US3214935A - Ice flake making machine having a removable auger - Google Patents
Ice flake making machine having a removable auger Download PDFInfo
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- US3214935A US3214935A US254868A US25486863A US3214935A US 3214935 A US3214935 A US 3214935A US 254868 A US254868 A US 254868A US 25486863 A US25486863 A US 25486863A US 3214935 A US3214935 A US 3214935A
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- tube
- conveyor
- ice
- bearing
- auger
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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
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C1/00—Producing ice
- F25C1/12—Producing ice by freezing water on cooled surfaces, e.g. to form slabs
- F25C1/14—Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes
- F25C1/145—Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes from the inner walls of cooled bodies
- F25C1/147—Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes from the inner walls of cooled bodies by using augers
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- the bearing furthermore, remains sealed or isolated from the freezing chamber of the cylinder irrespective of whether the auger is in or out of the cylinder, so that in either event bearing lubricant is prevented from contaminating the freezing chamber and water from the freezing chambet is prevented from contaminating the bearing lubricant.
- FIG. 1 is a vertical partial sectional view of an ice making machine constructed in accordance with and embodying the present invention.
- FIGS. 2, 3, 4 and are fragmentary sectional views taken along lines 2-2, 33, 4-4 and 55 respectively of FIG. 1.
- A designates a machine for making ice which comprises a cylindrical tube 1 that forms the side wall of a vertically extending cylindrical freezing chamber 2. Surrounding the central portion of the tube 1 are evaporator coils 3 which extend over a substantial portion of the length of the tube 1 and terminate at inlet and outlet lines 4, 5 that are connected to a conventional refrigeration compressor and condensor (not shown). The tube 1 and its evaporator coils 3 are located within a heat insulating casing 6.
- the upper end of the tube 1 has a shoulder 7 for receiving a flanged tube-mounting ring 8, and the tubemounting ring 8 is brazed or soldered at 9 (FIG. 2) to 3,214,935 Patented Nov. 2, 1965 the tube 1.
- the mounting ring 8 is secured to a rigid plastic plate 10 byv a plurality of screw and nut assemblies 11. As seen in FIG. 1, the plate 10 may be secured to a support 13 in any suitable manner, as for instance by bolt and nut assemblies 12.
- the support 13 may form part of a base or stand upon which the entire machine A may be mounted.
- an auger or screw conveyor 14 which comprises a sleeve 15 having on its outer periphery a helical thread 16.
- the helical thread 16 extends above the top of the evaporator coils 3 and below the bottom thereof and is in close proximity to the interior surface of the tube 1.
- the auger may optionally have severalthreads 17 (three being shown) of smaller diameter than the thread 16 and of the same pitch as the thread 16 so as to forma multiple groove helical column of ice, and for purposes set forth in my co-pending application Serial No. 171,770, filed February 7, 1962, and to which reference may be had.
- the sleeve 15 has a longitudinal bore 18 for receiving a coaxial drive shaft 19 which extends axially upwardly therethrough.
- the drive shaft 19 is coupled to the driver of a power-driven conventional speed reducer 20.
- the drive shaft 19 and speed reducer 26 may be considered as one unit so that the drive shaft 19 constitutes the output shaft of the speed reducer 20.
- the speed reducer 20 also has an input shaft 21 which may be drivingly connected to an electric motor (not shown) either directly or through a belt and pulleys. As best. seen in FIG.
- the housing of the speed reducer 20 has a base flange 22 which has threaded holes 23, 23 for receiving screws 24, 24 which secure the speed reducer 20 to a plastic mounting plate 25 which, in turn, is secured to the plate 10 by bolt and nut assemblies 26, 26.
- the shaft 19 is suspended from the speed reducer by conventional means which includes a thrust bearing in the speed reducer for sustaining the pull of the shaft 19.
- the conveyor 14 is thus suspended from the speed reducer and extends downwardly therefrom into the tube 1.
- a downwardly opening cavity 23 Formed in the speed reducer housing is a downwardly opening cavity 23 that has a shoulder 30 for receiving a radial flange 32 that forms part of an upper bearing housing 34.
- the upper bearing housing 34 fits snugly, coaxially and removably within the upper end of the tube 1, and terminates in the tube 1 in a seat 36 that supports an upper bearing 38.
- This bearing 38 journals the drive shaft 19, centering same (and hence the auger 15) coaxially within the tube 1.
- a snap ring 40 is mounted in the upper bearing housing 34 and cooperates with the seat 36 to prevent axial displacement of the bearing 38.
- a felt Washer 42 interposed between the bearing 38 and the upper end of the auger sleeve 15 is a felt Washer 42.
