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US3499245A - Glass panel refrigerator door and frame - Google Patents

Glass panel refrigerator door and frame Download PDF

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Publication number
US3499245A
US3499245A US611020A US3499245DA US3499245A US 3499245 A US3499245 A US 3499245A US 611020 A US611020 A US 611020A US 3499245D A US3499245D A US 3499245DA US 3499245 A US3499245 A US 3499245A
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Prior art keywords
flange
frame
door
strip
magnetic
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US611020A
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Robert J Winsler
Fred A Richter
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Ardco Inc
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Ardco Inc
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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47FSPECIAL FURNITURE, FITTINGS, OR ACCESSORIES FOR SHOPS, STOREHOUSES, BARS, RESTAURANTS OR THE LIKE; PAYING COUNTERS
    • A47F3/00Show cases or show cabinets
    • A47F3/04Show cases or show cabinets air-conditioned, refrigerated
    • A47F3/0404Cases or cabinets of the closed type
    • A47F3/0426Details
    • A47F3/043Doors, covers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25DREFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
    • F25D23/00General constructional features
    • F25D23/02Doors; Covers

Definitions

  • a glass panel refrigerator door having a glass molding secured by screws to a flange on the door frame, a magnetic gasket mounted on the glass molding, and a gasket molding retaining the gasket on the glass molding and screwed to the glass molding while also clamping the glass molding under another flange on the door frame; the door being mounted in a frame having a removable magnetic armature plate for cooperating with the magnetic gasket, heater cables being positioned in channels closed by the magnetic plate; the frame having a sealing strip with a dog-leg resilient retaining portion and a rip-off flange.
  • This invention relates to glass panel refrigerator doors of the general type represented by the Kurowski Patents, No. 2,987,782, patented June 13, 1961, and 3,131,421, patented May 5, 1964.
  • Such refrigerator doors are widely used in supermarkets, convenience food stores, beverage stores and the like for refrigerated display cases and cabinets -from which purchasers may select refrigerated beverages, foods and other products.
  • Such doors are used for both normal temperature and low temperature refrigerated cases and cabinets.
  • Normal temperature applications involve the display of dairy products and the like, slightly above freezing temperatures.
  • Low temperature applica tions involve the display of frozen foods, ice cream and the like, well below freezing temperatures.
  • the present invention relates particularly to refrigerator doors of the type in which the glass panel is mounted in a metal supporting frame.
  • the metal is generally aluminum, although other metals could be employed.
  • the door frame is fabricated from aluminum extrusions.
  • the door is generally mounted in a metal outer frame or casing which usually is arranged to support a plurality of doors, side by side. Each door is normally provided with a gasket to form a seal between the door and the frame.
  • One object of the present invention is to providev a refrigerator door of the foregoing character in which the glass panel and the gasket are mounted on the metal frame of the door in a new and improved manner.
  • a further object is to provide such a new and improved refrigerator door in which the glass panel and the gasket are secured to the metal frame by means of metal molding strips which are fastened directly to the metal frame.
  • Another object is to provide a new and improved refrigerator door of the foregoing character in which the door frame is made of metal extrusions with a hollow core, and in which the metal molding strips close the rear side of the hollow core.
  • a further object is to provide such a refrigerator door in which the metal molding strips are secured directly to the metal extrusions in a new and improved manner, without the aid of a wood core or the like within the extrusions, the need for any such wood core thereby being obviated.
  • Another object is to provide a glass panel refrigerator door having an outer frame or casing of new and improved construction.
  • a further object is to provide such a new and improved refrigerator door in which the outer casing is provided with one or more hollow cores which are closed by readily removable cover plates.
  • a further object is to provide such a refrigerator door in which heating cables are mounted in a new and improved manner within the hollow core of the outer frame, so as to be readily removable and replaceable by removing the metal cover plates.
  • Another object is to provide such a new and improved refrigerator door in which heating cables are mounted in hollow cores or channels in the mullions as well as the border members of the outer frame, such channels being closed by readily removable cover plates made of magnetic material.
  • FIG. 1 is a general perspective view of a refrigerator door assembly to be described as an illustrataive embodiment of the present invention.
  • FIG. 2 is a fragmentary vertical section taken through one of the doors and the outer frame.
  • FIG. 3 is an enlarged cross section taken through the outer frame, and showing the sealing strip for the frame in the condition in which it is shipped from the factory to the point of installation.
  • FIG. 4 is a cross section similar to FIG. 3, but showing the sealing strip after the protective cover portion thereof has been removed, preparatory to final installation of the frame.
  • FIG. 5 is a fragmentary horizontal section taken through the door and the outer frame, the sealing strip for the outer frame being shown in its installed position.
  • FIG. 6 is a fragmentary enlarged section corresponding to a portion of FIG. 5 and taken through the door.
  • FIG. 7 is a fragmentary, somewhat diagrammatic rear elevation of the outer frame for the door assembly.
  • FIG. 1 illustrates a refrigerator door assembly 10, comprising a plurality of doors 12 which are swingably mounted in an outer frame or casing 14.
  • the outer frame 14 is adapted to be mounted within an opening 16 in a wall 18 or the like. It will be understood that the door assembly is adapted to be used on a free standing refrigerated case, or in connection with a built-in cooler or cabinet for refrigerated merchandise.
  • each door 12 comprises a transparent panel 20 made of glass or other suitable transparent material.
  • the panel 20 is mounted in a frame 22, preferably made of aluminum or some other suitable material.
  • the door frame 22 is swingably mounted in the outer casing 14 by means of suitable upper and lower hinges 24 and 26. Appropriate hinges are disclosed and claimed in the previously mentioned Kurowski patents.
  • a suitable handle 28 is also mounted on the door for use in opening the door.
  • a plurality of shelves 30 are mounted behind the doors 12 to support merchandise of various kinds.
  • the merchandise may comprise dairy products or the like in the case of a normal temperature cooler, or frozen food or ice cream in the case of a low temperature cooler.
  • Each door 12 is preferably provided with a gasket or sealing strip 32 to form a seal between the door and the outer frame 14, when the door is closed. It is preferred to employ a gasket of the magnetic type, having magnets 34 therein to hold the door shut and provide firm sealing pressure between the gasket and the outer frame 14.
  • the door frame 22 is preferably fabricated from a plurality of rectangularly related extrusions or other members 36 made of aluminum or some other suitable material. As shown in FIGS. 5 and 6, each extrusion 36 is formed with a hollow core 38.
  • the extrusion has a front wall 40, an outer side wall 42, and an inner side wall 44. The side walls 42 and 44 project rearwardly from the front wall 40.
  • the hollow core 38 is formed by the channel-shaped space bounded by the walls 40, 42 and 44.
  • each extrusion 36 is formed with a panel supporting flange or lip 46 against which the glass panel 20 is mounted.
  • the flange 46 extends inwardly beyond the inner side wall 44 and constitutes an extension of the front wall 40.
  • the glass panel 20 is normally of the insulated type, having a plurality of spaced panes 48.
  • the illustrated panel 20 has three panes, but double and quadruple panes are also well known.
  • Spacers 50 are hermetically sealed between the edges of the panes 48, so that moisture will be excluded from the spaces between panes. The dry air between the panes has a good insulating value.
  • a channel-shaped frame may be provided around the edges of the glass panes 48.
  • a soft sealing strip 54 is preferably mounted between the panel 20 and the flange 46.
  • the sealing strip 54 may be made of plastic, rubber or any other suitable soft material.
  • One or more electrical heating cables 56 are preferably mounted in the hollow core 38 of the door frame 22, to heat the door frame so as to prevent any possible condensation of moisture upon the outer surface of the frame.
  • the frame 22 may be cooled to such an extent by the refrigerator that moisture will be condensed from the atmosphere on the frame, particularly under conditions of high atmospheric humidity.
  • Molding strips 58 are provided to hold the glass panel 20 in the frame 22.
  • the molding strips 58 are preferably in the form of aluminum extrusions.
  • each molding strip 58 has a body portion 60 which is screwed or otherwise secured to the door frame 22.
  • the molding strip 58 has a glass retaining flange 62 which is adapted to project inwardly beyond the inner side wall 44 of the frame extrusion 36.
  • the exact shape of the glass retaining flange 62 depends upon the thickness of the glass panel 20. As shown, the glass retaining flange curves forwardly from the body portion 60 of the molding strip 58.
  • a soft strip or pad 64 is preferably interposed between the glass retaining flange 62 and the glass panel 20.
  • the pad 64 may be made of rubber, plastic or some other suitable soft material.
  • the body portion 60 of the glass retaining strip 58 is preferably screwed or otherwise secured to a flange or lip 66 formed on the inner wall 44 of the frame extrusion 36.
  • the illustrated flange 64 extends generally at right angles to the inner wall 44 and projects toward the outer wall 42.
  • a plurality of self-drilling screws '68 are preferably employed to secure the body portion 60 of the molding strip 58 to the flange 66.
  • the screws 68 extend through the body portion 60 and the flange 66.
  • each screw 68 has a self-drilling point 70, a selftapping screw shank 72, and a flat self-countersinking head 74 which is recessed into the body portion 60.
  • a suitable power tool may be employed to insert the selfdrilling screws 68.
