US20190170426A1 - Reduced size refrigeration unit with increased storage area - Google Patents
Reduced size refrigeration unit with increased storage area Download PDFInfo
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- US20190170426A1 US20190170426A1 US16/201,617 US201816201617A US2019170426A1 US 20190170426 A1 US20190170426 A1 US 20190170426A1 US 201816201617 A US201816201617 A US 201816201617A US 2019170426 A1 US2019170426 A1 US 2019170426A1
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- exterior
- interior
- refrigeration unit
- lining
- exterior surface
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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
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/006—General constructional features for mounting refrigerating machinery components
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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
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/06—Walls
- F25D23/062—Walls defining a cabinet
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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
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D23/00—General constructional features
- F25D23/06—Walls
- F25D23/065—Details
- F25D23/066—Liners
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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
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2400/00—General features of, or devices for refrigerators, cold rooms, ice-boxes, or for cooling or freezing apparatus not covered by any other subclass
- F25D2400/08—Refrigerator tables
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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
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2500/00—Problems to be solved
- F25D2500/02—Geometry problems
Definitions
- the present invention is directed to a refrigeration unit, in particular, refrigeration units that are sized to be used in smaller areas and/or can be supported on table tops and the like.
- refrigeration units are in general well known, they can have a wide variety of storage plans within the interior. It is a preferable attribute of most, if not all, refrigeration units that the storage volume is increased so as to contain as many products, such as food, as needed by a user.
- FIG. 1 shows a perspective view of a typical refrigeration unit 100 that is of a smaller size, such as a height of approximately 33.25 inches, width of approximately 23.5 inches, and a depth of approximately 23.0 inches.
- the refrigeration unit 100 has a door 102 that is attached via a hinge 104 to a main storage housing 106 as shown in FIGS. 1-2 .
- the main storage housing 106 can be thought of as being a shell that has an interior lining 108 and an exterior housing or lining 110 .
- the interior lining 108 can support various types of shelves that support items to be contained within the refrigeration unit 100 .
- FIGS. 1-3 the interior lining 108 can support various types of shelves that support items to be contained within the refrigeration unit 100 .
- the exterior lining 110 there are sides of the exterior lining 110 that face the ambient atmosphere and define left and right vertical side walls 111 , 113 , a rear vertical wall 115 , and a top wall 117 that are integral with one another. There is a space between the interior lining 108 and the exterior lining 110 that contains heat transfer coils and insulation (not shown).
- several refrigeration components such as a compressor and condenser coils, are positioned in a space 112 that is so sized that it lessens the amount of overall space to hold items for refrigeration as shown in FIG. 3 .
- front will regard the side of the refrigeration unit at which the door is present when in the closed position on the refrigeration unit.
- Rear denotes the side of the refrigeration unit opposite the front side or the door when the door is in the closed position.
- Left denotes the side of the refrigeration unit that is to the left when viewing the exterior of the door when it is in the closed position.
- Light denotes the side of the refrigeration unit that is opposite to the left side.
- Bottom denotes the side of the refrigeration unit towards which the gravitational field generated by the Earth flows substantially perpendicular to the side and is the side located nearest the center of the Earth.
- Top denotes the side of the refrigeration unit that is opposite to the bottom side.
- FIGS. 1-4 a rectangular bottom base 114 is shown that is attached to the bottom of the exterior lining 110 of the refrigeration unit 100 .
- the base 114 has a thickness of approximately 0.0516 inches, a width, W, of approximately 23.5 inches, and a depth, D, of approximately 23.0 inches.
- the base 114 is made of a durable material, such as steel. Extending vertically with respect to the edges of the base 114 are integrally attached rectangular-like brackets 116 .
- a number of refrigeration components are positioned.
- a compressor 118 is attached to the base 114 by four tabs 120 with retaining pins (two shown) that extend through openings of corresponding support pads 122 integrally formed with the compressor 118 .
- a possible process for attachment of a support pad 122 of the compressor 118 to the base 114 is shown in FIGS. 5A-C .
- each support pad 122 is integrally formed with and extends away from a lower portion of a tank 124 of the compressor 118 .
- Each support pad 122 has a grommet 123 which passes through an outer opening of the support pad 122 and is attached to the support pad 122 .
- a portion of the grommet 123 When attached, a portion of the grommet 123 is positioned above the opening and a portion is positioned below the opening as shown in FIG. 5A . As shown in FIG. 5A , openings of the support pad 122 and grommet 123 are positioned over a vertical portion 125 of an L-shaped tab 120 that has a planar foot 127 integrally attached to the base 114 . Next, the support pad 122 and grommet 123 are lowered until a section of vertical portion 125 extends through the openings of the grommet 123 and the support pad 122 as shown in FIG. 5B .
- a washer 129 is placed on the top surface of the grommet 123 so that the vertical portion 125 extends through the opening of the washer 129 as shown in FIG. 5B .
- a portion of retaining pin 131 is inserted through an opening 133 formed in the vertical portion 125 and another portion of the retaining pin 131 clampingly engages the vertical portion 125 ,
- the tank 124 of the compressor 118 receives/stores a pressurized refrigerant.
- the refrigerant is pressurized to such an extent that it turns into a hot gas.
- the hot gas is expelled from the tank 124 and sent via a conduit 142 , 143 to a condenser in the form of a condenser coil 130 (arrows in FIG. 4 denote flow of refrigerant).
- the condenser coil 130 is formed from a tube.
- the hot gas travels through conduit 142 to heat transfer coils (not shown) positioned between the interior lining 108 and the exterior lining 110 of the main storage housing 106 .
- the heat transfer coils are placed against the wall of the interior lining 108 so that they receive heat from the interior of the refrigeration unit 100 that is adjacent to the interior lining 108 . Note that the portion of the conduit within the refrigeration unit 100 is partially surrounded by insulation.
- the gas cools to such an extent that the gas has a temperature that is less than the temperature within the interior of the refrigeration unit 100 . Accordingly, heat will flow from the interior of the refrigeration unit 100 to the gas within the heat transfer coils. Such heated gas then flows through conduit 143 and on to condenser coil 130 , as shown in FIG. 4 .
- the maximum height of the compressor 118 as measured in a vertical direction, V, from the bottom base 114 to a top portion of the refrigeration unit 100 is 7.0 inches.
- the compressor 118 is positioned at the right side and rear portion of the bottom base 114 .
- the condenser coil 130 forms a serpentine pattern with three columns and eight rows of elongated, Q-shaped portions of the coil 130 .
- Horizontal wires 132 (592 in number) are attached/fused to each of the portions as shown in FIG. 4 in a well-known manner, such as welding.
- the condenser coil 130 is attached to the bottom base 114 by screws (not shown).
- brackets 134 are attached to a bracket 116 and are attached to the coil 130 by being welded/fused thereto. Note that the wires 132 and the wall 138 described later act as an air deflector.
- a U-shaped bracket 136 is attached to the top surface of the base 114 , but is not attached to the coil 130 .
- the bracket 136 defines a drain cup in a well-known manner and has a height of approximately 3.25 inches.
- the drain cup collects moisture/water generated during a defrost cycle of the refrigeration unit 100 , wherein the collected moisture/water is dissipated to the ambient atmosphere. Since the collected moisture/water is in direct contact with the base 114 , the dissipation of the moisture/water aids in carrying away heat from the base 114 .
- the maximum height of the condenser coil 130 as measured in the vertical direction V is 7.25 inches.
