.
- a refrigerant compressor the combination of a motor, a frame therefor, a pump supported on said frame, said pump including a cylinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a tube communicating with said opening, said tube having a flange, a
Description
Sept. 3, 1940.
C. F. NYSTROM REFRIGERAT ING APPARATUS Filed Jan. 51, 1939 2 Sheets-Sheet l I NVENTOR CARL I-'. NYSZ'ROM ATTORN Y Patented Sept. 3, 1940 UNiTED STATES PATENT QFFECE' REFRIGERATING APPARATUS Application January 31, 1939, Serial No. 253,725
8 Claims.
This invention relates to refrigerant compressors and more especially to a means for connecting the refrigerant carrying tubing to the compressor.
The former practice was to braze the tubing to the compressor. This method has the disadvantage that fluxes are required in the brazing operation. The fluxing material is difiicult to remove and unless completely removed tends to clog the flow restricting devices in the refrigerating system. This clogging is most noticeable in refrigerating systems embodying constantly open flow restricting devices such as capillary tubes or fixed orifices and especially in encased units where the refrigerant contacts both sides of the joint; The fluxing material may form the clogging material by itself or may combine with other compounds in the system to form the clogging material.
One object of this invention is, therefore, to provide a joint between the refrigerant compressor and refrigerant tubing which does not require soldering or brazing.
Another object is to provide a leak-proof joint between the refrigerant compressor and the refrigerant tubing which is readily assembled.
Another object is to provide a means for securing the refrigerant tubing on the refrigerant compressor which means also secures the refrigerant compressor to the casing of the motor which drives the compressor.
These and other objects are elfected by my invention as will be apparent from the following description and claims taken in accordance with the accompanying drawings, forming a part of this application, in which:
Fig. 1 is a vertical section of a motor-driven refrigerant compressor embodying the invention;
Fig. 2 is an end view of the compressor of Fig. 1, with the cover removed and a portion of the casing broken away;
Fig. 3 is a section on the line III-III of Fig. 1;
Fig. 4 is a section of the mufiler;
Fig. 5 is an elevation of a holding plate on the motor;
Fig. 6- is a plan view of the cylinder head with the attachment screws in place;
Fig. 7 is a plan view of the upper flexible valve member;
8 is a plan View of the rigid Valve plate;
Fig. 9 is a plan view of the lower flexible valve member; and,
Fig. 10 is a section on the line X-X of Fig. 1.
Referring now to the drawings for a detailed description of the invention, the reference numera1 It represents a casing comprising a cupshaped container H and a cover l2 welded at its edges to the edges of the container ii. A motor l3 comprising a frame it, a stator it, leads IS, a rotor IT, and a shaft I8, is pressed 5 into the cup-shaped container H and a plate I9 is secured to the motor frame l4 by screws 2!. The plate I9 is provided with a detent 22 which registers with a second detent 23 pressed into the side of the cup-shaped container I! to prevent 10 the motor frame 14 from moving in the container H. The leads It of the motor it pass through an opening 25 in the plate l9 and are connected to bushings 26 sealed in the container wall. These bushings 26 conduct the electric curl5 rent for the motor it through the wall of the container It.
A cylinder block 21 is secured by a tongue and groove element 28 and by other means, subsequently to be described, to the upper portion of the motor frame M. A piston 29, in the cylinder block 27, is actuated by a connecting rod 3| and a crank pin 32 on the motor shaft I8. A counterweight 33 is secured to an extension on the shaft 88 and is located oppositely to the crankpin 32. The lower portion of thecasing Hi contains lubricating oil, and the connecting rod 3! is provided with a scoop 3 5 which scoops up the oil in the casing and sprays it over the working elements of the unit. Portions of the oil thus sprayed are caught by an oil collector 35 secured to the plate l9 from which collector 35 the oil flows into' an oil hole 35 which delivers it to the bearing of the shaft It in the motor frame M. p
The cylinder block 21 contains a refrigerant inlet chamber 37, a muffler chamber 38, and a cylinder chamber 39, which chambers are parallel to one another. Two horizontal ducts M and 42 are provided in the cylinder block 21, one of which communicates with the bottom of the inlet chamber 37 and the other with the bottom of the muffler chamber 38.
A muffier element 43 communicates with the horizontal duct 4| and comprises a somewhat 45 spherically shaped shell 44 having an inlet tube 46 connected to one side thereof and an outlet tube 45 connected to the opposite side. The duct ll has a beveled opening 5! and the tube projects into the duct il of the cylinder block 21 and is 50 provided with a soft metal sleeve 4! having beveled edges 48 and 49, one of which edges lies adjacent the bevel 5| formed in the horizontal duct ii. A channel member or yoke 52 is provided with a hole 53 having a formed beveled edge lil 54 registering with the beveled edge 49 of the sleeve 41. The beveled edges 5| and 54 of the duct 4| and of the channel member 52 clamp and shrink the sleeve 41 on the tube 45 thus securing the tube 45 in place. The channel member 52 is adapted to be forced into position by two tap screws 55 which pass through openings in the web of the channel member 52, through registering passages 56 in the cylinder block 21, and engage the threads of threaded holes 5'! in the motor frame l4. The tap screws 55 thus hold both the channel member 52 and the cylinder block 21 in place. The channel member 52 is made of relatively thin gauge material and is, therefore, slightly elastic. Thus, even though the bolts 55 are drawn down tightly, the force on the flange 64 of the tube BI and on the sleeve 41 of the tube 45 is resilient to permit of temperature expansion and contraction of the various elements.