  • a locating groove 76 is preferably formed in the rear side of the flange 66.
  • the illustrated groove 76 is generally V-shaped in cross section. The groove 76 extends along the entire length of the flange 66 and is adapted to locate the self-drilling screws 68 in whatever positions they may be inserted.
  • each strip is preferably provided with a shoulder 78 which is adapted to engage the edge of the flange 66.
  • the body portion 60 of the molding strip 58 has an outer portion 80 of the increased thickness to form the shoulder 78.
  • the illustrated molding strip 58 has an outer flange 82 which projects from the body portion 60 toward the outer side wall 42 of the door extrusion 36.
  • the flange 82 is preferably of reduced thickness relative to the thickened portion 80 and is offset rearwardly relative to the body portion 60.
  • rear retaining flange 84 is preferably formed on the outer side wall 42 to engage the flange 82 of the molding strip 58.
  • the retaining flange 84 projects inwardly, generally at right angles to the outer side wall. It will be seen that the flange 84 is offset rearwardly relative to the rear flange 66 on the inner side wall 44.
  • the molding strip 58 closes the rear side of the hollow core or channel 38 in the door extrusion 36.
  • the gasket 32 is preferably mounted across the rear side of the molding strip 58.
  • the body portion 60 is formed with a flat rear surface 86 against which the gasket 32 is mounted.
  • the illustrated gasket 32 has a flat mounting portion or strip 88 adapted to engage the flat surface 86.
  • a pair of flexible pleats or folds 90 are formed integrally with the flat mounting strip 88 and are adapted to extend between the mounting strip and a tubular outer portion 92, within which the magnets 34 of the gasket 32 are mounted.
  • the molding strip 58 is formed with a flange or lip 94 which is spaced rearwardly from the inner edge of the body portion 60.
  • the lip 94 forms a channel 96 adapted to receive the inner edge of the flat mounting strip 88. It will be understood that the flat mounting strip 88 of the gasket 32 fits snugly within the channel 96.
  • a second molding strip 98 is preferably provided to clamp the gasket 32 against the molding strip 58, while also clamping the outer flange 82 of the molding strip 58 against the retaining flange 84 on the door extrusion 36.
  • the molding strip 98 is screwed or otherwise secured to the molding strip 58.
  • the second molding strip 98 is preferably in the form of an extrusion made of aluminum or other suitable material.
  • the illustrated molding strip 98 has an outer gasket retaining flange 100, adapted to clamp the outer edge of the gasket mounting strip 88 against the body portion 60 of the molding strip 58.
  • the flange 100 has a pointed lip or edge 102 which is turned inwardly and is adapted to bite into the mounting portion 88 of the gasket, so as to prevent any possible dislodgement of the gasket.
  • the illustrated molding strip 98 has an outer flange 104 adapted to engage the retaining flange 84 on the outer side wall 42 of the door extrusion 36.
  • the flange 104 projects forwardly beyond the flange 100.
  • the molding strip 98 has a body portion 106 between the flanges 100 and 104. It is preferred to employ selfdrilling screws 108 to secure the molding strip 98 to the molding strip 58.
  • the construction of the screws 108 may be the same as that of the screws 68. It will be seen that the screws 108 extend through the body portion 106 of the molding strip 98, and the outer flange 82 of the molding strip 58. The screws 108 are tapped into the flange 82. The tapering heads of the screws are rcessed into the molding strip 98 so as to be flush with the body portion 106.
  • the screws 108 clamp the flange 100 against the mounting portion 88 of the gasket 32.
  • the screws clamp the'outer flange 82 of the molding strip 58 against the retaining flange 84 on the outer side wall 42 of the door extrusion 36.
  • the screws 108 clamp the outer flange 104 of the molding strip 98 against the rear side of the retaining flange 84.
  • the retaining flange 84 is formed with a rearwardly turned lip 110 which is adapted to be engaged by a shoulder 112, formed on the molding strip 98 between the flange 104 and the body 106.
  • the molding strip 98 is formed with a locating flange or leg 114 which projects forwardly from the body portion 106 and is adapted to engage the rear side of the flange 82 of the molding strip 58.
  • a shoulder 116 is formed between the flange 82 and the body portion 60 of the strip 58 to engage and locate the flange 114. It will be understood that the flange or leg 114 limits the extent to which the gasket mounting member 88 may be compressed by tightening the screws 108.
  • the illustrated molding strip 98 has a curved contour 118 on the outside of the flange 104 to form a smoothly rounded corner at the rear of the outer side wall 42.
  • the flange 100 has a smoothly rounded contour 120.
  • the lip or flange 94 also has a smoothly rounded outer contour 122.
  • the outer frame or casing 14 is generally rectangular and preferably comprises a plurality of rectangularly related border members 124.
  • a plurality of vertical mullions 126 are connected between the upper and lower border members to provide for the mounting of a plurality of doors on the outer frame 14.
  • the mullions 126 are mounted at regular intervals, corresponding to the width of the doors.
  • each extrusion 124 is preferably in the form of extrusions made of aluminum or some other suitable material.
  • the illustrated border members or extrusions 124 are generally Z-shaped in cross section.
  • each extrusion 124 comprises a front or outer flange 128, a rear or inner flange 130, and a web or body 132 extending therebetween.
  • the front and rear flanges 128 and 130 project in opposite directions, generally at right angles to the web 132.
  • the doors 12 When the doors 12 are closed, they are recessed into the frame 14 so as to be generally flush with the front flanges 128 of the border members 124.
  • the rear flanges 6 serve as stops for the doors 12, as do the mullions 126.
  • each border member 124 is preferably hollow in construction and thus has a hollow core. As illustrated, the rear flange 130 is formed with two channels 134 and 136 which are adapted to receive one or more electrical heating cables 138. In the illustrated construction, there are two of the heating cables 138 in the channel 134. The heating cables 138 are employed to warm the border members 124 to such an extent as to avoid any condensation of moisture on the border members.
  • Each rear flange 130 is provided with a cover plate 140 to close the channels 134 and 136.
  • the plate 140 is screwed or otherwise removably secured to the rear flange 130.
  • the illustrated plate 140 is secured to the flange 130 by means of a plurality of self-tapping screws 142 which are tapped into suitable channels 143 in the flange 130.
  • the flange 130 has a mid portion 144, between the channels 134 and 136.
  • the screws 142 extend through holes in the mid portion of the plate 140 and are tapped into the channels 143 which are formed in the mid portion 144 of the flange 130.
  • the covering plate 140 spans the open front sides of both of the channels 134 and 136.
  • a recess 146 is preferably formed in the front side of the flange 130, to receive the cover plate 140, so that the cover plate will be flush with the front side of the flange.
  • heating cables 138 may burn out after extended service.
  • the heating cables may easily be removed and replaced by removing the cover plate 140. This may be done simply by removing the screws 142.
  • the cover plates 140 also preferably serve as magnetic members to attract the magnets 134 of the magnetic gaskets 132.
  • the cover plates 140 are preferably made of magnetic stainless steel, or other suitable magnetic material. It will be seen from FIG. 5 that the gaskets 132 are adapted to engage the cover plates 140. The magnets 134 provide firm pressure between the gaskets 132 and the cover plates 140.
  • the outer frame 14 is normally mounted within an opening 16 in the front wall 18 of the refrigeratorgcase or cabinet.
  • a sealing strip 148 is preferably provided between the outer frame 14 and the wall 18.
  • the sealing strip 148 is normally made of plastic, rubber or other soft material.
  • the sealing strip 148 is generally Z-shaped, to cover virtually the entire rear surface .of the Z-shaped border extrusion 124.
  • the sealing strip 148 has a front flange 150, a rear flange 152, and a web or body 154, extending the-rebetween.
  • the front flange 150 ' is adapted to be interposed between the wall 18 and the front flange 128 of the border extrusion 124.
  • the rear side of the front flange 150 is preferably formed with "a plurality of sealing lips or flaps 156, adapted to engage the wall 18.
  • the rear flange 152 covers the rear side of the rear flange 130 on the extrusion 124.
  • the web 154 covers the outside of the web 132 and is adapted to be interposed between the web 132 and the wall 18.
  • an L-shaped lip or flange 158 is preferably formed on the rear inner corner of the rear flange 130.
  • the lip 158 forms a channel 160 adapted to receive a reduced edge portion 162 on the rear flange 152 of the sealing strip 148.
  • the lip 158 is preferably struck inwardly at intervals to form spaced points 164 which dig into the sealing strip and prevent it from becoming detached from the flange 130.
  • a key or tongue 166 is preferably formed on the inner side of the web 154 of the sealing strip 148, for reception in a groove or channel 168, formed in the outer side of the flange 130, near the rear corner thereof.
  • the key 166 interlocks with the groove 168 to assist in retaining 7 the sealing strip 148 on the extrusion 124. It will be seen that the key 166 and the groove 168 are of dovetail shape, to provide secure interlocking therebetween.
  • the sealing strip 148 is preferably formed with an additional flange 170 which is attached to the front flange 150 and is adapted to be wrapped around the front of the front flange 128 on the extrusion 124, as shown in FIG. 3.
  • the flange 170 is generally J-shaped in cross section.