- the condenser coil 130 forms a rectangular-like footprint on the bottom base 114 that has a width of approximately 20.5 inches and a depth of approximately 18.0 inches. As shown in FIG. 4 , the condenser coil 130 is positioned at the left side and rear portion of the bottom base 114 .
- a metal wall 138 Positioned between the compressor 118 and the condenser coil 130 is a metal wall 138 that is attached to the bottom base 114 and rises vertically from the bottom base 114 .
- the wall 138 has a vertical height, as measured in the vertical direction V, of approximately 7.5 inches. Not shown is that the wall 138 has an opening with a fan positioned within the opening and approximately centered on the condenser coil 130 .
- the bottom portion 139 of the exterior lining 110 has a z-type shape, a bottom portion 141 of the interior lining 108 is parallel to and is spaced from the bottom portion 139 of the exterior lining 110 by approximately 2.25 inches.
- the upper level 143 of the bottom portion 139 runs parallel to the base 114 and is positioned approximately 9.85 inches above the base 114 so that there is a clearance of approximately 3.00 inches from the top of the tank 124 to the upper level 143 .
- the lower level 145 of the bottom portion 139 is offset below the upper level 143 by approximately 2.0 inches.
- the base 114 is attached to the bottom portion 139 by vertical walls that are attached to the base 114 and the bottom portion 139 , wherein such vertical walls form/define a skirt 147 below the main storage housing 106 .
- the skirt 147 hides the refrigeration components on the base 114 from view and allows for access to the refrigeration components by removal of one or more of the vertical walls that form the skirt 147 .
- the gas received from conduit 142 travels within the interior passage formed along the entire path of the condenser coil 130 . Having the gas travel the serpentine path of the condenser coil 130 allows for heat from the gas to be fed to the ambient atmosphere.
- the use of the previously mentioned fan that is adjacent to the coil 130 aids in the expulsion of heat from the condenser coil 130 .
- the gas cools down sufficiently within the condenser coil 130 so that a portion of it becomes a liquid.
- the liquid and gas are sent from the coil 130 via a conduit 149 to a drier 140 which condenses the remaining gas into a liquid in a well-known manner.
- the drier 140 uses a desiccant to remove moisture from the system if present.
- the liquid is then fed to the compressor 118 which pressurizes the liquid to turn it into a gas so that it can repeat the cycle via conduits 142 and 143 as explained previously.
- the end effect is that heat is absorbed by the refrigerant within the refrigeration unit 100 and carried away to the compressor 108 .
- the interior of the refrigeration unit 100 becomes colder due to the loss of heat.
- One aspect of the present invention regards a refrigeration unit including an exterior lining that includes a first exterior side surface, a second exterior side surface facing the first exterior side surface, a rear exterior surface attached to the first exterior side surface and the second exterior surface.
- the exterior lining further includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface, wherein the top exterior surface and the bottom exterior surface are each attached to the first exterior side surface, the second exterior side surface and the rear exterior surface.
- the refrigeration unit further including an interior lining that includes a first interior side surface facing the first exterior side surface, a second interior side surface facing the first interior side surface and the first exterior side surface and a rear interior surface facing the rear exterior surface and attached to the first interior side surface and the second interior surface.
- the interior lining further including a bottom planar-like interior surface, a top interior surface facing the bottom interior surface, wherein the top interior surface and the bottom interior surface are each attached to the first interior side surface, the second interior side surface and the rear interior surface.
- the refrigeration unit further includes a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface.
- the refrigeration unit including a condenser positioned between the bottom base and the bottom exterior surface, wherein the bottom planar-like surface extends to the first interior side surface, the second interior side surface, and the rear interior surface.
- the refrigeration unit is oriented within a gravitational field generated by the Earth so that the gravitational field flows from the top interior surface to the bottom base.
- a second aspect of present invention regards a refrigeration unit system that includes a refrigeration unit that includes an exterior lining that includes a first exterior side surface, a second exterior side surface facing the first exterior side surface, and a rear exterior surface attached to the first exterior side surface and the second exterior surface.
- the exterior lining further includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface, wherein the top exterior surface and the bottom exterior surface are each attached to the first exterior side surface, the second exterior side surface and the rear exterior surface.
- the refrigeration unit further including an interior lining that includes a first interior side surface facing the first exterior side surface, a second interior side surface facing the first interior side surface and the first exterior side surface and a rear interior surface facing the rear exterior surface and attached to the first interior side surface and the second interior surface.
- the interior lining further including a bottom planar-like interior surface, a top interior surface facing the bottom interior surface, wherein the top interior surface and the bottom interior surface are each attached to the first interior side surface, the second interior side surface and the rear interior surface.
- the refrigeration unit includes a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface.
- the refrigeration unit including a condenser positioned between the bottom exterior surface and the bottom base.
- the bottom planar-like surface extends to the first interior side surface, the second interior side surface, and the rear interior surface.
- the refrigeration system further includes a support surface upon which the bottom base lies and the support surface is subjected to an entire weight of the refrigeration unit.
- a third aspect of the present invention regards a refrigeration unit including an exterior lining that includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface.
- the refrigeration unit further including an interior lining that includes a bottom planar-like interior surface and a top interior surface facing the bottom interior surface.
- the refrigeration unit including a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface.
- the refrigeration unit includes a condenser positioned between the bottom base and the bottom exterior surface, wherein the refrigeration unit is oriented within a gravitational field generated by the Earth so that the gravitational field flows from the top interior surface to the bottom base.
- a fourth aspect of the present invention regards a refrigeration unit system that includes a refrigeration unit that includes an exterior lining that includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface.
- the refrigeration unit further including an interior lining that includes a bottom planar-like interior surface and a top interior surface facing the bottom interior surface.
- the refrigeration unit including a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface.
- the refrigeration unit includes a condenser positioned between the bottom base and the bottom exterior surface, wherein the refrigeration unit is oriented within a gravitational field generated by the Earth so that the gravitational field flows from the top interior surface to the bottom base.
- the refrigeration system further includes a support surface upon which the bottom base lies and the support surface is subjected to an entire weight of the refrigeration unit.
- One or more aspects of the present invention provide the advantage of providing increased storage within the interior of refrigeration units of smaller sizes.
- FIG. 1 is a perspective view of an embodiment of a known refrigeration unit, wherein the door is in a closed position;
- FIG. 2 is a perspective view of the refrigeration unit of FIG. 1 , wherein the door is in an open position;
- FIG. 3 is a cross-sectional view of a side of the refrigeration unit of FIG. 1 ;
- FIG. 4 is a perspective view of a bottom base of the refrigeration unit of FIG. 1 with refrigeration components present;
- FIGS. 5A-C are pictures showing a possible process for attaching a compressor to the bottom base of FIG. 4 the is a perspective view of a bottom base of the refrigeration unit of FIG. 1 with refrigeration components present;
- FIG. 6 is a perspective view of an embodiment of a refrigeration unit in accordance with the present invention, wherein the door is in a closed position;
- FIG. 6A is a schematic front cross-sectional view of the refrigeration unit of FIG. 6 ;
- FIG. 7 is a perspective view of the refrigeration unit of FIG. 6 , wherein the door is in an open position;
- FIG. 7A is a perspective and schematic view of an exterior lining to be used with the refrigeration unit of FIGS. 6-7 ;
- FIG. 7B is a perspective and schematic view of an interior lining to be used with the refrigeration unit of FIGS. 6, 7, and 7A ;
- FIG. 8 is a cross-sectional view of a side of the refrigeration unit of FIG. 6 ;
- FIG. 9 is a perspective view of a bottom base of the refrigeration unit of FIG. 6 with refrigeration components present;
- FIG. 9A is top and schematic view of the bottom base and refrigeration components of FIG. 9 ;
- FIG. 10 schematically shows an embodiment of a refrigeration system that includes the refrigeration unit of FIGS. 6-9 .