The tube 46 of the muffler element is open to the interior of the casing l0 and also communicating therewith is the inlet tube 5|], the opening of which is provided with a screen 60. An extension 58 on the channel member or yoke 52 is provided with a slot 59 which engages the tube 45 of the mufiler element 43 and prevents the muffler element 43 from rotating on the sleeve 41. It will be observed that the vapor pressure in the inlet chamber 31 is substantially the same as that in the casing l0 so that there is little tendency for the joint between the tube 45 and the cylinder block 21 to leak.
The channel member 52 also constitutes a holding element for a tube 6| which conducts the compressed refrigerant vapor from the mufiling chamber 38 in the cylinder block 21 to the exterior of the casing Ill. The edges 62 of the en trance of the duct 42 are undercut to form a projecting conical nipple 63. The end of the tube 6| is provided with conical flanges 64 to flt the conical surfaces of the nipple 63 and are clamped thereon by the channel member 52. The channel member 52 has a hole with formed conical edges which engage the outer surfaces of the flanges 64 formed on the tube El and presses the flanges 64 against the nipple 63. This construction is best shown in Fig. 3.
It will be noted that the connections between the tubes 45 and 6| and the cylinder block 21 of the compressor do not require soldering or brazing so that the use of solder or brazing fluxes is avoided.
The other end 65 of the tube 6| is expanded and provided with a bead 61 spaced from the edge of the tube 6|. The end portion of the tube 6| is passed through a hole 68 in the casing 30 and the edges of the tube 6| projecting through the hole 68 are crimped over to secure the end 65 of the tube 6| in the casing H]. A refrigerant conducting tube 59 leading to an evaporator (not shown) is inserted in the expanded portion of the tube 6| and is brazed thereto and to the casing H1.
The valve mechanism of the pump comprises a rigid valve plate 73, an upper flexible valve member 14, a lower flexible valve member 15, and a cylinder head 76. These various elements are shown in Figs. 6 to 9 in their natural sequence and are shown in an assembled position in Fig. 10. The cylinder head 16, the two flexible valve elements 14 and 15, and the valve plate 13 are each provided with six registering holes 7'! through which six tap screws 18 pass and engage with screw threaded holes (not shown) in the cylinder block 21 to hold the valve assemblage and the cylinder head 15 in place. The valve plate T3 and the two flexible valve members 14 and 15 are provided with holes 19 and 8| commensurate with and registering respectively with the upper ends of the inlet chamber 3'! and of the muffler chamber 38. The rigid plate I3 is further provided with two spaced openings 82 and 83 communicating with the cylinder chamber 39. The lower valve member '15 has an opening 84 registering with the opening 83 in the valve plate '13 and further has a flexible tongue 85 formed in the valve member 15 which closes the opening 82 of the valve plate 13. The upper flexible valve member 14 has a hole 86 commensurate with and registering with the hole 82 of the rigid valve plate 13 and has a flexible tongue 81 formed in the member T4 which closes the opening 83 of the valve plate 13. The edges of the openings 32 and B3 of the rigid valve plate l3 which contact the flexible tongues 85 and ill are undercut around the edges to concentrate the pressure of the tongues 85 and 8! on the edges of the holes 82 and 83.
The cylinder head 16 is formed with two cavities 88 and 59, one of which communicates with the openings (9 and 85 in the upper flexible valve member and the other of which communicates with the hole 8| and the tongue Bl in the upper valve member 14. The cylinder head it) also has an arcuate valve tongue stop 9| which overlies the flexible tongue 8i and restri ts the movement thereof. The purpose of this arcuate valve tongue stop Si is to prevent the breaking of the flexible tongue 87.
It will be apparent that on the downward stroke of the piston 29 a suction is effected above the piston 29 which draws down the flexible tongue 85 of the lower flexible member and permits refrigerant to be drawn through the muffler 43, through the inlet chamber 3? in the cylinder block 2'! and through the cavity 851 in the cylinder head 76. On the upward stroke of the piston 29, the flexible tongue closes and the refrigerant is forced out through the hole 83, the pressure of the refrigerant raising the flexible tongue 81 in the upper valve member 76 so that the refrigerant passes out through the cavity 89, through the holes 8|, through the mui'iling chamber 38 and through the tube 6|.
From the above description it will be apparent that I have provided connections in a hermetically sealed refrigerating unit between a pump element and two tubes, which connections do not require soldering or brazing. I have further provided a securing element which secures the tubes to the pump element and the pump element to the motor frame. It will also be apparent that the pump element and the tubes can be secured in place with a minimum of labor.