  • the wrap-around flange 170 protects the outer edge and front surface of the extrusion 124 during the shipment and handling of the outer frame 14.
  • the wrap-around flange 170 is torn or ripped off the front flange 150, as shown in FIG. 4.
  • a deep groove 172 is formed between the flange 170 of the outer edge of the front flange 150. It will be understood that the flange 170 is torn off along the groove 172. The provision of the groove 172 leaves only a thin web 174 which offers little resistance to the removal of the flange 170.
  • the web or body portion 154 of the sealing strip is preferably formed with a dog-leg portion 176 which acts as a spring.
  • the dog-leg portion 176 is initially L-shaped in cross section, as shown in FIG. 3. It will be understood that the dogleg portion 176 can be straightened to facilitate the mounting of the flange 17 around the front flange 128 of the extrusion 124. The spring action of the dog-leg portion 176 then retains the flange 170 on the extrusion flange 128.
  • the flange 170 is torn off, whereupon the sealing strip 154 assumes the position shown in FIG. 4, with the dog-leg portion 176 in its initial or L-shaped position.
  • the frame 14 is inserted into the opening 16 and is pushed rearwardly so that the front flange 150 of the sealing strip 148 is compressed between the wall 18 and the front flange 128 of the extrusion 124.
  • the dog-leg 176 is straightened out, as shown to best advantage in FIG. 5.
  • the front flange 128 is formed with ridges 177 for engaging the sealing strip 148.
  • Each of the illustrated mullions 126 is generally channel-shaped and thus comprises a front wall 180 and a pair of rearwardly projecting flanges or side walls 182.
  • the front wall 180 is preferably formed with one or more grooves or channels 184 to receive electrical heating cables 186. Two such cables 186 are illustrated. It will be understood that the cables 186 heat the mullions 126 to a suflicient extent to prevent condensation of moisture on the mullions.
  • the channels 184 for the heating cables are closed by a removable cover plate 188 which is screwed or otherwise secured to the front wall 180 of the mullion 126.
  • a plurality of self-tapping screws 190 extend through holes in the plate 188 and are tapped into channels 191 in the mullion 126.
  • the cover plates 188 on the mullions 126 also preferably serve as magnetic armatures for the magnetic gaskets 132.
  • the cover plates 188 are preferably made of a stainless steel having magnetic characteristics or some other suitable magnetic material.
  • each mullion 126 is preferably covered with cover strips 192, made of plastic, rubber or other suitable material. As shown in FIG. 5, each mullion 126 is preferably equipped with two of the strips 192, each of which covers one side flange 182 and the adjacent portion of the front wall 180.
  • each of the illustrated cover strips 192 is generally L-shaped in cross section and is provided with a front leg 194 and a side leg 196. Means are preferably provided for securely fastening the cover strips 192 to the mullion 126.
  • a generally L-shaped lip or flange 198 is formed on each of the rearwardly projecting flanges 182 of the mullion 126.
  • Each lip 198 forms a channel or groove 200, adapted to receive a reduced edge portion or flange 202 on the corresponding cover strip 192.
  • the lip 198 may be bent inwardly against the flange 202 at intervals along the length of the mullion, so that the flange 202 will be securely clamped in place.
  • the illustrated mullion 126 is formed with L-shaped flanges or lips 204 to retain reduced edge portions or flanges 206 on the front legs 194 of the cover strips 192.
  • Each lip 204 forms a channel or groove 208' adapted to receive the reduced edge portion 206.
  • the lip 204 may be bent rearwardly at intervals so as to clamp the reduced edge portion 206 in place.
  • the cover strips 192 are formed with recesses 210 to receive the magnetic cover plate 188.
  • the front legs 194 of the cover strips 126 are clamped against the mullion 126 by the cover plate 188.
  • Each mullion 126 is hollow, in that a channel-shaped opening 212 is formed therein.
  • the mullions may be employed very advantageously as raceways or conduits for electrical wiring.
  • the rear side of each mullion 126 is preferably closed by a removable plate 214 which conceals the electrical wiring and also acts as a mounting plate for one or more electrical lighting fixtures 216. Electrical wiring may be installed in the mullions to supply electricity to the electric lighting fixtures 216 and also to the heating cables 186.
  • a channel-shaped raceway 218 is preferably mounted on the rear side of the upper horizontal frame member or extrusion 124. Suitable bolts or screws 220 may be employed to secure the raceway 218 to the rear flange of the outer frame extrusion 124. Interconnecting openings may be provided between the raceway 218 and the upper ends of the channels 212 in the mullions 126. Thus, wiring may be brought into the mullions through the raceway 218.
  • flexible electrical cords 222 are preferably employed to supply electrical energy to the doors 12, to energize the heating cables 56 therein.
  • the cords 222 extend into the upper horizontal extrusions 36 of the doors 12 and are connected to the heating cables 56 therein.
  • the other end of each word 222 is preferably provided with a plug 224 adapted to be inserted into a suitable receptacle 226 on the upper horizontal raceway 218.
  • Suitable wiring may be provided in the raceway 218 to supply electrical energy to the various receptacles 226. It will be understood that the cords 222 are long enough to provide for free opening of the doors 12.
  • the protective flanges 170 are provided on the insulating and sealing strip 148, as shown in FIG. 3.
  • the dog-leg portion 176 provides a spring action which retains the protective flange 170 on the front flange 128 of the outer frame extrusion 124.
  • the outer frame 14 is inserted loosely into the opening 16, and then the protective flange 170 is torn off along the groove 172, as shown in FIG. 4.
  • the outer frame 14 is then securely pressed against the wall 18, as shown in FIG. 5, so as to straighten out the dog-leg portion 176.
  • the flaps or lips 156 form a tight seal against the wall 18.
  • the gaskets 32 are securely retained on the doors by the lips 94 on the glass molding strips 58, and also by the flanges 100 on the outer molding strips 98.
  • the heating cables 138 in the outer frame 14 may burn out, in which case it is necessary to change the heating cables. This may be done very easily by removing the cover plates 140 from the rear flanges 130 of the outer frame extrusions 124. It is a simple matter to remove the cover plates 140, by unscrewing the screws 142.
  • the heating cables 1-86 in the mullions 126 may be changed very easily by unscrewing the screws 190 and removing the cover plates 188. It will be evident that full access to the heating cables 138 and 186 is available from the front of the outer frame 14. It is never necessary to remove the outer frame 14 from the wall opening 16 to change the heating cables. It is only necessary to remove the magnetic stainless steel cover plates 140 and 188, which is an easy operation.
  • screws 68 may be unscrewed to remove the glass molding strips 58. Full access may then be had to the heating cables 56 within the hollow cores 38 of the door extrusions 36.
  • the refrigerator door assembly is easy to install for also easy to service in the field.
  • the door assembly is ruggedly built so that it will withstand hard service and give a long trouble-free life.
  • Various other modifications, alternative constructions, and quivalents may be employed without departing from the true spirit and scope of the invention.
  • a refrigerator door mounting frame comprising the combination of a plurality of rectangularly related mounting frame members made of a non-magnetic metal material,
  • each of said members being generally Z-shaped in cross-section and having a front flange projecting outwardly
  • said rear flange having a forwardly opening channel formed therein, an electrical heating cable mounted in said channel, a cover plate closing the front side of said channel and mounted on the front side of said rear flange,
  • said cover plate being made of a corrosion-resistant magnetic metal material to provide a magnetic armature for magnetic door gaskets
  • cover plate is made of magnetic stainless steel material to provide a magnetic armature for magnetic door gaskets.
  • said mullion being made of a non-magnetic metal material
  • said mullion having a forwardly opening channel formed therein
  • a second cover plate mounted on the front of said mullion and covering said channel
  • said second cover plate being made of a corrosionresistant magnetic metal material to provide a magnetic armature for magnetic door gaskets
  • said cover strip having a portion retained between said mullion and said second cover plate.
  • said second cover plate is made of magnetic stainless steel material to provide a magnetic armature for door gaskets.
  • said frame members and said mullion being made of non-magnetic metal material
  • each frame member having a door stop flange thereon
  • cover plates closing the front sides of said channels and mounted on the front sides of said flanges and said mullions
  • cover plates being made of a corrosion-resistant magnetic metal material to provide magnetic armatures for magnetic door gaskets
  • cover plates are made of magnetic stainless steel material to provide armatures for magnetic door gaskets.
  • said frame members being made of a non-magnetic metal material
  • said door step members having forwardly opening channels therein
  • cover plates closing the front sides of said channels and mounted on the front sides of said floor stop members
  • cover plates being made of a corrosion-resistant magnetic metal material to provide magnetic armatures for magnetic door gaskets
  • each of said members being generally Z-shaped in cross section and having a body portion with a front flange projecting outwardly therefrom and a rear flange projecting inwardly therefrom,
  • an insulating cover strip having a rear portion for covering the rear side of said rear flange
  • said cover strip being formed with a groove between said wrap-around flange and said front portion to provide for easy tearing of said wrap-around flange from said front portion during the installation of said frame.
  • said means on said rear flange comprises a lip for clamping the rear portion of said strip.
  • said intermediate portion of said strip being formed with a tongue retained in said groove.