- An umbrella type rubber-like seal 44 surrounds the drive shaft 19 and is disposed across the upper axial end 46 (FIG. 2) of the bearing housing 34, the maximum diameter of said seal 44 being greater than that of the upper end 46 so as to overhang same.
- the seal 44 prevents lubricant that may seep out of the speed reducer 20 along the drive shaft 19 from entering the tube 1 and contaminating the ice formed therein.
- the flange 32 seats against the extreme axial upper end 48 of the tube 1, leaving space 51) between the plates 10, 25. This insures that the upper bearing housing 34 is centered with respect to the tube 1 despite variations in the dimensions of the plate 10, 25.
- the bolt and nut assemblies 26 need only be tightened an amount suificient to hold the plates 10, 25 in assembled relationship.
- the drive shaft 19 is coupled to the sleeve 15 by a drive pin 52 that projects diametrally through the drive 3 shaft 19 and through slots 54, 54 at the bottom of the sleeve 15.
- the bottom of the sleeve is, furthermore, diametrally reduced for receiving snugly a cup-shaped ring 56 that retains the pin 52 in the slots 54, 54.
- a lower bearing housing 58 that receives a lower bearing 60 and maintains the bearing 60 centered in the tube 1.
- the bearing housing 58 and bearing 60 are secured to the tube 1 by upper and lower retaining collars 62, 64.
- the upper retaining collar 62 rests upon a snap ring 66 while the lower retaining collar 64 forms an axial abutment for the bearing 60, the other axial end of the bearing 60 abutting a shoulder 68 in the bearing housing 58.
- a cap 70 closes the bottom end of the tube 1.
- the bearing housing 58, hearing 60, collars 62, 64, and cap 70 are removably secured together and to the tube 1 by a plurality of nut and bolt assemblies 72.
- Frictionally fitted in and rotatable with the inner race 74 of the lower bearing 60 is a cylindrical socket-forming bearing sleeve 76 that coaxially, telescopically, and slidably receives the lower end of the drive shaft 19.
- a coil spring 78 is located within the sleeve 76 and is compressed by the lower end of the drive shaft 19 when the latter is mounted in the sleeve 19.
- the coil spring 78 has one end 79 thereof that fits in a diametrally extending slot 80 at the lower end of the drive shaft 19 so that the spring 78 will rotate with the drive shaft 19.
- the part of the bearing housing 60 that is within the tube 1 is formed with an external annular groove that receives a resilient O-ring 82 that provides a fluid tight seal between the bearing housing 58 and the inside wall of the tube 1 at the region of the O-ring 82. Also formed on the bearing housing 60 is an internal annular groove 84 that receives a U-cup resilient seal 86 that forms a fluid tight seal between the bearing housing 58 and the sleeve 76.
- a water pipe 88 through which water may be introduced into the tube 1, is located above the bearing housing 58.
- a constant water level is maintained in the freezing chamber 2 in a conventional manner, as by a flow control valve (not shown), that level being maintained slightly below the top of the coils 3.
- the bearing 60 may be packed with lubricant, and it is desirable that the water in the tube 1 be kept out of the bearing 60, and, similarly, it is desirable that the hearing lubricant be kept out of the freezing chamber 2 to avoid contamination of the ice.v This is accomplished by the two sealing members 82, 86.
- the tube 1 Adjacent to its upper end, the tube 1 is cut away to form an ice discharge opening 90 that opens into a discharge chute 92.
- a U-shaped sheet metal clamp 93 surrounds a portion of the tube 1 behind the discharge opening 90 and has flange 94, 95.
- Companion flanges 96, 97 are formed on the inner end of the discharge chute 92, and screws 98, 99 pass through the flanges 94, 95, 96, 97 to hold the discharge chute 92 onto the tube 1.
- the upper ends of the helical thread 16 terminates substantially at the upper edge of the discharge opening 90, and the downwardly and outwardly presented surface 100 on the upper end of the thread 16 constitutes a helical abutment/ When sleeve 15 rotates, the surface 100 will pass across the discharge opening 90.
- the bearing 60 and sleeve 76 (which in effect form part of the bearing 60) remain centered in the tube 1 to receive the drive shaft 19 when the auger is again reinserted into the tube 1
- the auger is first so reinserted, its initial rotation will cause the upper end of the spring 78 to shift into the slot to provide the driving connection between the shaft 19 and spring 78.