- FIGS. 6-10 show an embodiment of a refrigeration unit 200 that has a height of approximately 33.25 inches, a width or length of approximately 23.5 inches, and a depth of approximately 23.0 inches. It should be noted that other sizes for the refrigeration unit 200 are possible. For example, the height can range from 32 inches to 34 inches, the width or length can vary from 15.0 inches to 36.0 inches, and the depth can vary from 21.0 inches to 23.0 inches.
- the refrigeration unit 200 has a door 201 that is attached via a hinge 203 to a main storage housing 205 as shown in FIGS. 6-7 .
- the main storage housing 205 can be thought of as being a shell that has an interior housing or lining 278 and an exterior housing or lining 202 as schematically shown by the front cross-sectional view of FIG. 6A .
- the exterior lining 202 is made of a durable material, such as stainless steel, vinyl coated carbon steel or galvanized steel. As shown in FIGS. 6, 7 and 7A , the exterior lining 202 of the main storage housing 205 includes a first exterior side surface 204 and a second exterior side surface 206 that is positioned opposite to and faces the first exterior side surface 204 .
- the first and second exterior side surfaces 204 , 206 are identical in shape.
- the first and second exterior side surfaces 204 , 206 may be rectangular in shape with a vertical height H, as measured along vertical direction V, ranging from 32.0 inches to 34.0 inches and a depth D ranging from 21.0 inches to 23.0 inches.
- the first and second exterior side surfaces 204 , 206 have a thickness ranging from 0.020 inches to 0.060 inches.
- the first and second exterior side surfaces 204 , 206 are preferably arranged parallel to one another and separated from one another by a distance ranging from 15.0 inches to 36.0 inches.
- the exterior lining 202 includes a rear exterior surface 208 that has vertical side edges 210 and 212 integrally attached to a rear vertical edge 214 of the first exterior side surface 204 and a rear vertical edge 216 of the second exterior side surface 206 , respectively.
- the rear exterior surface 208 is rectangular in shape with a height that is the same as the height H of the first and second exterior side surfaces 204 , 206 .
- the rear exterior surface 208 has a length L ranging from 15.0 inches to 36.0 inches and has a thickness ranging from 0.020 inches to 0.060 inches.
- the rear exterior surface 208 is preferably positioned at a right angle to each of the first and second exterior side surfaces 204 , 206 .
- FIGS. 6-9 show that the exterior lining 202 includes a bottom exterior surface 218 , and a top exterior surface 220 that is positioned opposite to and faces the bottom exterior surface 218 .
- the bottom and top exterior surfaces 218 , 220 are nearly identical in shape and size.
- the bottom and top exterior surfaces 218 , 220 may be rectangular in shape with a length L ranging from 15.0 inches to 36.0 inches and a width that is the same as the width of the first and second exterior side surfaces 204 , 206 .
- the bottom and top exterior surfaces 218 , 220 have a thickness ranging from 0.020 inches to 0.060 inches.
- the bottom and top exterior surfaces 218 , 220 are preferably arranged parallel to one another and separated from one another by a distance equal to the vertical height H of the first and second exterior side surfaces 204 , 206 .
- Bottom exterior surface 218 is integrally attached with bottom edges 226 , 228 of the first and second exterior side surfaces 204 , 206 , respectively.
- a rear edge 230 of the bottom exterior surface 218 is integrally attached with a bottom edge 232 of the rear exterior surface 208 .
- the bottom exterior surface 218 is preferably perpendicular to each of the first and second exterior side surfaces 204 , 206 and the rear exterior surface 208 .
- Top exterior surface 220 is integrally attached with top edges 238 , 240 of the first and second exterior side surfaces 204 , 206 , respectively.
- a rear edge 242 of the top exterior surface 220 is integrally attached with a top edge 244 of the rear exterior surface 208 .
- the top exterior surface 220 is preferably perpendicular to each of the first and second exterior side surfaces 204 , 206 and the rear exterior surface 208 .
- the interior lining 278 placed within the exterior housing 202 is the interior lining 278 .
- the interior lining 278 can support various types of shelves that support items to be contained within the refrigeration unit 200 .
- the interior lining 278 is made of a durable material, such as high impact polystyrene (HIPS), plastic, or stainless steel.
- the interior lining 278 includes a first interior side surface 280 and a second interior side surface 282 that is positioned opposite to and faces the first interior side surface 280 .
- the first and second interior side surfaces 280 , 282 are identical in shape.
- first and second interior side surfaces 280 , 282 may be rectangular in shape with a height ranging from 22.0 inches to 24.0 inches and a width ranging from 16.0 inches to 20.0 inches.
- the first and second interior side surfaces 280 , 282 have a thickness ranging from 0.050 inches to 0.200 inches.
- the first and second interior side surfaces 280 , 282 are preferably arranged parallel to one another and separated from one another by a distance ranging from 11 inches to 20 inches.
- the first and second interior side surfaces 280 , 282 are separated from one another by approximately 28 inches and a vertical wall is positioned between and parallel to the interior side surfaces 280 , 282 so that two cavities are defined with each cavity having a width of approximately 14 inches.
- the interior lining 278 includes a rear interior surface 284 that has vertical side edges 286 and 288 integrally attached to a rear vertical edge 290 of the first interior side surface 280 and a rear vertical edge 292 of the second interior side surface 282 , respectively.
- the rear interior surface 284 is rectangular in shape with a height that is the same as the height of the first and second interior side surfaces 280 , 282 .
- the rear interior surface 284 has a length ranging from 11.0 inches to 20.0 inches and has a thickness ranging from 0.050 inches to 0.200 inches.
- the rear interior surface 284 is preferably positioned at a right angle to each of the first and second interior side surfaces 280 , 282 .
- FIGS. 7B and 8 show that the interior lining 278 includes a bottom, planar-like interior surface 294 and a top interior surface 296 that is positioned opposite to and faces the bottom interior surface 294 .
- the bottom and top interior surfaces 294 , 296 are identical in shape and size.
- the bottom and top interior surfaces 294 , 296 may be rectangular in shape with a length L ranging from 11.0 inches to 20.0 inches and a width that is the same as the first and second interior side surfaces 280 , 282 .
- the bottom and top interior surfaces 294 , 296 have a thickness ranging from 0.050 inches to 0.200 inches.
- the bottom and top interior surfaces 294 , 296 are preferably arranged parallel to one another and separated from one another by a distance equal to the vertical height of the first and second interior side surfaces 280 , 282 .
- the side edges 298 , 300 of the bottom interior surface 294 are integrally attached with the bottom edges 302 , 304 of the first and second interior side surfaces 280 , 282 , respectively.
- the rear edge 306 of the bottom interior surface 294 is integrally attached with the bottom edge 308 of the rear interior surface 284 .