  • said intermediate portion of said strip includes an angular spring member for resiliently pulling said wrap-around flange against said front flange.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Refrigerator Housings (AREA)

Description

March 10, 1970 R.- J. wlNsLER ET vAL 3,499,245
GLASS PANEL REFRIGERATOR DOOR AND FRAME Filed Jan. 23, 1967 3 Sheets-Sheet 1 V k 124 l6 f I (1 FIG 2 N V E N TOPS Robert J Wmslel" Fred 3 Ric/7 fer March 10; 1970 R. J. WINSLER E L 3,499,245
GLASS PANEL REFRIGERATOR DOOR AND FRAME s Sheets-Sheet Filed Jan. 23, 1967 BIG. 4
0 8 W 5 5% x 6 B 2 4 4 w W M m o\ w a E 1 4! w 2 n/ w 1 w M a m (w. 2 4 2 w T B 8 mwwm I l Il 'll'hl March 10, 1970 J. wlNsL ETAL 3,499,245
GLASS PANEL REFRIGERATOR DOOR AND FRAME Filed Jan. 23, 1967 3 Sheets-Sheet 5 United States Patent f US. Cl. 4970 13 Claims ABSTRACT OF THE DISCLOSURE A glass panel refrigerator door having a glass molding secured by screws to a flange on the door frame, a magnetic gasket mounted on the glass molding, and a gasket molding retaining the gasket on the glass molding and screwed to the glass molding while also clamping the glass molding under another flange on the door frame; the door being mounted in a frame having a removable magnetic armature plate for cooperating with the magnetic gasket, heater cables being positioned in channels closed by the magnetic plate; the frame having a sealing strip with a dog-leg resilient retaining portion and a rip-off flange.
This invention relates to glass panel refrigerator doors of the general type represented by the Kurowski Patents, No. 2,987,782, patented June 13, 1961, and 3,131,421, patented May 5, 1964. Such refrigerator doors are widely used in supermarkets, convenience food stores, beverage stores and the like for refrigerated display cases and cabinets -from which purchasers may select refrigerated beverages, foods and other products. Such doors are used for both normal temperature and low temperature refrigerated cases and cabinets. Normal temperature applications involve the display of dairy products and the like, slightly above freezing temperatures. Low temperature applica tions involve the display of frozen foods, ice cream and the like, well below freezing temperatures.
The present invention relates particularly to refrigerator doors of the type in which the glass panel is mounted in a metal supporting frame. The metal is generally aluminum, although other metals could be employed. Generally, the door frame is fabricated from aluminum extrusions. The door is generally mounted in a metal outer frame or casing which usually is arranged to support a plurality of doors, side by side. Each door is normally provided with a gasket to form a seal between the door and the frame.
One object of the present invention is to providev a refrigerator door of the foregoing character in which the glass panel and the gasket are mounted on the metal frame of the door in a new and improved manner.
A further object is to provide such a new and improved refrigerator door in which the glass panel and the gasket are secured to the metal frame by means of metal molding strips which are fastened directly to the metal frame.
It is a further object to provide a new and improved refrigerator door of the foregoing character which employs a first set of metal molding strips which are screwed or otherwise secured directly to the metal frame and which support the gasket as well as securing the glass panel in the frame; and a second set of metal molding strips which 3,499,245 Patented Mar. 10, 1970 are screwed or otherwise secured to the first molding strips and have a clamping action between the gasket and the frame, so as to clamp the gasket against the first molding strips, while clamping the first molding strips against the frame.
Another object is to provide a new and improved refrigerator door of the foregoing character in which the door frame is made of metal extrusions with a hollow core, and in which the metal molding strips close the rear side of the hollow core.
A further object is to provide such a refrigerator door in which the metal molding strips are secured directly to the metal extrusions in a new and improved manner, without the aid of a wood core or the like within the extrusions, the need for any such wood core thereby being obviated.
Another object is to provide a glass panel refrigerator door having an outer frame or casing of new and improved construction.
A further object is to provide such a new and improved refrigerator door in which the outer casing is provided with one or more hollow cores which are closed by readily removable cover plates.
A further object is to provide such a refrigerator door in which heating cables are mounted in a new and improved manner within the hollow core of the outer frame, so as to be readily removable and replaceable by removing the metal cover plates.
It is a further object to provide such a new and improved door in which the metal cover plates on the outer frame are made of magnetic stainless steel or other magnetic material, for cooperation with gaskets of the magnetic type on the doors.
Another object is to provide such a new and improved refrigerator door in which heating cables are mounted in hollow cores or channels in the mullions as well as the border members of the outer frame, such channels being closed by readily removable cover plates made of magnetic material.
Further objects and advantages of the present invention will appear from the following description, taken with the accompanying drawings, in which:
FIG. 1 is a general perspective view of a refrigerator door assembly to be described as an illustrataive embodiment of the present invention.
FIG. 2 is a fragmentary vertical section taken through one of the doors and the outer frame.
FIG. 3 is an enlarged cross section taken through the outer frame, and showing the sealing strip for the frame in the condition in which it is shipped from the factory to the point of installation.
FIG. 4 is a cross section similar to FIG. 3, but showing the sealing strip after the protective cover portion thereof has been removed, preparatory to final installation of the frame.
FIG. 5 is a fragmentary horizontal section taken through the door and the outer frame, the sealing strip for the outer frame being shown in its installed position.
FIG. 6 is a fragmentary enlarged section corresponding to a portion of FIG. 5 and taken through the door.
FIG. 7 is a fragmentary, somewhat diagrammatic rear elevation of the outer frame for the door assembly.
As already indicated, FIG. 1 illustrates a refrigerator door assembly 10, comprising a plurality of doors 12 which are swingably mounted in an outer frame or casing 14. As shown to best advantage in FIGS. 2 and 5, the outer frame 14 is adapted to be mounted within an opening 16 in a wall 18 or the like. It will be understood that the door assembly is adapted to be used on a free standing refrigerated case, or in connection with a built-in cooler or cabinet for refrigerated merchandise.
It will be seen that each door 12 comprises a transparent panel 20 made of glass or other suitable transparent material. The panel 20 is mounted in a frame 22, preferably made of aluminum or some other suitable material. The door frame 22 is swingably mounted in the outer casing 14 by means of suitable upper and lower hinges 24 and 26. Appropriate hinges are disclosed and claimed in the previously mentioned Kurowski patents. A suitable handle 28 is also mounted on the door for use in opening the door.
In the usual case, a plurality of shelves 30 are mounted behind the doors 12 to support merchandise of various kinds. The merchandise may comprise dairy products or the like in the case of a normal temperature cooler, or frozen food or ice cream in the case of a low temperature cooler.
Each door 12 is preferably provided with a gasket or sealing strip 32 to form a seal between the door and the outer frame 14, when the door is closed. It is preferred to employ a gasket of the magnetic type, having magnets 34 therein to hold the door shut and provide firm sealing pressure between the gasket and the outer frame 14.
The door frame 22 is preferably fabricated from a plurality of rectangularly related extrusions or other members 36 made of aluminum or some other suitable material. As shown in FIGS. 5 and 6, each extrusion 36 is formed with a hollow core 38. The extrusion has a front wall 40, an outer side wall 42, and an inner side wall 44. The side walls 42 and 44 project rearwardly from the front wall 40. The hollow core 38 is formed by the channel-shaped space bounded by the walls 40, 42 and 44.
The glass panel 20 is mounted in the door frame 22, within the space bounded by the inner side walls 44 of the extrusions 36. As shown, each extrusion 36 is formed with a panel supporting flange or lip 46 against which the glass panel 20 is mounted. The flange 46 extends inwardly beyond the inner side wall 44 and constitutes an extension of the front wall 40.
The glass panel 20 is normally of the insulated type, having a plurality of spaced panes 48. The illustrated panel 20 has three panes, but double and quadruple panes are also well known. Spacers 50 are hermetically sealed between the edges of the panes 48, so that moisture will be excluded from the spaces between panes. The dry air between the panes has a good insulating value.
As shown, a channel-shaped frame may be provided around the edges of the glass panes 48. A soft sealing strip 54 is preferably mounted between the panel 20 and the flange 46. The sealing strip 54 may be made of plastic, rubber or any other suitable soft material.
One or more electrical heating cables 56 are preferably mounted in the hollow core 38 of the door frame 22, to heat the door frame so as to prevent any possible condensation of moisture upon the outer surface of the frame. In the absence of any such heating cable, the frame 22 may be cooled to such an extent by the refrigerator that moisture will be condensed from the atmosphere on the frame, particularly under conditions of high atmospheric humidity.
Molding strips 58, preferably made of aluminum or other suitable metal, are provided to hold the glass panel 20 in the frame 22. The molding strips 58 are preferably in the form of aluminum extrusions. As shown to best advantage in FIGS. 5 and 6, each molding strip 58 has a body portion 60 which is screwed or otherwise secured to the door frame 22. The molding strip 58 has a glass retaining flange 62 which is adapted to project inwardly beyond the inner side wall 44 of the frame extrusion 36. The exact shape of the glass retaining flange 62 depends upon the thickness of the glass panel 20. As shown, the glass retaining flange curves forwardly from the body portion 60 of the molding strip 58.