- An ice making machine comprising a tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor terminating at its lower end within the tube and having rotatable ice scraping means in the tube for removing ice from the inside surface of the tube and delivering said ice toward and discharge end, means for removably suspending the conveyor in assembled relationship with the tube in a manner to enable the conveyor to be withdrawn as a unit through the upper end of the tube, means for centering the conveyor in the tube; said conveyor-centering means including a bearing assembly having a socket-forming member closed at its lower end and being sized for axial and rotatable sliding engagement with the lower end of the conveyor; means for retaining the bearing assembly in place upon removal of the conveyor from the tube, and means between the lower end of the conveyor and the lower end of the socket-forming member for imposing pressure on each and establishing a driving connection between the two when the conveyor is in operative
- An ice making machine comprising a tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor terminating at its lower end in the tube and having rotatable ice scraping means in the tube for removing ice from the inside surface of the tube and delivering said ice toward said discharge end, means for removably mounting the conveyor in assembled relationship with the tube in a manner to enable the conveyor to be withdrawn through the upper end of the tube; said conveyor-centering means including a bearing assembly having a sleeve centered in the tube for axial and rotatable sliding engagement with the lower end of the conveyor, said sleeve having an end closure wall that is axially downwardly beyond the lower end of the conveyor, and a spring interposed between said closure wall and the lower end of the conveyor for inhibiting motion between the sleeve and the lower end of the conveyor during operation of the conveyor.
- An ice making machine comprising a tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor terminating at its lower end in the tube and having rotatable ice scraping means in the tube for removing ice from the inside surface of the tube and delivering said ice toward said discharge end, means for removably mounting the conveyor in assembled relationship with the tube in a manner to enable the conveyor to be withdrawn through the upper end of the tube, means including a bearing assembly at the lower end of the tube for centering the conveyor in the tube; said assembly including a housing, a bearing in the housing and having a sleeve coaxial with the conveyor for telescopic engagement with the lower end of the conveyor, a spring in the sleeve forming a driving connection between the conveyor and sleeve, means forming a closure for the lower end of the sleeve, and means in said housing forming a fluid seal with the
- An ice making machine comprising a straight tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor extending into the tube from the upper end thereof and terminating at its lower end within the tube and being removable as a unit through the upper end of the tube; said conveyor including a rotatable screw for scraping ice from the inside surface of the tube and delivering said ice toward said discharge end and means for rotating said screw; said last mentioned means extending outwardly of the upper end of the tube for operative connection to a source of power, upper and lower bearing means in the tube for centering the upper and lower ends of the rotatable parts of the conveyor, means removable with the conveyor for supporting the thrust of the conveyor when it is within the tube, means forming a connection between the upper bearing means and the conveyor for removing the upper bearing means with the conveyor, means for maintaining the lower bearing means centered in the tube when the conveyor is withdrawn therefrom, said lower heating means including a
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Description
Nov. 2, 1965 A. F. com-o 3,214,935
ICE FLAKE MAKING MACHINE HAVING A REMOVABLE AUGER Filed Jan. 30, 1963 2 Sheets-Sheet 1 INVENTOR.
F. Com'o Nov. 2, 1965 A. F. CONTO 3,214,935
ICE FLAKE MAKING MACHINE HAVING A REMOVABLE AUGER Filed Jan 30, 1963 2 Sheets-Sheet 2 1 2a 2 Y I 44 i ZZ'L 32 45 4A 23 23 I... 30 Z4 25 l I e INVENTOR. ARM -00 F. CM 0 70 ATTY.
United States Patent 3,214,935 ICE FLAKE MAKENG MACHINE HAWING A REMOVABLE AUGER Armando F. Conto, Chicago, IiL, assignor to Freez-King Corporation, Chicago, 111., a corporation of Iliinois Filed Jan. 30, 1963, Ser. No. 254,868 4 Claims. (Cl. 62-298) This invention relates generally to ice making, and more particularly to improvements in machines for making small pieces of ice suitable for use in drinks or the like.
There is known in the art machines for making ice by freezing water on the inside wall of a vertical cylinder and continuously scraping the ice from the inside, vertical wall thereof by a rotating auger within the cylinder. The rotating auger raises the ice within the cylinder and discharges the ice at the upper end of the cylinder.
It is an object of the present invention to provide an ice making machine of the type stated in which the upper and lower ends of the auger-conveyor are journalled to maintain the auger accurately centered in the cylinder, thereby insuring its proper operation and reducing the possibility of damage to the auger or cylinder; and wherein the auger is quickly and easily removable as a unit through the upper end of the cylinder as, for instance, for purposes of cleaning, replacement, or repair.