- the bottom interior surface 294 is preferably perpendicular to each of the first and second interior side surfaces 280 , 282 and the rear interior surface 284 . As shown in FIGS. 7B and 8 , the bottom planar-like interior surface 294 extends to the first interior side surface 280 , the second interior side surface 282 , and the rear interior surface 284 .
- the side edges 310 , 312 of the top interior surface 296 are integrally attached with the top edges 314 , 316 of the first and second interior side surfaces 280 , 282 , respectively.
- the rear edge 318 of the top interior surface 296 is integrally attached with the top edge 320 of the rear interior surface 284 .
- the top interior surface 296 is preferably perpendicular to each of the first and second interior side surfaces 280 , 282 and the rear interior surface 284 .
- the interior lining 278 is attached to the exterior lining 202 by holding the two linings in a nested manner so that the interior lining 278 is nested within the exterior lining 202 .
- a volume of space positioned between the two nested linings is formed.
- a foam is injected into the volume of space, wherein the foam expands into the entire volume of space and cures/hardens resulting in the linings being attached to one another via the foam.
- conduits and heat transfer coils are positioned within the volume of space prior to injecting the foam into the volume of space.
- the first interior side surface 280 is parallel to, facing and spaced from the first exterior side surface 204 by approximately 1.75 inches.
- the second interior side surface 282 is parallel to, facing and spaced from the second exterior side surface 206 by approximately 1.75 inches.
- the rear interior surface 284 is parallel to, facing and spaced from the rear exterior surface 208 by approximately 1.0 inches.
- the top interior surface 296 is parallel to, facing and spaced from the top exterior surface 220 by approximately 1.75 inches.
- the bottom, planar-like interior surface 294 is parallel to, facing and spaced from the bottom exterior surface 218 by approximately 7 inches.
- a storage volume of space S as shown in FIGS. 6A, and 8 that stores components of the refrigeration unit 200 , such as the condenser 248 and the coils 260 .
- the space S has a vertical height of approximately 5.0 inches, a length of approximately 18.5 inches, and a width of approximately 15.0 inches to 36.0 inches.
- a door 322 is attached to the exterior lining 202 by a pair of hinges 322 , 324 that are attached to the exterior front face of the refrigeration unit 200 .
- the hinged door 322 is movable to an open position (see FIG. 7 ) that provides access to a volume of space defined by the interior lining 278 and to a closed position (see FIG. 6 ) wherein access to the volume of space is denied.
- the rear portion 326 of the door 322 may include one or more shelves to hold products.
- the volume of space defined by the interior lining 278 is substantially sealed off from the exterior environment so that a temperature range of 33° F.-70° F. can be generated within the volume of space.
- a number of refrigeration components are positioned on the upper surface 246 of a rectangular bottom base 217 .
- the bottom base 217 is attached to the bottom of the exterior lining 202 of the refrigeration unit 200 .
- the bottom base 217 has a thickness of approximately 0.050 inches, a width of approximately 23.5 inches, and a depth of approximately 23.0 inches.
- the bottom base 217 is made of a durable material, such as steel. Extending vertically with respect to the edges of the base 217 are integrally attached rectangular-like brackets 219 .
- a compressor 248 is attached to the bottom base 217 by four tabs 250 with retaining clips (two shown) that extend through openings of corresponding support pads 252 integrally formed with the compressor 248 .
- Adjacent to the compressor 248 is a housing 249 that contains electronics for running the compressor 248 .
- the compressor 248 has a tank 254 for receiving/storing a pressurized refrigerant, such as the substances known by the trade names of R134a and R600a. The refrigerant is pressurized to such an extent that it turns into a hot gas.
- the hot gas is expelled from the tank 256 and sent via a conduit (not shown) to a heat exchange coil within the volume of space formed between the interior lining 278 and the exterior lining 202 , then to a condenser in the form of a condenser coil 260 , and then from the condenser coil 260 back to the compressor 248 in a manner similar to that described with respect to the refrigeration unit 100 of FIGS. 1-4 .
- V the maximum height of the compressor 248 , as measured in the vertical direction, V is 5.0 inches.
- the compressor 248 is positioned at the right side and rear portion of the bottom surface 218 .
- the condenser coil 260 is formed from a tube so as to define a serpentine pattern with two exterior rows 262 , 264 of four elongated, ⁇ -shaped portions of the coil 260 that face the front and rear of the refrigeration unit 200 . Between the rows 262 , 264 are three interior rows 266 , 268 , 270 of seven columns of elongated, a-shaped portions of the coil 260 , wherein the rows face the left and right sides of the refrigeration unit 200 . Horizontal wires 271 are attached/fused to each of the portions via welding as shown in FIG. 9 .
- the condenser coil 260 is attached to the bottom base 217 by retaining clips or screws.
- a vertical metal wall 272 is attached to the bottom base 217 and is attached to the coil 260 by a spot welding process.
- the wall 272 acts an air deflector that separates the air inlet from the air exhaust.
- a U-shaped bracket 274 is attached to the bottom base 217 and has an opening that receives a fan 276 that helps to convey heat generated by the coils 260 away from the coils 260 .
- Adjacent to the fan is a drain cup 251 that functions similarly to the drain cup 136 of FIG. 4 . Note that the wall 272 and the bracket 274 each has a height of approximately 5.0 inches.
- the maximum height of the condenser coil 260 is 5.0 inches.
- the condenser coil 260 forms a rectangular-like footprint on the bottom base 217 that has a length of approximately 10.0 inches and a width of approximately 6.0 inches. As shown in FIG. 9 , the condenser coil 260 is positioned at the left side and front portion of the bottom base 217 .
- the maximum height of a component positioned on the bottom base 114 of the refrigeration unit 100 is 7.5 inches, while the maximum height of a component positioned on the bottom base 217 of the refrigeration unit 200 is no more than 5.0 inches.
- the lower vertical dimensions of the refrigeration components of the refrigeration unit 200 essentially allows for the upper level 143 of the bottom portion of the refrigeration unit 100 to be lowered and thus increase the storage volume within the refrigeration unit 200 when compared with the storage volume of the refrigeration unit 100 .
- the bottom base 217 is attached to the bottom exterior surface 218 of the exterior lining 202 by vertical walls that are attached to the surface 218 and the bottom base 217 , wherein such vertical walls form/define a skirt 221 below the main storage housing 106 .
- the skirt 221 hides the refrigeration components on the bottom base 217 from view and allows for access to the refrigeration components by removal of one or more of the vertical walls that form the skirt.
- each corner of the bottom base 217 includes a foot that extends downward from a bottom surface of the bottom base 217 so that the feet engage the support surface 328 .
- Each foot can be adjustable in how much it extends from the bottom surface so that the refrigeration unit 200 can be leveled on the support surface 328 .
- the refrigeration unit 200 and the support surface 328 define a refrigeration system 330 .
- the gravitational field, g generated by the Earth flows from the top 329 of the exterior lining 202 to both the bottom of the exterior lining 202 and the bottom base 217 so that the support surface 328 is subjected to the entire weight of the refrigeration unit 200 .
- the gravitational field g is directed towards the center of the Earth and is approximately perpendicular to the bottom planar like interior surface.
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Abstract
Description
- This application claims the benefit of priority under 35 U.S.C. § 119(e)(1) of U.S. Provisional Application Ser. No. 62/591,864, filed Nov. 29, 2017, the entire contents of which are incorporated herein by reference.
- The present invention is directed to a refrigeration unit, in particular, refrigeration units that are sized to be used in smaller areas and/or can be supported on table tops and the like.