A soft strip or pad 64 is preferably interposed between the glass retaining flange 62 and the glass panel 20. The pad 64 may be made of rubber, plastic or some other suitable soft material.
The body portion 60 of the glass retaining strip 58 is preferably screwed or otherwise secured to a flange or lip 66 formed on the inner wall 44 of the frame extrusion 36. The illustrated flange 64 extends generally at right angles to the inner wall 44 and projects toward the outer wall 42.
A plurality of self-drilling screws '68 are preferably employed to secure the body portion 60 of the molding strip 58 to the flange 66. The screws 68 extend through the body portion 60 and the flange 66. It will be seen that each screw 68 has a self-drilling point 70, a selftapping screw shank 72, and a flat self-countersinking head 74 which is recessed into the body portion 60. A suitable power tool may be employed to insert the selfdrilling screws 68. To facilitate the accurate location of the screws 68, a locating groove 76 is preferably formed in the rear side of the flange 66. The illustrated groove 76 is generally V-shaped in cross section. The groove 76 extends along the entire length of the flange 66 and is adapted to locate the self-drilling screws 68 in whatever positions they may be inserted.
To provide further assistance in locating the panel molding strips 58, each strip is preferably provided with a shoulder 78 which is adapted to engage the edge of the flange 66. The body portion 60 of the molding strip 58 has an outer portion 80 of the increased thickness to form the shoulder 78.
The illustrated molding strip 58 has an outer flange 82 which projects from the body portion 60 toward the outer side wall 42 of the door extrusion 36. The flange 82 is preferably of reduced thickness relative to the thickened portion 80 and is offset rearwardly relative to the body portion 60.
After rear retaining flange 84 is preferably formed on the outer side wall 42 to engage the flange 82 of the molding strip 58. The retaining flange 84 projects inwardly, generally at right angles to the outer side wall. It will be seen that the flange 84 is offset rearwardly relative to the rear flange 66 on the inner side wall 44.
In addition to retaining the glass panel 20, it will be seen that the molding strip 58 closes the rear side of the hollow core or channel 38 in the door extrusion 36. Moreover, the gasket 32 is preferably mounted across the rear side of the molding strip 58. Thus, the body portion 60 is formed with a flat rear surface 86 against which the gasket 32 is mounted. The illustrated gasket 32 has a flat mounting portion or strip 88 adapted to engage the flat surface 86. A pair of flexible pleats or folds 90 are formed integrally with the flat mounting strip 88 and are adapted to extend between the mounting strip and a tubular outer portion 92, within which the magnets 34 of the gasket 32 are mounted.
To retain the gasket 32, the molding strip 58 is formed with a flange or lip 94 which is spaced rearwardly from the inner edge of the body portion 60. The lip 94 forms a channel 96 adapted to receive the inner edge of the flat mounting strip 88. It will be understood that the flat mounting strip 88 of the gasket 32 fits snugly within the channel 96.
A second molding strip 98 is preferably provided to clamp the gasket 32 against the molding strip 58, while also clamping the outer flange 82 of the molding strip 58 against the retaining flange 84 on the door extrusion 36.
Preferably, the molding strip 98 is screwed or otherwise secured to the molding strip 58. The second molding strip 98 is preferably in the form of an extrusion made of aluminum or other suitable material.
The illustrated molding strip 98 has an outer gasket retaining flange 100, adapted to clamp the outer edge of the gasket mounting strip 88 against the body portion 60 of the molding strip 58. The flange 100 has a pointed lip or edge 102 which is turned inwardly and is adapted to bite into the mounting portion 88 of the gasket, so as to prevent any possible dislodgement of the gasket.
The illustrated molding strip 98 has an outer flange 104 adapted to engage the retaining flange 84 on the outer side wall 42 of the door extrusion 36. The flange 104 projects forwardly beyond the flange 100.
The molding strip 98 has a body portion 106 between the flanges 100 and 104. It is preferred to employ selfdrilling screws 108 to secure the molding strip 98 to the molding strip 58. The construction of the screws 108 may be the same as that of the screws 68. It will be seen that the screws 108 extend through the body portion 106 of the molding strip 98, and the outer flange 82 of the molding strip 58. The screws 108 are tapped into the flange 82. The tapering heads of the screws are rcessed into the molding strip 98 so as to be flush with the body portion 106.
It will be understood that the screws 108 clamp the flange 100 against the mounting portion 88 of the gasket 32. At the same time, the screws clamp the'outer flange 82 of the molding strip 58 against the retaining flange 84 on the outer side wall 42 of the door extrusion 36. Moreover, the screws 108 clamp the outer flange 104 of the molding strip 98 against the rear side of the retaining flange 84.
To assist in locating the molding strip 98, the retaining flange 84 is formed with a rearwardly turned lip 110 which is adapted to be engaged by a shoulder 112, formed on the molding strip 98 between the flange 104 and the body 106. In addition, the molding strip 98 is formed with a locating flange or leg 114 which projects forwardly from the body portion 106 and is adapted to engage the rear side of the flange 82 of the molding strip 58. A shoulder 116 is formed between the flange 82 and the body portion 60 of the strip 58 to engage and locate the flange 114. It will be understood that the flange or leg 114 limits the extent to which the gasket mounting member 88 may be compressed by tightening the screws 108.
The illustrated molding strip 98 has a curved contour 118 on the outside of the flange 104 to form a smoothly rounded corner at the rear of the outer side wall 42. Similarly, the flange 100 has a smoothly rounded contour 120. The lip or flange 94 also has a smoothly rounded outer contour 122.
The outer frame or casing 14 is generally rectangular and preferably comprises a plurality of rectangularly related border members 124. A plurality of vertical mullions 126 are connected between the upper and lower border members to provide for the mounting of a plurality of doors on the outer frame 14. The mullions 126 are mounted at regular intervals, corresponding to the width of the doors.
As shown to best advantage in FIGS. 2 and 5, the border members 124 are preferably in the form of extrusions made of aluminum or some other suitable material. The illustrated border members or extrusions 124 are generally Z-shaped in cross section. Thus, each extrusion 124 comprises a front or outer flange 128, a rear or inner flange 130, and a web or body 132 extending therebetween. The front and rear flanges 128 and 130 project in opposite directions, generally at right angles to the web 132.
When the doors 12 are closed, they are recessed into the frame 14 so as to be generally flush with the front flanges 128 of the border members 124. The rear flanges 6 serve as stops for the doors 12, as do the mullions 126.
The rear flange 130 of each border member 124 is preferably hollow in construction and thus has a hollow core. As illustrated, the rear flange 130 is formed with two channels 134 and 136 which are adapted to receive one or more electrical heating cables 138. In the illustrated construction, there are two of the heating cables 138 in the channel 134. The heating cables 138 are employed to warm the border members 124 to such an extent as to avoid any condensation of moisture on the border members.
Each rear flange 130 is provided with a cover plate 140 to close the channels 134 and 136. The plate 140 is screwed or otherwise removably secured to the rear flange 130. Thus, the illustrated plate 140 is secured to the flange 130 by means of a plurality of self-tapping screws 142 which are tapped into suitable channels 143 in the flange 130. It will be seen that the flange 130 has a mid portion 144, between the channels 134 and 136. The screws 142 extend through holes in the mid portion of the plate 140 and are tapped into the channels 143 which are formed in the mid portion 144 of the flange 130.
The covering plate 140 spans the open front sides of both of the channels 134 and 136. A recess 146 is preferably formed in the front side of the flange 130, to receive the cover plate 140, so that the cover plate will be flush with the front side of the flange.
Occasionally, it may be necessary to replace the heating cables 138, which may burn out after extended service. The heating cables may easily be removed and replaced by removing the cover plate 140. This may be done simply by removing the screws 142.
The cover plates 140 also preferably serve as magnetic members to attract the magnets 134 of the magnetic gaskets 132. Thus, the cover plates 140 are preferably made of magnetic stainless steel, or other suitable magnetic material. It will be seen from FIG. 5 that the gaskets 132 are adapted to engage the cover plates 140. The magnets 134 provide firm pressure between the gaskets 132 and the cover plates 140.
As already indicated, the outer frame 14 is normally mounted within an opening 16 in the front wall 18 of the refrigeratorgcase or cabinet. A sealing strip 148 is preferably provided between the outer frame 14 and the wall 18. The sealing strip 148 is normally made of plastic, rubber or other soft material. As shown, the sealing strip 148 is generally Z-shaped, to cover virtually the entire rear surface .of the Z-shaped border extrusion 124. Thus, the sealing strip 148 has a front flange 150, a rear flange 152, and a web or body 154, extending the-rebetween. The front flange 150 'is adapted to be interposed between the wall 18 and the front flange 128 of the border extrusion 124. The rear side of the front flange 150 is preferably formed with "a plurality of sealing lips or flaps 156, adapted to engage the wall 18.
The rear flange 152 covers the rear side of the rear flange 130 on the extrusion 124. Similarly, the web 154 covers the outside of the web 132 and is adapted to be interposed between the web 132 and the wall 18.
To retain the sealing strip 148, an L-shaped lip or flange 158 is preferably formed on the rear inner corner of the rear flange 130. The lip 158 forms a channel 160 adapted to receive a reduced edge portion 162 on the rear flange 152 of the sealing strip 148. After the reduced portion 162 of the sealing strip 148 has been inserted into the channel 160, the lip 158 is preferably struck inwardly at intervals to form spaced points 164 which dig into the sealing strip and prevent it from becoming detached from the flange 130.