It is a further object of the present invention to provide an ice making machine of the type stated in which the lower bearing remains fixed and centered within the cylinder when the anger is withdrawn therefrom. The bearing, furthermore, remains sealed or isolated from the freezing chamber of the cylinder irrespective of whether the auger is in or out of the cylinder, so that in either event bearing lubricant is prevented from contaminating the freezing chamber and water from the freezing chambet is prevented from contaminating the bearing lubricant.
It is another object of the present invention to provide a machine of the type stated in which the auger is driven from above the cylinder through a transmission, and wherein a seal is provided for the upper bearing to prevent lubricant that may seep out of the transmission from fiowing into the bearing or through the bearing and into the freezing chamber of the cylinder.
The attainment of the above and further objects of the present invention will be apparent from the following specification taken in conjunction with the accompanying drawing forming a part thereof.
In the drawing wherein like reference characters indicate like parts throughout:
FIG. 1 is a vertical partial sectional view of an ice making machine constructed in accordance with and embodying the present invention; and
FIGS. 2, 3, 4 and are fragmentary sectional views taken along lines 2-2, 33, 4-4 and 55 respectively of FIG. 1.
Referring now in more detail and by reference characters to the drawing, which illustrates a preferred embodiment of the present invention, A designates a machine for making ice which comprises a cylindrical tube 1 that forms the side wall of a vertically extending cylindrical freezing chamber 2. Surrounding the central portion of the tube 1 are evaporator coils 3 which extend over a substantial portion of the length of the tube 1 and terminate at inlet and outlet lines 4, 5 that are connected to a conventional refrigeration compressor and condensor (not shown). The tube 1 and its evaporator coils 3 are located within a heat insulating casing 6.
The upper end of the tube 1 has a shoulder 7 for receiving a flanged tube-mounting ring 8, and the tubemounting ring 8 is brazed or soldered at 9 (FIG. 2) to 3,214,935 Patented Nov. 2, 1965 the tube 1. The mounting ring 8 is secured to a rigid plastic plate 10 byv a plurality of screw and nut assemblies 11. As seen in FIG. 1, the plate 10 may be secured to a support 13 in any suitable manner, as for instance by bolt and nut assemblies 12. The support 13 may form part of a base or stand upon which the entire machine A may be mounted.
Rotatably mounted within the tube 1 and coaxial therewith is an auger or screw conveyor 14 which comprises a sleeve 15 having on its outer periphery a helical thread 16. The helical thread 16 extends above the top of the evaporator coils 3 and below the bottom thereof and is in close proximity to the interior surface of the tube 1. If desired, the auger may optionally have severalthreads 17 (three being shown) of smaller diameter than the thread 16 and of the same pitch as the thread 16 so as to forma multiple groove helical column of ice, and for purposes set forth in my co-pending application Serial No. 171,770, filed February 7, 1962, and to which reference may be had.
The sleeve 15 has a longitudinal bore 18 for receiving a coaxial drive shaft 19 which extends axially upwardly therethrough. The drive shaft 19 is coupled to the driver of a power-driven conventional speed reducer 20. In accordance with the preferred form of the inven: tion, the drive shaft 19 and speed reducer 26 may be considered as one unit so that the drive shaft 19 constitutes the output shaft of the speed reducer 20. The speed reducer 20 also has an input shaft 21 which may be drivingly connected to an electric motor (not shown) either directly or through a belt and pulleys. As best. seen in FIG. 2, the housing of the speed reducer 20 has a base flange 22 which has threaded holes 23, 23 for receiving screws 24, 24 which secure the speed reducer 20 to a plastic mounting plate 25 which, in turn, is secured to the plate 10 by bolt and nut assemblies 26, 26. The shaft 19 is suspended from the speed reducer by conventional means which includes a thrust bearing in the speed reducer for sustaining the pull of the shaft 19. The conveyor 14 is thus suspended from the speed reducer and extends downwardly therefrom into the tube 1.
Formed in the speed reducer housing is a downwardly opening cavity 23 that has a shoulder 30 for receiving a radial flange 32 that forms part of an upper bearing housing 34. The upper bearing housing 34 fits snugly, coaxially and removably within the upper end of the tube 1, and terminates in the tube 1 in a seat 36 that supports an upper bearing 38. This bearing 38 journals the drive shaft 19, centering same (and hence the auger 15) coaxially within the tube 1. A snap ring 40 is mounted in the upper bearing housing 34 and cooperates with the seat 36 to prevent axial displacement of the bearing 38. interposed between the bearing 38 and the upper end of the auger sleeve 15 is a felt Washer 42. An umbrella type rubber-like seal 44 surrounds the drive shaft 19 and is disposed across the upper axial end 46 (FIG. 2) of the bearing housing 34, the maximum diameter of said seal 44 being greater than that of the upper end 46 so as to overhang same. The seal 44 prevents lubricant that may seep out of the speed reducer 20 along the drive shaft 19 from entering the tube 1 and contaminating the ice formed therein.