- While refrigeration units are in general well known, they can have a wide variety of storage plans within the interior. It is a preferable attribute of most, if not all, refrigeration units that the storage volume is increased so as to contain as many products, such as food, as needed by a user.
- In the case of refrigeration units that are of a smaller size that can be supported on a table top and the like, size constraints have forced the elements of the refrigeration unit that enable cooling, such as the condenser coils and the compressor, to be housed in a compartment that takes up space within the interior of the refrigerator. Thus, the volume within the interior of the refrigerator is not optimized.
- An example of this is shown in the schematic drawings in
FIGS. 1-4 .FIG. 1 shows a perspective view of atypical refrigeration unit 100 that is of a smaller size, such as a height of approximately 33.25 inches, width of approximately 23.5 inches, and a depth of approximately 23.0 inches. Therefrigeration unit 100 has adoor 102 that is attached via ahinge 104 to amain storage housing 106 as shown inFIGS. 1-2 . Themain storage housing 106 can be thought of as being a shell that has aninterior lining 108 and an exterior housing or lining 110. As shown inFIGS. 1-3 , theinterior lining 108 can support various types of shelves that support items to be contained within therefrigeration unit 100. As shown inFIGS. 1-3 , there are sides of theexterior lining 110 that face the ambient atmosphere and define left and rightvertical side walls vertical wall 115, and atop wall 117 that are integral with one another. There is a space between theinterior lining 108 and theexterior lining 110 that contains heat transfer coils and insulation (not shown). In order to lessen the overall footprint of themain storage housing 106, several refrigeration components, such as a compressor and condenser coils, are positioned in aspace 112 that is so sized that it lessens the amount of overall space to hold items for refrigeration as shown inFIG. 3 . - With the above description and
FIGS. 1-10 in mind, certain terms will be defined to be used for the refrigeration units described throughout this application so as to aid the reader in understanding the invention. For example, “front” will regard the side of the refrigeration unit at which the door is present when in the closed position on the refrigeration unit. “Rear” denotes the side of the refrigeration unit opposite the front side or the door when the door is in the closed position. “Left” denotes the side of the refrigeration unit that is to the left when viewing the exterior of the door when it is in the closed position. “Right” denotes the side of the refrigeration unit that is opposite to the left side. “Bottom” denotes the side of the refrigeration unit towards which the gravitational field generated by the Earth flows substantially perpendicular to the side and is the side located nearest the center of the Earth. “Top” denotes the side of the refrigeration unit that is opposite to the bottom side. - The above concepts are shown in
FIGS. 1-4 . InFIG. 4 , arectangular bottom base 114 is shown that is attached to the bottom of theexterior lining 110 of therefrigeration unit 100. Thebase 114 has a thickness of approximately 0.0516 inches, a width, W, of approximately 23.5 inches, and a depth, D, of approximately 23.0 inches. Thebase 114 is made of a durable material, such as steel. Extending vertically with respect to the edges of the base 114 are integrally attached rectangular-like brackets 116. - Upon the
base 114, a number of refrigeration components are positioned. For example, acompressor 118 is attached to thebase 114 by fourtabs 120 with retaining pins (two shown) that extend through openings ofcorresponding support pads 122 integrally formed with thecompressor 118. A possible process for attachment of asupport pad 122 of thecompressor 118 to thebase 114 is shown inFIGS. 5A-C . In particular, eachsupport pad 122 is integrally formed with and extends away from a lower portion of atank 124 of thecompressor 118. Eachsupport pad 122 has agrommet 123 which passes through an outer opening of thesupport pad 122 and is attached to thesupport pad 122. When attached, a portion of thegrommet 123 is positioned above the opening and a portion is positioned below the opening as shown inFIG. 5A . As shown inFIG. 5A , openings of thesupport pad 122 andgrommet 123 are positioned over avertical portion 125 of an L-shaped tab 120 that has aplanar foot 127 integrally attached to thebase 114. Next, thesupport pad 122 andgrommet 123 are lowered until a section ofvertical portion 125 extends through the openings of thegrommet 123 and thesupport pad 122 as shown inFIG. 5B . - Next, a
washer 129 is placed on the top surface of thegrommet 123 so that thevertical portion 125 extends through the opening of thewasher 129 as shown inFIG. 5B . At this stage of the process, a portion ofretaining pin 131 is inserted through anopening 133 formed in thevertical portion 125 and another portion of theretaining pin 131 clampingly engages thevertical portion 125, - The
tank 124 of thecompressor 118 receives/stores a pressurized refrigerant. The refrigerant is pressurized to such an extent that it turns into a hot gas. The hot gas is expelled from thetank 124 and sent via aconduit FIG. 4 denote flow of refrigerant). Thecondenser coil 130 is formed from a tube. - Prior to reaching the
condenser coil 130, the hot gas travels throughconduit 142 to heat transfer coils (not shown) positioned between theinterior lining 108 and theexterior lining 110 of themain storage housing 106. Preferably, the heat transfer coils are placed against the wall of theinterior lining 108 so that they receive heat from the interior of therefrigeration unit 100 that is adjacent to theinterior lining 108. Note that the portion of the conduit within therefrigeration unit 100 is partially surrounded by insulation. - During its trip from the
tank 124 to the heat transfer coils, the gas cools to such an extent that the gas has a temperature that is less than the temperature within the interior of therefrigeration unit 100. Accordingly, heat will flow from the interior of therefrigeration unit 100 to the gas within the heat transfer coils. Such heated gas then flows throughconduit 143 and on to condensercoil 130, as shown inFIG. 4 . - Note that the maximum height of the
compressor 118, as measured in a vertical direction, V, from thebottom base 114 to a top portion of therefrigeration unit 100 is 7.0 inches. Thecompressor 118 is positioned at the right side and rear portion of thebottom base 114. - As shown in
FIG. 4 , thecondenser coil 130 forms a serpentine pattern with three columns and eight rows of elongated, Q-shaped portions of thecoil 130. Horizontal wires 132 (592 in number) are attached/fused to each of the portions as shown inFIG. 4 in a well-known manner, such as welding. Thecondenser coil 130 is attached to thebottom base 114 by screws (not shown). In addition, brackets 134 are attached to abracket 116 and are attached to thecoil 130 by being welded/fused thereto. Note that thewires 132 and thewall 138 described later act as an air deflector. AU-shaped bracket 136 is attached to the top surface of thebase 114, but is not attached to thecoil 130. Thebracket 136 defines a drain cup in a well-known manner and has a height of approximately 3.25 inches. The drain cup collects moisture/water generated during a defrost cycle of therefrigeration unit 100, wherein the collected moisture/water is dissipated to the ambient atmosphere. Since the collected moisture/water is in direct contact with thebase 114, the dissipation of the moisture/water aids in carrying away heat from thebase 114. - Note that the maximum height of the
condenser coil 130, as measured in the vertical direction V is 7.25 inches. Thecondenser coil 130 forms a rectangular-like footprint on thebottom base 114 that has a width of approximately 20.5 inches and a depth of approximately 18.0 inches. As shown inFIG. 4 , thecondenser coil 130 is positioned at the left side and rear portion of thebottom base 114. - Positioned between the
compressor 118 and thecondenser coil 130 is ametal wall 138 that is attached to thebottom base 114 and rises vertically from thebottom base 114. Thewall 138 has a vertical height, as measured in the vertical direction V, of approximately 7.5 inches. Not shown is that thewall 138 has an opening with a fan positioned within the opening and approximately centered on thecondenser coil 130. - As shown in
FIG. 3 , thebottom portion 139 of theexterior lining 110 has a z-type shape, abottom portion 141 of theinterior lining 108 is parallel to and is spaced from thebottom portion 139 of theexterior lining 110 by approximately 2.25 inches. Theupper level 143 of thebottom portion 139 runs parallel to thebase 114 and is positioned approximately 9.85 inches above the base 114 so that there is a clearance of approximately 3.00 inches from the top of thetank 124 to theupper level 143. Thelower level 145 of thebottom portion 139 is offset below theupper level 143 by approximately 2.0 inches. Thebase 114 is attached to thebottom portion 139 by vertical walls that are attached to thebase 114 and thebottom portion 139, wherein such vertical walls form/define askirt 147 below themain storage housing 106. Theskirt 147 hides the refrigeration components on the base 114 from view and allows for access to the refrigeration components by removal of one or more of the vertical walls that form theskirt 147. - In operation, the gas received from