A key or tongue 166 is preferably formed on the inner side of the web 154 of the sealing strip 148, for reception in a groove or channel 168, formed in the outer side of the flange 130, near the rear corner thereof. The key 166 interlocks with the groove 168 to assist in retaining 7 the sealing strip 148 on the extrusion 124. It will be seen that the key 166 and the groove 168 are of dovetail shape, to provide secure interlocking therebetween.
Initially, the sealing strip 148 is preferably formed with an additional flange 170 which is attached to the front flange 150 and is adapted to be wrapped around the front of the front flange 128 on the extrusion 124, as shown in FIG. 3. It will be seen that the flange 170 is generally J-shaped in cross section. The wrap-around flange 170 protects the outer edge and front surface of the extrusion 124 during the shipment and handling of the outer frame 14. When the outer frame 14 is ready to be installed, the wrap-around flange 170 is torn or ripped off the front flange 150, as shown in FIG. 4. To facilitate the removal of the flange 170, a deep groove 172 is formed between the flange 170 of the outer edge of the front flange 150. It will be understood that the flange 170 is torn off along the groove 172. The provision of the groove 172 leaves only a thin web 174 which offers little resistance to the removal of the flange 170.
To assist in retaining the sealing strip 148' on the extrusion 124 during shipment and handling, the web or body portion 154 of the sealing strip is preferably formed with a dog-leg portion 176 which acts as a spring. The dog-leg portion 176 is initially L-shaped in cross section, as shown in FIG. 3. It will be understood that the dogleg portion 176 can be straightened to facilitate the mounting of the flange 17 around the front flange 128 of the extrusion 124. The spring action of the dog-leg portion 176 then retains the flange 170 on the extrusion flange 128.
When the outer frame 14 is installed, the flange 170 is torn off, whereupon the sealing strip 154 assumes the position shown in FIG. 4, with the dog-leg portion 176 in its initial or L-shaped position. The frame 14 is inserted into the opening 16 and is pushed rearwardly so that the front flange 150 of the sealing strip 148 is compressed between the wall 18 and the front flange 128 of the extrusion 124. As a result, the dog-leg 176 is straightened out, as shown to best advantage in FIG. 5. The front flange 128 is formed with ridges 177 for engaging the sealing strip 148.
Each of the illustrated mullions 126 is generally channel-shaped and thus comprises a front wall 180 and a pair of rearwardly projecting flanges or side walls 182. The front wall 180 is preferably formed with one or more grooves or channels 184 to receive electrical heating cables 186. Two such cables 186 are illustrated. It will be understood that the cables 186 heat the mullions 126 to a suflicient extent to prevent condensation of moisture on the mullions.
The channels 184 for the heating cables are closed by a removable cover plate 188 which is screwed or otherwise secured to the front wall 180 of the mullion 126. In this case, a plurality of self-tapping screws 190 extend through holes in the plate 188 and are tapped into channels 191 in the mullion 126.
The cover plates 188 on the mullions 126 also preferably serve as magnetic armatures for the magnetic gaskets 132. Thus, the cover plates 188 are preferably made of a stainless steel having magnetic characteristics or some other suitable magnetic material.
To provide heat insulation, the side flanges 182 and portions of the front wall 180 of each mullion 126 are preferably covered with cover strips 192, made of plastic, rubber or other suitable material. As shown in FIG. 5, each mullion 126 is preferably equipped with two of the strips 192, each of which covers one side flange 182 and the adjacent portion of the front wall 180.
Thus, each of the illustrated cover strips 192 is generally L-shaped in cross section and is provided with a front leg 194 and a side leg 196. Means are preferably provided for securely fastening the cover strips 192 to the mullion 126. As shown, a generally L-shaped lip or flange 198 is formed on each of the rearwardly projecting flanges 182 of the mullion 126. Each lip 198 forms a channel or groove 200, adapted to receive a reduced edge portion or flange 202 on the corresponding cover strip 192. After the flange 202 has been inserted into the channel 200, the lip 198 may be bent inwardly against the flange 202 at intervals along the length of the mullion, so that the flange 202 will be securely clamped in place.
Similarly, the illustrated mullion 126 is formed with L-shaped flanges or lips 204 to retain reduced edge portions or flanges 206 on the front legs 194 of the cover strips 192. Each lip 204 forms a channel or groove 208' adapted to receive the reduced edge portion 206. The lip 204 may be bent rearwardly at intervals so as to clamp the reduced edge portion 206 in place.
As shown in FIG. 5, the cover strips 192 are formed with recesses 210 to receive the magnetic cover plate 188. The front legs 194 of the cover strips 126 are clamped against the mullion 126 by the cover plate 188.
Each mullion 126 is hollow, in that a channel-shaped opening 212 is formed therein. Thus, the mullions may be employed very advantageously as raceways or conduits for electrical wiring. The rear side of each mullion 126 is preferably closed by a removable plate 214 which conceals the electrical wiring and also acts as a mounting plate for one or more electrical lighting fixtures 216. Electrical wiring may be installed in the mullions to supply electricity to the electric lighting fixtures 216 and also to the heating cables 186.
As shown in FIGS. 2 and 7, a channel-shaped raceway 218 is preferably mounted on the rear side of the upper horizontal frame member or extrusion 124. Suitable bolts or screws 220 may be employed to secure the raceway 218 to the rear flange of the outer frame extrusion 124. Interconnecting openings may be provided between the raceway 218 and the upper ends of the channels 212 in the mullions 126. Thus, wiring may be brought into the mullions through the raceway 218.
As shown in FIGS. 2 and 7, flexible electrical cords 222 are preferably employed to supply electrical energy to the doors 12, to energize the heating cables 56 therein. The cords 222 extend into the upper horizontal extrusions 36 of the doors 12 and are connected to the heating cables 56 therein. The other end of each word 222 is preferably provided with a plug 224 adapted to be inserted into a suitable receptacle 226 on the upper horizontal raceway 218. Suitable wiring may be provided in the raceway 218 to supply electrical energy to the various receptacles 226. It will be understood that the cords 222 are long enough to provide for free opening of the doors 12.
SUMMARY OF OPERATION While the installation and operations of the refrigerator door assembly 10 have been described, it may be helpful to offer a brief summary. For shipment and handling, the protective flanges 170 are provided on the insulating and sealing strip 148, as shown in FIG. 3. The dog-leg portion 176 provides a spring action which retains the protective flange 170 on the front flange 128 of the outer frame extrusion 124.
The outer frame 14 is inserted loosely into the opening 16, and then the protective flange 170 is torn off along the groove 172, as shown in FIG. 4. The outer frame 14 is then securely pressed against the wall 18, as shown in FIG. 5, so as to straighten out the dog-leg portion 176. The flaps or lips 156 form a tight seal against the wall 18.
During the normal use of the doors 12, the magnetic cover plates and 188 on the outer frame members 124 and the mullions 126, respectively, form magnetic armatures for the magnets 34 in the magnetic gaskets 32. The gaskets 32 are securely retained on the doors by the lips 94 on the glass molding strips 58, and also by the flanges 100 on the outer molding strips 98.
Occasionally, the heating cables 138 in the outer frame 14 may burn out, in which case it is necessary to change the heating cables. This may be done very easily by removing the cover plates 140 from the rear flanges 130 of the outer frame extrusions 124. It is a simple matter to remove the cover plates 140, by unscrewing the screws 142.
Similarly, the heating cables 1-86 in the mullions 126 may be changed very easily by unscrewing the screws 190 and removing the cover plates 188. It will be evident that full access to the heating cables 138 and 186 is available from the front of the outer frame 14. It is never necessary to remove the outer frame 14 from the wall opening 16 to change the heating cables. It is only necessary to remove the magnetic stainless steel cover plates 140 and 188, which is an easy operation.
Occasionally, it may also become necessary to change the heating cables 56 in the doors 12. This may be done quite easily by removing the molding strips 98 and 58. The outer molding strips 98 may be removed by unscrewing the screws 108. The gasket 32 is then removed, so
that the screws 68 may be unscrewed to remove the glass molding strips 58. Full access may then be had to the heating cables 56 within the hollow cores 38 of the door extrusions 36.
It will be recognized that the refrigerator door assembly is easy to install for also easy to service in the field. The door assembly is ruggedly built so that it will withstand hard service and give a long trouble-free life. Various other modifications, alternative constructions, and quivalents may be employed without departing from the true spirit and scope of the invention.
We claim: 1. A refrigerator door mounting frame, comprising the combination of a plurality of rectangularly related mounting frame members made of a non-magnetic metal material,
each of said members being generally Z-shaped in cross-section and having a front flange projecting outwardly,
a rear flange projecting inwardly,
and a web portion extending between said front and rear flanges,
said rear flange having a forwardly opening channel formed therein, an electrical heating cable mounted in said channel, a cover plate closing the front side of said channel and mounted on the front side of said rear flange,
said cover plate being made of a corrosion-resistant magnetic metal material to provide a magnetic armature for magnetic door gaskets,
and a plurality of removable fasteners securing said cover plate to said rear flange.