It will be noted that the flange 32 seats against the extreme axial upper end 48 of the tube 1, leaving space 51) between the plates 10, 25. This insures that the upper bearing housing 34 is centered with respect to the tube 1 despite variations in the dimensions of the plate 10, 25. The bolt and nut assemblies 26 need only be tightened an amount suificient to hold the plates 10, 25 in assembled relationship.
The drive shaft 19 is coupled to the sleeve 15 by a drive pin 52 that projects diametrally through the drive 3 shaft 19 and through slots 54, 54 at the bottom of the sleeve 15. The bottom of the sleeve is, furthermore, diametrally reduced for receiving snugly a cup-shaped ring 56 that retains the pin 52 in the slots 54, 54.
Mounted at the bottom of the tube 1 is a lower bearing housing 58 that receives a lower bearing 60 and maintains the bearing 60 centered in the tube 1. The bearing housing 58 and bearing 60 are secured to the tube 1 by upper and lower retaining collars 62, 64. The upper retaining collar 62 rests upon a snap ring 66 while the lower retaining collar 64 forms an axial abutment for the bearing 60, the other axial end of the bearing 60 abutting a shoulder 68 in the bearing housing 58. A cap 70 closes the bottom end of the tube 1. The bearing housing 58, hearing 60, collars 62, 64, and cap 70 are removably secured together and to the tube 1 by a plurality of nut and bolt assemblies 72.
Frictionally fitted in and rotatable with the inner race 74 of the lower bearing 60 is a cylindrical socket-forming bearing sleeve 76 that coaxially, telescopically, and slidably receives the lower end of the drive shaft 19. A coil spring 78 is located within the sleeve 76 and is compressed by the lower end of the drive shaft 19 when the latter is mounted in the sleeve 19. The coil spring 78 has one end 79 thereof that fits in a diametrally extending slot 80 at the lower end of the drive shaft 19 so that the spring 78 will rotate with the drive shaft 19. Since the compressed spring 78 exerts pressure upon the bottom of the sleeve 76, the driving force of the shaft 19 will be transmitted through the spring 78 to the sleeve 76, rotating the inner race 74 of the bearing 60. Thus, the lower bearing 60 journals the shaft 19 and maintains it centered within the tube 1.
The part of the bearing housing 60 that is within the tube 1 is formed with an external annular groove that receives a resilient O-ring 82 that provides a fluid tight seal between the bearing housing 58 and the inside wall of the tube 1 at the region of the O-ring 82. Also formed on the bearing housing 60 is an internal annular groove 84 that receives a U-cup resilient seal 86 that forms a fluid tight seal between the bearing housing 58 and the sleeve 76.
A water pipe 88, through which water may be introduced into the tube 1, is located above the bearing housing 58. A constant water level is maintained in the freezing chamber 2 in a conventional manner, as by a flow control valve (not shown), that level being maintained slightly below the top of the coils 3.
The bearing 60 may be packed with lubricant, and it is desirable that the water in the tube 1 be kept out of the bearing 60, and, similarly, it is desirable that the hearing lubricant be kept out of the freezing chamber 2 to avoid contamination of the ice.v This is accomplished by the two sealing members 82, 86.
Adjacent to its upper end, the tube 1 is cut away to form an ice discharge opening 90 that opens into a discharge chute 92. As best seen in FIG. 3, a U-shaped sheet metal clamp 93 surrounds a portion of the tube 1 behind the discharge opening 90 and has flange 94, 95. Companion flanges 96, 97 are formed on the inner end of the discharge chute 92, and screws 98, 99 pass through the flanges 94, 95, 96, 97 to hold the discharge chute 92 onto the tube 1.
The upper ends of the helical thread 16 terminates substantially at the upper edge of the discharge opening 90, and the downwardly and outwardly presented surface 100 on the upper end of the thread 16 constitutes a helical abutment/ When sleeve 15 rotates, the surface 100 will pass across the discharge opening 90.
When the machine is in use, Water in the freezing chamber 2 freezes against the inside surface of the cylinder 1. The input shaft 21 operates through the speed reducer to drive the shaft 19 which, in turn, rotates the screw thread 16 to scrape ice from the tube wall and convey it as a column of ice upwardly toward the discharge opening 90. The column of ice is continuously broken into smaller particles as it reaches any obstruction or its upper limit of travel, and is discharged into the chute 92 through the opening 90. It will be under.- stood that the chute 92 conveys the ice to a suitable storage bin. The helical threads 17, if provided on the auger sleeve 15, will assist in raising the colum of ice upwardly toward the discharge opening 90.