While I have shown my invention in but one form, it will be obvious to those skilled in the art that it is not so limited but is susceptible of various changes and modifications without departing from the spirit thereof, and I desire, therefore, that only such limitations shall be placed thereupon as are imposed by the prior art or as are specifically set forth in the appended claims.
What I claim is:
1. In a refrigerant compressor, the combination of a motor, a frame therefor, a pump supported by said frame, said pump comprising a cylinder block having a cylindrical bore, a piston in said bore, and a cylinder head 011 said block, said cylinder block having an opening therein communicating with said bore, a refrigerantconveying tube communicating with said opening, said tube having a circumferential enlargement adjacent the end which communicates with said opening, a holding member adapted to engage and force said circumferential enlargement against the cylinder block, and a screw passing through the holding member and through the cylinder block and engaging said frame for securing said cylinder block on said frame and said holding member on said cylinder block.
2. In a refrigerant compressor, the combination of a motor, a frame theref r a pump supported on said frame, said pump including a cylinder block and a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a tube communicating with said opening, said tube having a flange, a holding member for engaging and forcing the flange of said tube against the cylinder block; and a screw engaging said holding member and said frame to secure said cylinder block on said frame and said holding member on said cylinder block.
3. A refrigerant compressor according to claim 2 in which the holding member is slightly elastic to afford an elastic pressure on the flanges of the tube.
4. In a refrigerant compressor, the combination of a motor, a frame therefor, a pump supported on said frame, said pump including acylinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston, an opening adjacent and communicating with said bore, a tongue and groove connection between the frame and said cylinder block, a tube communicating with said opening, said tube having a flange, a holding member for engaging and forcing the flange of said tube against the cylinder block, and a fastening means engaging said holding member and said frame to secure said cylinder block on said frame and said holding member on said cylinder block.
5. In a refrigerant compressor, the combination of a motor, a frame therefor, a pump supported on said frame, said pump including a cylfinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a conical nipple formed on said cylinder block and communicating with said opening, a refrigerant-carrying tube communicating with said'nipple, said tube having a conical flange thereon, a yoke for pressing said conical flange against the conical nipple, and means for securing the yoke to the cylinder block and the cylinder block to the frame.
6. In a refrigerant compressor, the combination of a motor, a frame therefor, a pump supported on said frame, said pump including-a cylinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, said opening having a conical edge portion, a tube communicating with said opening, said tube having a soft metal ring adjacent one end thereof, said ring lying adjacent the conical edge portion of said opening, a yoke having a conical opening engaging said ring, and means for forcing said yoke against said cylinder block to clamp said ring therebetween, said means also securing said cylinder block to said frame.
7. In a refrigerant compressor, the combination of a motor, a frame therefor, a pump supported on said frame, said pump including a cylinder block, a cylinder head on said cylinder block, a gas-tight casing enclosing said motor and compressor, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a conical nipple formed on said cylinder block and communicating with said opening, a refrigerant-carrying tube communicating with said nipple, said tube having a conical flange thereon, a yoke for pressing said conical flange against the conical nipple, and means for securing the yoke to the cylinder block and the cylinder block to the frame.
8. In a refrigerant compressor, the combination of a motor, a frame therefor, a pump supported on said frame, said pump including a cylinder block, a cylinder head on said cylinder block, said cylinder block having a bore adapted to cooperate with a piston and an opening adjacent and communicating with said bore, a tube communicating with said opening, said tube having a flange, a
slightly elastic member engaging said flange, and
screws engaging said member at points remote from its engagement with said flange, whereby said member forces said flange against the cylinder block, said screws also engaging said motor frame to secure said cylinder block thereon.
CARL FREDERICK NYSTROM.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US253725A US2213325A (en) | 1939-01-31 | 1939-01-31 | Refrigerating apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US253725A US2213325A (en) | 1939-01-31 | 1939-01-31 | Refrigerating apparatus |
Publications (1)
Publication Number | Publication Date |
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US2213325A true US2213325A (en) | 1940-09-03 |
Family
ID=22961465
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US253725A Expired - Lifetime US2213325A (en) | 1939-01-31 | 1939-01-31 | Refrigerating apparatus |
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US (1) | US2213325A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4531894A (en) * | 1981-08-25 | 1985-07-30 | Matsushita Reika Co., Ltd. | Sealed type motor compressor |
US20080245094A1 (en) * | 2005-07-22 | 2008-10-09 | Timothy James Hamlet Orum | Refrigeration Compressor with Flexible Discharge Conduit |
-
1939
- 1939-01-31 US US253725A patent/US2213325A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4531894A (en) * | 1981-08-25 | 1985-07-30 | Matsushita Reika Co., Ltd. | Sealed type motor compressor |
US20080245094A1 (en) * | 2005-07-22 | 2008-10-09 | Timothy James Hamlet Orum | Refrigeration Compressor with Flexible Discharge Conduit |
US8678789B2 (en) * | 2005-07-22 | 2014-03-25 | Fisher & Paykel Appliances Limited | Refrigeration compressor with flexible discharge conduit |
US20140286803A1 (en) * | 2005-07-22 | 2014-09-25 | Fisher & Paykel Appliances Limited | Refrigeration compressor with flexible discharge conduit |
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