2. A frame according to claim 1,
in which said cover plate is made of magnetic stainless steel material to provide a magnetic armature for magnetic door gaskets.
3. A frame according to claim 1,
in which said rear flange is formed with a recess for receiving said cover plate,
said cover plate thereby being substantially flush with said rear flange.
4. A frame according to claim 1,
comprising a vertical mullion mounted on said frame members,
said mullion being made of a non-magnetic metal material,
said mullion having a forwardly opening channel formed therein,
a second electrical heating cable mounted in said channel in said mullion,
a second cover plate mounted on the front of said mullion and covering said channel,
said second cover plate being made of a corrosionresistant magnetic metal material to provide a magnetic armature for magnetic door gaskets,
and a plurality of removable fasteners for securing said second cover plate to said mullion.
5. A frame according to claim 4,
including an insulating cover strip mounted around at least a portion of the outside of said mullion,
said cover strip having a portion retained between said mullion and said second cover plate.
6. A frame according to claim 4,
in which said second cover plate is made of magnetic stainless steel material to provide a magnetic armature for door gaskets.
7. A refrigerator door frame,
comprising a plurality of rectangularly related frame members,
at least one mullion extending across and secured to said frame,
said frame members and said mullion being made of non-magnetic metal material,
each frame member having a door stop flange thereon,
said door stop flanges and said mullions having forwardly opening channels therein,
electrical heating cables mounted in said channels,
cover plates closing the front sides of said channels and mounted on the front sides of said flanges and said mullions,
said cover plates being made of a corrosion-resistant magnetic metal material to provide magnetic armatures for magnetic door gaskets,
and removable fasteners securing said cover plates to said flanges and said mullion.
8. A frame according to claim 7,
in which said cover plates are made of magnetic stainless steel material to provide armatures for magnetic door gaskets.
9. A refrigerator door mounting frame,
comprising a plurality of rectangularly related frame members having door stop members thereon,
said frame members being made of a non-magnetic metal material,
said door step members having forwardly opening channels therein,
electrical heating cables mounted in said channels,
cover plates closing the front sides of said channels and mounted on the front sides of said floor stop members,
said cover plates being made of a corrosion-resistant magnetic metal material to provide magnetic armatures for magnetic door gaskets,
and removable fasteners securing said cover plates to said door stop members.
10. A refrigerator door mounting frame,
comprising the combination of a plurality of rectangularly related frame members,
each of said members being generally Z-shaped in cross section and having a body portion with a front flange projecting outwardly therefrom and a rear flange projecting inwardly therefrom,
an insulating cover strip having a rear portion for covering the rear side of said rear flange,
an intermediate portion for covering the outside of said body portion,
and a front portion for covering the rear side of said front flange,
means on said rear flange for retaining said rear portion of said strip,
and a wrap-around flange connected to said front portion of said cover strip and wrapped around the outer edge and front side of said front flange for protecting said front flange while retaining said cover strip on said frame,
said cover strip being formed with a groove between said wrap-around flange and said front portion to provide for easy tearing of said wrap-around flange from said front portion during the installation of said frame.
11. A frame according to claim 10,
in which said means on said rear flange comprises a lip for clamping the rear portion of said strip.
12. A frame according to claim 10,
in which a groove is formed in the outside of said body portion,
said intermediate portion of said strip being formed with a tongue retained in said groove.
13. A frame according to claim 12,
in which said intermediate portion of said strip includes an angular spring member for resiliently pulling said wrap-around flange against said front flange.
UNITED References Cited STATES PATENTS Knight 62--275 Colvin 62275 X Hursey et al.
Grubbs 62--275 X Kurowski 49---386 Squires 49482 Bailey 49-493 Petersen 52502 X Frehse 59478 X DENNIS L. TAYLOR, Primary Examiner US. Cl. X.R.
" UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,499,245 Dated March 10, 1970 l vent rw Robert J. Winsler and Fred A. Richter It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:
Column 5, line 24, after "screws" insert -lO8--.
Column 5, line 24, "rcessed" should read --recessed-.
Column 6 line 6 after "channels" insert or grooves--.
Column 8, line 43, "word" should read cord-.
Column 9, line 25, "for" should read -and-.
smuzn AN SEALED H Attest:
WILLIAM E EdwnrdM-M'I- Mission 1' mm Atteating Officer o
US611020A 1967-01-23 1967-01-23 Glass panel refrigerator door and frame Expired - Lifetime US3499245A (en)

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Cited By (34)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3612821A (en) * 1970-11-16 1971-10-12 Anthony S Mfg Co Door frame construction
US3629972A (en) * 1970-02-09 1971-12-28 Ardco Inc Refrigerator door construction
DE2159328A1 (en) * 1970-12-14 1972-06-22 Anthonys Manufacturing Co., Inc., San Fernando, Calif. (V.St.A.) Electrically heated door for refrigerators
FR2173818A1 (en) * 1972-03-03 1973-10-12 Thomson Brandt
DE2620212A1 (en) * 1974-06-29 1977-11-17 Alois Schmid Animal shed metal door frame - has protective insert between rectangular sectioned tubular U:shaped profile shanks
US4145844A (en) * 1977-12-16 1979-03-27 Ardco, Inc. Refrigerator door construction
EP0314477A2 (en) * 1987-10-30 1989-05-03 Olo, Olavi A glass door and hinge structure
US4831780A (en) * 1987-07-07 1989-05-23 Ardco Inc. Refrigerator door assembly with thermal break frame
US4891912A (en) * 1987-07-07 1990-01-09 Ardco, Inc. Refrigerator door assembly with multiple gasket sealing arrangement
US4998382A (en) * 1989-12-11 1991-03-12 Ardco, Inc. Insulated refrigerator door assembly with substantially all glass front doors
US5024023A (en) * 1989-12-11 1991-06-18 Ardco, Inc. Insulated refrigerator door assembly with substantially all glass front doors
US5111618A (en) * 1989-12-11 1992-05-12 Ardco, Inc. Refrigerator door assembly with stylized substantially all glass front
US5255473A (en) * 1989-12-11 1993-10-26 Ardco, Inc. Refrigerator door assembly with stylized substantially all glass front
US5464281A (en) * 1993-02-22 1995-11-07 Viking Metal Cabinet Co., Inc. Quick attach door system for a doorless storing structure
USRE35149E (en) * 1990-09-20 1996-01-30 Anthony's Manufacturing Company, Inc. Railless refrigerator display door
USRE35392E (en) * 1990-09-20 1996-12-10 Anthony's Manufacturing Company, Inc. Glass refrigerator door structure
US5645330A (en) * 1996-09-19 1997-07-08 Ardco Incorporated Refrigerated display cabinets with improved mullion assembly
WO1999045331A2 (en) * 1998-03-03 1999-09-10 Anthony, Inc. Refrigerator display case door
WO2000020719A1 (en) 1998-10-02 2000-04-13 Anthony, Inc. Frame for use with refrigerated enclosure and method of making the same
US6637093B2 (en) 1998-03-03 2003-10-28 Anthony, Inc. Method of assembling a display case door
US20050268627A1 (en) * 2004-05-10 2005-12-08 Vogh Richard P Iii Anti-condensation control system
US20060059861A1 (en) * 2004-08-31 2006-03-23 Hussmann Corporation Multi-pane glass assembly for a refrigerated display case
WO2006118567A1 (en) * 2005-04-28 2006-11-09 Carrier Corporation Frameless door suspension
US20070022667A1 (en) * 2005-07-28 2007-02-01 Gemtron Corporation Product display case door frame having an integrated raceway
US20070210054A1 (en) * 2006-03-02 2007-09-13 David Hallman Waste bin assembly
US20080122324A1 (en) * 2006-09-25 2008-05-29 Gemtron Corporation Refrigerated display case door and method of manufacture
US20110043089A1 (en) * 2009-08-19 2011-02-24 Chubb Richard A Reach-in door for refrigerated cabinets