It will also be noted from FIGS. 1 and 2 that the threads 16, 17 terminate below the extreme upper end of the auger 15, thus leaving, above the ends of the threads and below the extreme upper end of the auger 15, a cylindrical section 101 that is free of threads but is closely spaced from the inside wall of the tube cylinder 1. Therefore, during operation of the auger 15, the ice is prevented from reaching and exerting pressure on the washer 42 or housing 34. This prevents the formation of forces due to the ice at the upper end of the auger from tending to lift the conveyor 14 out of the tube 1. Likewise, the possibility of water entering the bearing 38 is reduced.
When it is necessary to clean the interior of the tube 1 or repair the auger-conveyor 14, it is a relatively simple matter to disassemble the bolt and nut assemblies 26, 26, whereupon the speed reducer 20, the plate 25, together with the drive shaft 19 and all parts mounted thereon, including the auger 14, bearing 38, and housing 34, may be lifted upwardly and bodily removed as a unit from the inside of the tube 1. The tube 1, together with the evaporator coils 3, and insulation 6, remain mounted on the support plate 19.
When the auger is removed from the tube 1, as aforesaid, the lower end of the drive shaft 19 will be retracted from the sleeve 76 allowing the spring 78 to expand. However, the sleeve 76, hearing 60, housing 58, and seals 82, 86 will remain in place. Therefore, irrespective of whether or not the auger 14 is in or out of the tube 1, seals 82, 86 prevent water from entering the bearing 60 and likewise prevent lubricant or other foreign matter around the bearing 60 from entering the freezing chamber 2. Furthermore, the bearing 60 and sleeve 76 (which in effect form part of the bearing 60) remain centered in the tube 1 to receive the drive shaft 19 when the auger is again reinserted into the tube 1 When the auger is first so reinserted, its initial rotation will cause the upper end of the spring 78 to shift into the slot to provide the driving connection between the shaft 19 and spring 78.
Should disassembly of the bearing 60, housing 58, and associated parts he required, the screws 72 may be removed for that purpose.
In compliance with the requirements of the patent statutes I have herein shown and described a preferred embodiment of the invention. It is, however, to be understood that the invention is not limited to the precise construction herein shown, the same being merely illustrative of the principles of the invention.
What is considered new and sought to be secured by Letters Patent is:
1. An ice making machine comprising a tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor terminating at its lower end within the tube and having rotatable ice scraping means in the tube for removing ice from the inside surface of the tube and delivering said ice toward and discharge end, means for removably suspending the conveyor in assembled relationship with the tube in a manner to enable the conveyor to be withdrawn as a unit through the upper end of the tube, means for centering the conveyor in the tube; said conveyor-centering means including a bearing assembly having a socket-forming member closed at its lower end and being sized for axial and rotatable sliding engagement with the lower end of the conveyor; means for retaining the bearing assembly in place upon removal of the conveyor from the tube, and means between the lower end of the conveyor and the lower end of the socket-forming member for imposing pressure on each and establishing a driving connection between the two when the conveyor is in operative position within the tube.
2. An ice making machine comprising a tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor terminating at its lower end in the tube and having rotatable ice scraping means in the tube for removing ice from the inside surface of the tube and delivering said ice toward said discharge end, means for removably mounting the conveyor in assembled relationship with the tube in a manner to enable the conveyor to be withdrawn through the upper end of the tube; said conveyor-centering means including a bearing assembly having a sleeve centered in the tube for axial and rotatable sliding engagement with the lower end of the conveyor, said sleeve having an end closure wall that is axially downwardly beyond the lower end of the conveyor, and a spring interposed between said closure wall and the lower end of the conveyor for inhibiting motion between the sleeve and the lower end of the conveyor during operation of the conveyor.
3. An ice making machine comprising a tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor terminating at its lower end in the tube and having rotatable ice scraping means in the tube for removing ice from the inside surface of the tube and delivering said ice toward said discharge end, means for removably mounting the conveyor in assembled relationship with the tube in a manner to enable the conveyor to be withdrawn through the upper end of the tube, means including a bearing assembly at the lower end of the tube for centering the conveyor in the tube; said assembly including a housing, a bearing in the housing and having a sleeve coaxial with the conveyor for telescopic engagement with the lower end of the conveyor, a spring in the sleeve forming a driving connection between the conveyor and sleeve, means forming a closure for the lower end of the sleeve, and means in said housing forming a fluid seal with the tube and with the sleeve; and means for retaining the bearing assembly in place when the conveyor is withdrawn from the tube.