conduit 142 travels within the interior passage formed along the entire path of thecondenser coil 130. Having the gas travel the serpentine path of thecondenser coil 130 allows for heat from the gas to be fed to the ambient atmosphere. The use of the previously mentioned fan that is adjacent to thecoil 130 aids in the expulsion of heat from thecondenser coil 130. With the expulsion of heat, the gas cools down sufficiently within thecondenser coil 130 so that a portion of it becomes a liquid. The liquid and gas are sent from thecoil 130 via a conduit 149 to a drier 140 which condenses the remaining gas into a liquid in a well-known manner. In particular, the drier 140 uses a desiccant to remove moisture from the system if present. The liquid is then fed to thecompressor 118 which pressurizes the liquid to turn it into a gas so that it can repeat the cycle viaconduits - The end effect is that heat is absorbed by the refrigerant within the
refrigeration unit 100 and carried away to thecompressor 108. Thus, the interior of therefrigeration unit 100 becomes colder due to the loss of heat. - It is an objective of the present invention to reduce the size of the space containing refrigeration components so that the amount of overall space for holding items for refrigeration is increased.
- One aspect of the present invention regards a refrigeration unit including an exterior lining that includes a first exterior side surface, a second exterior side surface facing the first exterior side surface, a rear exterior surface attached to the first exterior side surface and the second exterior surface. The exterior lining further includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface, wherein the top exterior surface and the bottom exterior surface are each attached to the first exterior side surface, the second exterior side surface and the rear exterior surface. The refrigeration unit further including an interior lining that includes a first interior side surface facing the first exterior side surface, a second interior side surface facing the first interior side surface and the first exterior side surface and a rear interior surface facing the rear exterior surface and attached to the first interior side surface and the second interior surface. The interior lining further including a bottom planar-like interior surface, a top interior surface facing the bottom interior surface, wherein the top interior surface and the bottom interior surface are each attached to the first interior side surface, the second interior side surface and the rear interior surface. The refrigeration unit further includes a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface. The refrigeration unit including a condenser positioned between the bottom base and the bottom exterior surface, wherein the bottom planar-like surface extends to the first interior side surface, the second interior side surface, and the rear interior surface. The refrigeration unit is oriented within a gravitational field generated by the Earth so that the gravitational field flows from the top interior surface to the bottom base.
- A second aspect of present invention regards a refrigeration unit system that includes a refrigeration unit that includes an exterior lining that includes a first exterior side surface, a second exterior side surface facing the first exterior side surface, and a rear exterior surface attached to the first exterior side surface and the second exterior surface. The exterior lining further includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface, wherein the top exterior surface and the bottom exterior surface are each attached to the first exterior side surface, the second exterior side surface and the rear exterior surface. The refrigeration unit further including an interior lining that includes a first interior side surface facing the first exterior side surface, a second interior side surface facing the first interior side surface and the first exterior side surface and a rear interior surface facing the rear exterior surface and attached to the first interior side surface and the second interior surface. The interior lining further including a bottom planar-like interior surface, a top interior surface facing the bottom interior surface, wherein the top interior surface and the bottom interior surface are each attached to the first interior side surface, the second interior side surface and the rear interior surface. The refrigeration unit includes a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface. The refrigeration unit including a condenser positioned between the bottom exterior surface and the bottom base. The bottom planar-like surface extends to the first interior side surface, the second interior side surface, and the rear interior surface. The refrigeration system further includes a support surface upon which the bottom base lies and the support surface is subjected to an entire weight of the refrigeration unit.
- A third aspect of the present invention regards a refrigeration unit including an exterior lining that includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface. The refrigeration unit further including an interior lining that includes a bottom planar-like interior surface and a top interior surface facing the bottom interior surface. The refrigeration unit including a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface. The refrigeration unit includes a condenser positioned between the bottom base and the bottom exterior surface, wherein the refrigeration unit is oriented within a gravitational field generated by the Earth so that the gravitational field flows from the top interior surface to the bottom base.
- A fourth aspect of the present invention regards a refrigeration unit system that includes a refrigeration unit that includes an exterior lining that includes a bottom exterior surface and a top exterior surface facing the bottom exterior surface. The refrigeration unit further including an interior lining that includes a bottom planar-like interior surface and a top interior surface facing the bottom interior surface. The refrigeration unit including a bottom base, wherein the bottom exterior surface is positioned between the bottom base and the bottom planar-like interior surface. The refrigeration unit includes a condenser positioned between the bottom base and the bottom exterior surface, wherein the refrigeration unit is oriented within a gravitational field generated by the Earth so that the gravitational field flows from the top interior surface to the bottom base. The refrigeration system further includes a support surface upon which the bottom base lies and the support surface is subjected to an entire weight of the refrigeration unit.
- One or more aspects of the present invention provide the advantage of providing increased storage within the interior of refrigeration units of smaller sizes.
- The various features, advantages and other uses of the present apparatus will become more apparent by referring to the following detailed description and drawing in which:
-
FIG. 1 is a perspective view of an embodiment of a known refrigeration unit, wherein the door is in a closed position; -
FIG. 2 is a perspective view of the refrigeration unit ofFIG. 1 , wherein the door is in an open position; -
FIG. 3 is a cross-sectional view of a side of the refrigeration unit ofFIG. 1 ; -
FIG. 4 is a perspective view of a bottom base of the refrigeration unit ofFIG. 1 with refrigeration components present; -
FIGS. 5A-C are pictures showing a possible process for attaching a compressor to the bottom base ofFIG. 4 the is a perspective view of a bottom base of the refrigeration unit ofFIG. 1 with refrigeration components present; -
FIG. 6 is a perspective view of an embodiment of a refrigeration unit in accordance with the present invention, wherein the door is in a closed position; -
FIG. 6A is a schematic front cross-sectional view of the refrigeration unit ofFIG. 6 ; -
FIG. 7 is a perspective view of the refrigeration unit ofFIG. 6 , wherein the door is in an open position; -
FIG. 7A is a perspective and schematic view of an exterior lining to be used with the refrigeration unit ofFIGS. 6-7 ; -
FIG. 7B is a perspective and schematic view of an interior lining to be used with the refrigeration unit ofFIGS. 6, 7, and 7A ; -
FIG. 8 is a cross-sectional view of a side of the refrigeration unit ofFIG. 6 ; -
FIG. 9 is a perspective view of a bottom base of the refrigeration unit ofFIG. 6 with refrigeration components present; -
FIG. 9A is top and schematic view of the bottom base and refrigeration components ofFIG. 9 ; and -
FIG. 10 schematically shows an embodiment of a refrigeration system that includes the refrigeration unit ofFIGS. 6-9 . - As shown in the exemplary drawing figures, a refrigeration unit is shown, wherein like elements are denoted by like numerals.