US20110204755A1 (en) * 2003-09-15 2011-08-25 Duke Manufacturing Co. Product server with breath guard
US20130239484A1 (en) * 2012-03-14 2013-09-19 Richard Chubb Door for a Refrigerated Cabinet
CN103362405A (en) * 2013-07-23 2013-10-23 苏州金螳螂幕墙有限公司 Aluminum alloy decorative frame for glass energy-saving door with aluminum alloy decorative frames
US20160045038A1 (en) * 2014-07-22 2016-02-18 Richard Chubb Door for e Freezer Cabinet
EP3378360A1 (en) * 2017-03-24 2018-09-26 LG Electronics Inc. Refrigerator
CN112654276A (en) * 2018-09-05 2021-04-13 三星电子株式会社 Refrigerator with a door
US11439253B2 (en) * 2016-11-28 2022-09-13 Anthony, Inc. Thermal frame

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US1992011A (en) * 1933-02-04 1935-02-19 Gen Electric Refrigerator cabinet
US2443342A (en) * 1947-02-12 1948-06-15 Colvin Donald Condensation preventing means for refrigerators
US2449384A (en) * 1946-01-09 1948-09-14 Seeger Sunbeam Corp Refrigerator mullion construction for preventing condensation
US2731804A (en) * 1956-01-24 Frost preventer for freezer doors
US2987782A (en) * 1960-01-08 1961-06-13 Aluminum Refrigerator Door Co Refrigerator door
US3250040A (en) * 1964-05-22 1966-05-10 Boyd Aluminum Mfg Co Adjustable door sweep
US3284956A (en) * 1961-03-17 1966-11-15 Pullman Inc Freight vehicle door sealing arrangement
US3348349A (en) * 1965-07-19 1967-10-24 Petersen Walter Reinforced plastic glass holding frame
US3378957A (en) * 1966-02-23 1968-04-23 Gen Tire & Rubber Co Gasket assembly

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US2731804A (en) * 1956-01-24 Frost preventer for freezer doors
US1992011A (en) * 1933-02-04 1935-02-19 Gen Electric Refrigerator cabinet
US2449384A (en) * 1946-01-09 1948-09-14 Seeger Sunbeam Corp Refrigerator mullion construction for preventing condensation
US2443342A (en) * 1947-02-12 1948-06-15 Colvin Donald Condensation preventing means for refrigerators
US2987782A (en) * 1960-01-08 1961-06-13 Aluminum Refrigerator Door Co Refrigerator door
US3284956A (en) * 1961-03-17 1966-11-15 Pullman Inc Freight vehicle door sealing arrangement
US3250040A (en) * 1964-05-22 1966-05-10 Boyd Aluminum Mfg Co Adjustable door sweep
US3348349A (en) * 1965-07-19 1967-10-24 Petersen Walter Reinforced plastic glass holding frame
US3378957A (en) * 1966-02-23 1968-04-23 Gen Tire & Rubber Co Gasket assembly

Cited By (61)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3629972A (en) * 1970-02-09 1971-12-28 Ardco Inc Refrigerator door construction
JPS538943B1 (en) * 1970-11-16 1978-04-01
US3612821A (en) * 1970-11-16 1971-10-12 Anthony S Mfg Co Door frame construction
DE2159328A1 (en) * 1970-12-14 1972-06-22 Anthonys Manufacturing Co., Inc., San Fernando, Calif. (V.St.A.) Electrically heated door for refrigerators
FR2117992A1 (en) * 1970-12-14 1972-07-28 Anthony S Mfg Co
US3724129A (en) * 1970-12-14 1973-04-03 Anthony S Mfg Co Door and door mounting frame
FR2173818A1 (en) * 1972-03-03 1973-10-12 Thomson Brandt
DE2620212A1 (en) * 1974-06-29 1977-11-17 Alois Schmid Animal shed metal door frame - has protective insert between rectangular sectioned tubular U:shaped profile shanks
US4145844A (en) * 1977-12-16 1979-03-27 Ardco, Inc. Refrigerator door construction
US4831780A (en) * 1987-07-07 1989-05-23 Ardco Inc. Refrigerator door assembly with thermal break frame
US4891912A (en) * 1987-07-07 1990-01-09 Ardco, Inc. Refrigerator door assembly with multiple gasket sealing arrangement
EP0314477A2 (en) * 1987-10-30 1989-05-03 Olo, Olavi A glass door and hinge structure
EP0314477A3 (en) * 1987-10-30 1990-11-07 Olo, Olavi A glass door and hinge structure
AU621863B2 (en) * 1989-01-17 1992-03-26 Ardco Inc. Refrigerator door assembly with thermal break frame
US5111618A (en) * 1989-12-11 1992-05-12 Ardco, Inc. Refrigerator door assembly with stylized substantially all glass front
US5024023A (en) * 1989-12-11 1991-06-18 Ardco, Inc. Insulated refrigerator door assembly with substantially all glass front doors
US4998382A (en) * 1989-12-11 1991-03-12 Ardco, Inc. Insulated refrigerator door assembly with substantially all glass front doors
AU640947B2 (en) * 1989-12-11 1993-09-09 Ardco Inc. Insulated commercial refrigerator door with stylized all glass front
US5255473A (en) * 1989-12-11 1993-10-26 Ardco, Inc. Refrigerator door assembly with stylized substantially all glass front
USRE35149E (en) * 1990-09-20 1996-01-30 Anthony's Manufacturing Company, Inc. Railless refrigerator display door
USRE35392E (en) * 1990-09-20 1996-12-10 Anthony's Manufacturing Company, Inc. Glass refrigerator door structure
US5464281A (en) * 1993-02-22 1995-11-07 Viking Metal Cabinet Co., Inc. Quick attach door system for a doorless storing structure
US6298615B1 (en) * 1995-10-13 2001-10-09 Anthony, Inc. Frame for use with refrigerated enclosure and method of making the same
US5645330A (en) * 1996-09-19 1997-07-08 Ardco Incorporated Refrigerated display cabinets with improved mullion assembly
WO1999045331A2 (en) * 1998-03-03 1999-09-10 Anthony, Inc. Refrigerator display case door
WO1999045331A3 (en) * 1998-03-03 2000-04-06 Anthony Inc Refrigerator display case door
US6260255B1 (en) 1998-03-03 2001-07-17 Anthony, Inc. Method of assembling a display case door
US6318027B1 (en) * 1998-03-03 2001-11-20 New Anthony, Inc. Display case door
US6637093B2 (en) 1998-03-03 2003-10-28 Anthony, Inc. Method of assembling a display case door
WO2000020719A1 (en) 1998-10-02 2000-04-13 Anthony, Inc. Frame for use with refrigerated enclosure and method of making the same
US20110204755A1 (en) * 2003-09-15 2011-08-25 Duke Manufacturing Co. Product server with breath guard
US8671618B2 (en) * 2003-09-15 2014-03-18 Duke Manufacturing Co. Product server with breath guard
US20050268627A1 (en) * 2004-05-10 2005-12-08 Vogh Richard P Iii Anti-condensation control system
US7340907B2 (en) 2004-05-10 2008-03-11 Computer Process Controls, Inc. Anti-condensation control system
US7856770B2 (en) 2004-08-31 2010-12-28 Hussmann Corporation Multi-pane glass assembly for a refrigerated display case
US20060059861A1 (en) * 2004-08-31 2006-03-23 Hussmann Corporation Multi-pane glass assembly for a refrigerated display case
WO2006118567A1 (en) * 2005-04-28 2006-11-09 Carrier Corporation Frameless door suspension
US20070022667A1 (en) * 2005-07-28 2007-02-01 Gemtron Corporation Product display case door frame having an integrated raceway
US20070210054A1 (en) * 2006-03-02 2007-09-13 David Hallman Waste bin assembly
US20080122324A1 (en) * 2006-09-25 2008-05-29 Gemtron Corporation Refrigerated display case door and method of manufacture
US8776443B2 (en) 2006-09-25 2014-07-15 Gemtron Corporation Refrigerated display case door
US20110043089A1 (en) * 2009-08-19 2011-02-24 Chubb Richard A Reach-in door for refrigerated cabinets
US9554660B2 (en) * 2009-08-19 2017-01-31 Thermoseal Industries, Llc Reach-in door for refrigerated cabinets
US20130239484A1 (en) * 2012-03-14 2013-09-19 Richard Chubb Door for a Refrigerated Cabinet
US8869493B2 (en) * 2012-03-14 2014-10-28 Thermoseal Industries, L.L.C. Door for a refrigerated cabinet
US20150020451A1 (en) * 2012-03-14 2015-01-22 Thermoseal Industries, LLC. Door for a Refrigerated Cabinet
US9016031B2 (en) * 2012-03-14 2015-04-28 Thermoseal Industries, L.L.C. Door for a refrigerated cabinet
CN103362405A (en) * 2013-07-23 2013-10-23 苏州金螳螂幕墙有限公司 Aluminum alloy decorative frame for glass energy-saving door with aluminum alloy decorative frames
US20160045038A1 (en) * 2014-07-22 2016-02-18 Richard Chubb Door for e Freezer Cabinet
US9526353B2 (en) * 2014-07-22 2016-12-27 Richard Chubb Door for a freezer cabinet
US11439253B2 (en) * 2016-11-28 2022-09-13 Anthony, Inc. Thermal frame
US20220361688A1 (en) * 2016-11-28 2022-11-17 Anthony, Inc. Thermal frame
US11864670B2 (en) * 2016-11-28 2024-01-09 Anthony, Inc. Thermal frame
EP3378360A1 (en) * 2017-03-24 2018-09-26 LG Electronics Inc. Refrigerator
US10767917B2 (en) * 2017-03-24 2020-09-08 Lg Electronics Inc. Refrigerator
EP4085799A1 (en) * 2017-03-24 2022-11-09 LG Electronics Inc. Refrigerator
US11846464B2 (en) 2017-03-24 2023-12-19 Lg Electronics Inc. Refrigerator
CN112654276A (en) * 2018-09-05 2021-04-13 三星电子株式会社 Refrigerator with a door
US20220408941A1 (en) * 2018-09-05 2022-12-29 Samsung Electronics Co., Ltd. Refrigerator
CN112654276B (en) * 2018-09-05 2023-10-03 三星电子株式会社 Refrigerator with a refrigerator body
US11771239B2 (en) * 2018-09-05 2023-10-03 Samsung Electronics Co., Ltd. Refrigerator

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