4. An ice making machine comprising a straight tube having an upper discharge end and a lower end, means forming a water supply inlet to the interior of the tube, refrigeration means surrounding the tube for freezing water inside of the tube, a conveyor extending into the tube from the upper end thereof and terminating at its lower end within the tube and being removable as a unit through the upper end of the tube; said conveyor including a rotatable screw for scraping ice from the inside surface of the tube and delivering said ice toward said discharge end and means for rotating said screw; said last mentioned means extending outwardly of the upper end of the tube for operative connection to a source of power, upper and lower bearing means in the tube for centering the upper and lower ends of the rotatable parts of the conveyor, means removable with the conveyor for supporting the thrust of the conveyor when it is within the tube, means forming a connection between the upper bearing means and the conveyor for removing the upper bearing means with the conveyor, means for maintaining the lower bearing means centered in the tube when the conveyor is withdrawn therefrom, said lower heating means including a sleeve that receives the lower end of the conveyor, the lower bearing means also having a housing that telescopes with the tube, and sealing means in the housing for providing a fluid-seal between the housing and the tube and between the housing and the sleeve.
References Cited by the Examiner UNITED STATES PATENTS 1,576,137 3/26 Johnson.
2,101,013 11/37 Leister et a1. 308187.1 2,620,243 12/52 Beatty 308-1872 3,034,317 5/62 Schneider et al. 62354 3,068,051 12/62 Koch 308l87.1 3,101,598 8/63 Ross 62354 3,126,719 3/64 Swatsick 62320 ROBERT A. OLEARY, Primary Examiner.
UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No" 5,214,935 November 196E Armando Fr Conto pears in the above numbered pat- It is hereby certified that error ap id Letters Patent should read as ent requiring correction and that the sa corrected below.
Column 4, l1ne 63, for "and", second occurrence, read said ""1 Signed and sealed this 19th day oi July 1966" (SEAL) Attest:
EDWARD J. BRENNE Attesting Officer
Claims (1)
1. AN ICE MAKING MACHINE COMPRISING A TUBE HAVING AN UPPER DISCHARGE END AND A LOWER END, MEANS FORMING A WATER SUPPLY INLET TO THE INTERIOR OF THE TUBE, REFRIGERATION MEANS SURROUNDING THE TUBE FOR FREEZING WATER INSIDE OF THE TUBE, A CONVEYOR TERMINATING AT ITS LOWER END WITHIN THE TUBE AND HAVING ROTATABLE ICE SCRAPING MEANS IN THE TUBE FOR REMOVING ICE FROM THE INSIDE SURFACE OF THE TUBE AND DELIVERING SAID ICE TOWARD AND DISCHARGE END, MEANS FOR REMOVABLY SUSPENDING THE CONVEYOR IN ASSEMBLED RELATIONSHIP WITH THE TUBE IN A MANNER TO ENABLE THE CONVEYOR TO BE WITHDRAWN AS A UNIT THROUGH THE UPPER END OF THE TUBE, MEANS FOR CENTERING THE CONVEYOR IN THE TUBE; SAID CONVEYOR-CENTERING MEANS INCLUDING A BEARING ASSEMBLY HAVING A SOCKET-FORMING MEMBER CLOSED AT ITS LOWER END AND BEING SIZED FOR AXIAL AND ROTATABLE SLIDING ENGAGEMENT WITH THE LOWER END OF THE CONVEYOR; MEANS FOR RETAINING THE BEARING ASSEMBLY IN PLACE UPON REMOVAL OF THE CONVEYOR FROM THE TUBE, AND MEANS BETWEEN THE LOWER END OF THE CONVEYOR AND THE LOWER END OF THE SOCKET-FORMING MEMBER FOR IMPOSING PRESSURE ON EACH AND ESTABLISHING A DRIVING CONNECTION BETWEEN THE TWO WHEN THE CONVEYOR IS IN OPERATIVE POSITION WITHIN THE TUBE.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US254868A US3214935A (en) | 1963-01-30 | 1963-01-30 | Ice flake making machine having a removable auger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US254868A US3214935A (en) | 1963-01-30 | 1963-01-30 | Ice flake making machine having a removable auger |
Publications (1)
Publication Number | Publication Date |
---|---|
US3214935A true US3214935A (en) | 1965-11-02 |
Family
ID=22965898
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US254868A Expired - Lifetime US3214935A (en) | 1963-01-30 | 1963-01-30 | Ice flake making machine having a removable auger |