-
FIGS. 6-10 show an embodiment of arefrigeration unit 200 that has a height of approximately 33.25 inches, a width or length of approximately 23.5 inches, and a depth of approximately 23.0 inches. It should be noted that other sizes for therefrigeration unit 200 are possible. For example, the height can range from 32 inches to 34 inches, the width or length can vary from 15.0 inches to 36.0 inches, and the depth can vary from 21.0 inches to 23.0 inches. - The
refrigeration unit 200 has adoor 201 that is attached via ahinge 203 to amain storage housing 205 as shown inFIGS. 6-7 . Themain storage housing 205 can be thought of as being a shell that has an interior housing or lining 278 and an exterior housing or lining 202 as schematically shown by the front cross-sectional view ofFIG. 6A . There is a space between theinterior lining 278 and theexterior lining 202 that contains heat transfer coils and insulation (not shown). - The
exterior lining 202 is made of a durable material, such as stainless steel, vinyl coated carbon steel or galvanized steel. As shown inFIGS. 6, 7 and 7A , theexterior lining 202 of themain storage housing 205 includes a firstexterior side surface 204 and a secondexterior side surface 206 that is positioned opposite to and faces the firstexterior side surface 204. Preferably, the first and second exterior side surfaces 204, 206 are identical in shape. For example, the first and second exterior side surfaces 204, 206 may be rectangular in shape with a vertical height H, as measured along vertical direction V, ranging from 32.0 inches to 34.0 inches and a depth D ranging from 21.0 inches to 23.0 inches. The first and second exterior side surfaces 204, 206 have a thickness ranging from 0.020 inches to 0.060 inches. The first and second exterior side surfaces 204, 206 are preferably arranged parallel to one another and separated from one another by a distance ranging from 15.0 inches to 36.0 inches. - As shown in
FIGS. 7A and 8 , theexterior lining 202 includes a rearexterior surface 208 that has vertical side edges 210 and 212 integrally attached to a rearvertical edge 214 of the firstexterior side surface 204 and a rearvertical edge 216 of the secondexterior side surface 206, respectively. Preferably, therear exterior surface 208 is rectangular in shape with a height that is the same as the height H of the first and second exterior side surfaces 204, 206. Therear exterior surface 208 has a length L ranging from 15.0 inches to 36.0 inches and has a thickness ranging from 0.020 inches to 0.060 inches. Therear exterior surface 208 is preferably positioned at a right angle to each of the first and second exterior side surfaces 204, 206. -
FIGS. 6-9 show that theexterior lining 202 includes abottom exterior surface 218, and a topexterior surface 220 that is positioned opposite to and faces thebottom exterior surface 218. Preferably, the bottom and topexterior surfaces exterior surfaces exterior surfaces - The bottom and top
exterior surfaces - Side edges 222, 224 of the
bottom exterior surface 218 are integrally attached withbottom edges rear edge 230 of thebottom exterior surface 218 is integrally attached with a bottom edge 232 of therear exterior surface 208. Thebottom exterior surface 218 is preferably perpendicular to each of the first and second exterior side surfaces 204, 206 and therear exterior surface 208. - Side edges 234, 236 of the top
exterior surface 220 are integrally attached withtop edges rear edge 242 of the topexterior surface 220 is integrally attached with atop edge 244 of therear exterior surface 208. The topexterior surface 220 is preferably perpendicular to each of the first and second exterior side surfaces 204, 206 and therear exterior surface 208. - As shown in
FIGS. 7, 7B and 8 , placed within theexterior housing 202 is theinterior lining 278. As shown inFIGS. 6, 7 and 8 , theinterior lining 278 can support various types of shelves that support items to be contained within therefrigeration unit 200. Theinterior lining 278 is made of a durable material, such as high impact polystyrene (HIPS), plastic, or stainless steel. Theinterior lining 278 includes a firstinterior side surface 280 and a secondinterior side surface 282 that is positioned opposite to and faces the firstinterior side surface 280. Preferably, the first and second interior side surfaces 280, 282 are identical in shape. For example, the first and second interior side surfaces 280, 282 may be rectangular in shape with a height ranging from 22.0 inches to 24.0 inches and a width ranging from 16.0 inches to 20.0 inches. The first and second interior side surfaces 280, 282 have a thickness ranging from 0.050 inches to 0.200 inches. The first and second interior side surfaces 280, 282 are preferably arranged parallel to one another and separated from one another by a distance ranging from 11 inches to 20 inches. In another embodiment, the first and second interior side surfaces 280, 282 are separated from one another by approximately 28 inches and a vertical wall is positioned between and parallel to the interior side surfaces 280, 282 so that two cavities are defined with each cavity having a width of approximately 14 inches. - As shown in
FIGS. 7B and 8 , theinterior lining 278 includes a rearinterior surface 284 that has vertical side edges 286 and 288 integrally attached to a rearvertical edge 290 of the firstinterior side surface 280 and a rearvertical edge 292 of the secondinterior side surface 282, respectively. Preferably, the rearinterior surface 284 is rectangular in shape with a height that is the same as the height of the first and second interior side surfaces 280, 282. The rearinterior surface 284 has a length ranging from 11.0 inches to 20.0 inches and has a thickness ranging from 0.050 inches to 0.200 inches. The rearinterior surface 284 is preferably positioned at a right angle to each of the first and second interior side surfaces 280, 282. -
FIGS. 7B and 8 show that theinterior lining 278 includes a bottom, planar-likeinterior surface 294 and a topinterior surface 296 that is positioned opposite to and faces the bottominterior surface 294. Preferably, the bottom and topinterior surfaces interior surfaces interior surfaces interior surfaces - The side edges 298, 300 of the bottom
interior surface 294 are integrally attached with thebottom edges rear edge 306 of the bottominterior surface 294 is integrally attached with thebottom edge 308 of the rearinterior surface 284. The bottominterior surface 294 is preferably perpendicular to each of the first and second interior side surfaces 280, 282 and the rearinterior surface 284. As shown inFIGS. 7B and 8 , the bottom planar-likeinterior surface 294 extends to the firstinterior side surface 280, the secondinterior side surface 282, and the rearinterior surface 284. - The side edges 310, 312 of the top
interior surface 296 are integrally attached with thetop edges interior surface 296 is integrally attached with the top edge 320 of the rearinterior surface 284. The topinterior surface 296 is preferably perpendicular to each of the first and second interior side surfaces 280, 282 and the rearinterior surface 284. - The
interior lining 278 is attached to theexterior lining 202 by holding the two linings in a nested manner so that theinterior lining 278 is nested within theexterior lining 202. By such holding, a volume of space positioned between the two nested linings is formed. Next, a foam is injected into the volume of space, wherein the foam expands into the entire volume of space and cures/hardens resulting in the linings being attached to one another via the foam. Note that conduits and heat transfer coils are positioned within the volume of space prior to injecting the foam into the volume of space. - Once the
interior lining 278 is attached to theexterior lining 202, the firstinterior side surface 280 is parallel to, facing and spaced from the firstexterior side surface 204 by approximately 1.75 inches. Similarly, the secondinterior side surface 282 is parallel to, facing and spaced from the secondexterior side surface 206 by approximately 1.75 inches. The rearinterior surface 284 is parallel to, facing and spaced from therear exterior surface 208 by approximately 1.0 inches. In addition, the topinterior surface 296 is parallel to, facing and spaced from the topexterior surface 220 by approximately 1.75 inches. The bottom, planar-likeinterior surface 294 is parallel to, facing and spaced from thebottom exterior surface 218 by approximately 7 inches. - Between the