Country Status (1)
Country | Link |
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US (1) | US3214935A (en) |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4048815A (en) * | 1974-08-30 | 1977-09-20 | Theodore Kattis | Flake ice maker |
US20180164018A1 (en) * | 2016-12-13 | 2018-06-14 | Samsung Electronics Co., Ltd | Refrigerator and method of manufacturing auger for the refrigerator |
US10222110B2 (en) | 2016-02-17 | 2019-03-05 | Haier Us Appliance Solutions, Inc. | Ice maker with a radial and thrust bearing |
US10228176B2 (en) | 2016-02-17 | 2019-03-12 | Haier Us Appliance Solutions, Inc. | Ice maker with a threaded connection between a motor shaft and an auger |
US10386106B2 (en) | 2016-02-17 | 2019-08-20 | Haier Us Appliance Solutions, Inc. | Ice maker with a radial and thrust bearing |
US20200309439A1 (en) * | 2017-10-23 | 2020-10-01 | NanoICE, Inc. | Gel-ice generators and related systems |
EP3728968A4 (en) * | 2018-01-25 | 2021-01-20 | Qingdao Haier Refrigerator Co., Ltd. | Refrigerator appliance and ice maker apparatus |
US11123936B2 (en) | 2015-12-16 | 2021-09-21 | Cytec Industries Inc. | Resin infusion process for manufacturing fiber-reinforced composites |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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US1576137A (en) * | 1921-09-19 | 1926-03-09 | Maxwell O Johnson | Apparatus for concentrating soulutions |
US2101013A (en) * | 1934-10-04 | 1937-11-30 | Fafnir Bearing Co | Bearing seal |
US2620243A (en) * | 1950-05-20 | 1952-12-02 | Manor Die Cast Corp | Antifriction bearing assembly |
US3034317A (en) * | 1959-02-18 | 1962-05-15 | Ross Temp Inc | Apparatus for making flake ice |
US3068051A (en) * | 1960-08-08 | 1962-12-11 | Koch Franz | Bearings for rollers in troughs or tanks containing liquid |
US3101598A (en) * | 1959-06-24 | 1963-08-27 | Anthony J Ross | Method and apparatus for freezing liquids |
US3126719A (en) * | 1964-03-31 | swatsick |
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1963
- 1963-01-30 US US254868A patent/US3214935A/en not_active Expired - Lifetime
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3126719A (en) * | 1964-03-31 | swatsick | ||
US1576137A (en) * | 1921-09-19 | 1926-03-09 | Maxwell O Johnson | Apparatus for concentrating soulutions |
US2101013A (en) * | 1934-10-04 | 1937-11-30 | Fafnir Bearing Co | Bearing seal |
US2620243A (en) * | 1950-05-20 | 1952-12-02 | Manor Die Cast Corp | Antifriction bearing assembly |
US3034317A (en) * | 1959-02-18 | 1962-05-15 | Ross Temp Inc | Apparatus for making flake ice |
US3101598A (en) * | 1959-06-24 | 1963-08-27 | Anthony J Ross | Method and apparatus for freezing liquids |
US3068051A (en) * | 1960-08-08 | 1962-12-11 | Koch Franz | Bearings for rollers in troughs or tanks containing liquid |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4048815A (en) * | 1974-08-30 | 1977-09-20 | Theodore Kattis | Flake ice maker |
US11123936B2 (en) | 2015-12-16 | 2021-09-21 | Cytec Industries Inc. | Resin infusion process for manufacturing fiber-reinforced composites |
US10222110B2 (en) | 2016-02-17 | 2019-03-05 | Haier Us Appliance Solutions, Inc. | Ice maker with a radial and thrust bearing |
US10228176B2 (en) | 2016-02-17 | 2019-03-12 | Haier Us Appliance Solutions, Inc. | Ice maker with a threaded connection between a motor shaft and an auger |
US10386106B2 (en) | 2016-02-17 | 2019-08-20 | Haier Us Appliance Solutions, Inc. | Ice maker with a radial and thrust bearing |
US20180164018A1 (en) * | 2016-12-13 | 2018-06-14 | Samsung Electronics Co., Ltd | Refrigerator and method of manufacturing auger for the refrigerator |
US11073321B2 (en) * | 2016-12-13 | 2021-07-27 | Samsung Electronics Co., Ltd. | Refrigerator and method of manufacturing auger for the refrigerator |
US20200309439A1 (en) * | 2017-10-23 | 2020-10-01 | NanoICE, Inc. | Gel-ice generators and related systems |
EP3728968A4 (en) * | 2018-01-25 | 2021-01-20 | Qingdao Haier Refrigerator Co., Ltd. | Refrigerator appliance and ice maker apparatus |
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