bottom exterior surface 218, abottom base 217, and askirt 221 is defined a storage volume of space S as shown inFIGS. 6A, and 8 that stores components of therefrigeration unit 200, such as thecondenser 248 and thecoils 260. The space S has a vertical height of approximately 5.0 inches, a length of approximately 18.5 inches, and a width of approximately 15.0 inches to 36.0 inches. - As shown in
FIGS. 6 and 7 , adoor 322 is attached to theexterior lining 202 by a pair ofhinges refrigeration unit 200. Thus, the hingeddoor 322 is movable to an open position (seeFIG. 7 ) that provides access to a volume of space defined by theinterior lining 278 and to a closed position (seeFIG. 6 ) wherein access to the volume of space is denied. Note that the rear portion 326 of thedoor 322 may include one or more shelves to hold products. In addition, when thedoor 322 is at the closed position the volume of space defined by theinterior lining 278 is substantially sealed off from the exterior environment so that a temperature range of 33° F.-70° F. can be generated within the volume of space. - As shown in
FIGS. 9 and 9A , a number of refrigeration components are positioned on theupper surface 246 of arectangular bottom base 217. As will be described later, thebottom base 217 is attached to the bottom of theexterior lining 202 of therefrigeration unit 200. Thebottom base 217 has a thickness of approximately 0.050 inches, a width of approximately 23.5 inches, and a depth of approximately 23.0 inches. Thebottom base 217 is made of a durable material, such as steel. Extending vertically with respect to the edges of the base 217 are integrally attached rectangular-like brackets 219. - A
compressor 248 is attached to thebottom base 217 by fourtabs 250 with retaining clips (two shown) that extend through openings ofcorresponding support pads 252 integrally formed with thecompressor 248. Adjacent to thecompressor 248 is ahousing 249 that contains electronics for running thecompressor 248. Thecompressor 248 has atank 254 for receiving/storing a pressurized refrigerant, such as the substances known by the trade names of R134a and R600a. The refrigerant is pressurized to such an extent that it turns into a hot gas. The hot gas is expelled from thetank 256 and sent via a conduit (not shown) to a heat exchange coil within the volume of space formed between theinterior lining 278 and theexterior lining 202, then to a condenser in the form of acondenser coil 260, and then from thecondenser coil 260 back to thecompressor 248 in a manner similar to that described with respect to therefrigeration unit 100 ofFIGS. 1-4 . - Note that the maximum height of the
compressor 248, as measured in the vertical direction, V is 5.0 inches. Thecompressor 248 is positioned at the right side and rear portion of thebottom surface 218. - As shown in
FIG. 9 , thecondenser coil 260 is formed from a tube so as to define a serpentine pattern with twoexterior rows coil 260 that face the front and rear of therefrigeration unit 200. Between therows interior rows coil 260, wherein the rows face the left and right sides of therefrigeration unit 200.Horizontal wires 271 are attached/fused to each of the portions via welding as shown inFIG. 9 . Thecondenser coil 260 is attached to thebottom base 217 by retaining clips or screws. In addition, avertical metal wall 272 is attached to thebottom base 217 and is attached to thecoil 260 by a spot welding process. Thewall 272 acts an air deflector that separates the air inlet from the air exhaust. AU-shaped bracket 274 is attached to thebottom base 217 and has an opening that receives afan 276 that helps to convey heat generated by thecoils 260 away from thecoils 260. Adjacent to the fan is adrain cup 251 that functions similarly to thedrain cup 136 ofFIG. 4 . Note that thewall 272 and thebracket 274 each has a height of approximately 5.0 inches. - Note that the maximum height of the
condenser coil 260, as measured in the vertical direction V is 5.0 inches. Thecondenser coil 260 forms a rectangular-like footprint on thebottom base 217 that has a length of approximately 10.0 inches and a width of approximately 6.0 inches. As shown inFIG. 9 , thecondenser coil 260 is positioned at the left side and front portion of thebottom base 217. - When comparing
refrigeration units FIGS. 1-9A , there are some notable differences. For example, the maximum height of a component positioned on thebottom base 114 of therefrigeration unit 100 is 7.5 inches, while the maximum height of a component positioned on thebottom base 217 of therefrigeration unit 200 is no more than 5.0 inches. Thus, the lower vertical dimensions of the refrigeration components of therefrigeration unit 200 essentially allows for theupper level 143 of the bottom portion of therefrigeration unit 100 to be lowered and thus increase the storage volume within therefrigeration unit 200 when compared with the storage volume of therefrigeration unit 100. - The
bottom base 217 is attached to thebottom exterior surface 218 of theexterior lining 202 by vertical walls that are attached to thesurface 218 and thebottom base 217, wherein such vertical walls form/define askirt 221 below themain storage housing 106. Theskirt 221 hides the refrigeration components on thebottom base 217 from view and allows for access to the refrigeration components by removal of one or more of the vertical walls that form the skirt. - It is envisioned that the above described
refrigeration unit 200 will be positioned so that thebottom base 217 lies directly on asupport surface 328, such as a floor or a table top. In an alternative embodiment, each corner of thebottom base 217 includes a foot that extends downward from a bottom surface of thebottom base 217 so that the feet engage thesupport surface 328. Each foot can be adjustable in how much it extends from the bottom surface so that therefrigeration unit 200 can be leveled on thesupport surface 328. In the above scenarios, therefrigeration unit 200 and thesupport surface 328 define arefrigeration system 330. - As schematically shown in
FIG. 10 , the gravitational field, g, generated by the Earth flows from the top 329 of theexterior lining 202 to both the bottom of theexterior lining 202 and thebottom base 217 so that thesupport surface 328 is subjected to the entire weight of therefrigeration unit 200. The gravitational field g is directed towards the center of the Earth and is approximately perpendicular to the bottom planar like interior surface. - While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiments but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims, which scope is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures as is permitted under the law.
Claims (18)
Priority Applications (1)
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US16/201,617 US20190170426A1 (en) | 2017-11-29 | 2018-11-27 | Reduced size refrigeration unit with increased storage area |
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US201762591864P | 2017-11-29 | 2017-11-29 | |
US16/201,617 US20190170426A1 (en) | 2017-11-29 | 2018-11-27 | Reduced size refrigeration unit with increased storage area |
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US20190170426A1 true US20190170426A1 (en) | 2019-06-06 |
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Application Number | Title | Priority Date | Filing Date |
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US16/201,617 Abandoned US20190170426A1 (en) | 2017-11-29 | 2018-11-27 | Reduced size refrigeration unit with increased storage area |
Country Status (1)
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US (1) | US20190170426A1 (en) |
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2018
- 2018-11-27 US US16/201,617 patent/US20190170426A1/en not_active Abandoned
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