This application claims the priority, under 35 U.S.C. §119, of German application DE 10 2016 201 782.9, filed Feb. 5, 2016; the prior application is herewith incorporated by reference in its entirety.
Field of the Invention
The present invention relates to a refrigerator, in particular a domestic refrigerator, with a dispenser for ice and/or water.
Ice/water dispensers traditionally contain a dispenser housing, which is flush-mounted behind an opening in the outer shell in a heat-insulating wall of the refrigerator, usually a door, and delimits a dispenser recess in which a receptacle for filling with ice and/or liquid can be placed. Passages, via which ice and/or liquid pass into the dispenser housing, are located in an upper area of the dispenser housing.
To protect fittings such as valves or flaps, which are accommodated in the upper area of the dispenser housing to control the delivery of ice or liquid and/or to prevent unnecessary air circulation between the dispenser recess and the interior of the refrigerator via the passages, it is expedient to conceal this upper area. This may be done expediently by mounting an operating component at this location, via which the functioning of the dispenser can be controlled.
The number of buttons or other operating elements, which are required at least on the operating component in order to control the functions of the dispenser, is small and easily accommodated on an operating element, the level of which is lower than that of the fittings of the upper area, and in particular lower than the level of a flap on the output of an ice chute.
If the level of the operating element varies in different models of refrigerators, yet at the same time, independently of the level of the operating element, a receptacle can be placed just below an outlet such as the output of the ice chute or the end of a water conduit, in order to limit the dropping height of the ice or water and minimize the risk of splattering, then different versions of the dispenser housing are required depending on the level of the dispenser housing. The manufacture of several refrigerator models, which vary in the appearance of their dispenser, is thus expensive.
The object of the invention is to create a refrigerator with dispenser, which enables different refrigerator models to be produced cost-effectively.
The object is achieved in a refrigerator with a dispenser for ice and/or liquid. In the refrigerator a dispenser housing conceals an opening in an outer shell of the refrigerator and delimits a dispenser recess that extends outward and upward over an upper edge of the opening. The dispenser housing is assembled from at least one main part, which extends from a lower edge of the opening over a rear wall to a front edge of a ceiling of the dispenser housing, and a filling part, which extends from the front edge to an upper edge of the opening.
Since the filling part is provided at varying heights in different versions, a variable height of the operating component can be compensated so that the distance between a lower edge of the opening and the operating component or between the lower edge of the opening and an outlet of the dispenser can remain the same. Therefore only one identical model of main part, which can be produced cost-effectively in large quantities, is required for different models. The different models of filling components entail only relatively low costs due to their smaller dimensions and simpler construction.
The operating component is preferably mountable on an upper edge of the opening adjacently in the dispenser housing.
The filling part preferably contains a wall panel, which delimits the dispenser recess and is separated from the outer shell by a gap.
The filling part may also contain ridges, which extend to the outer shell. These ridges can be used for various purposes. Ridges on the edges of the wall panel can be used for fixing the filling part on the main part or delimiting the gap from the dispenser recess; ridges may be provided away from the edges in order to attenuate vibrations in them caused by contact with the outer shell or to control the penetration of foam into the gap when the housing of the refrigerator is filled with foam.
To prevent the outer shell sounding hollow when someone knocks on it at the level of the filling part, causing a user therefore to suspect an absence of insulation, the gap should be at least partially filled with foam.
To ensure that the foam to be forced into the gap when foam is filled from the outside is not prevented from advancing by counterpressure from air enclosed therein, the filling part may have a ventilation passage leading into the dispenser recess.
Such a ventilation passage should be sufficiently long and narrow so that, as soon as the foam has reached it and starts to be forced into it, the foam is held for long enough until it is set hard and solidified. Such a passage may expediently be located in a mandrel, which projects into the gap from the wall panel.
At least one of the aforementioned ridges may extend over the entire width of the wall panel and divide the gap into an upper, open-ended section and a lower section bounded on all sides.
When the upper section is filled with foam, the ridge forms an initial seal against the penetration of the foam. It does not have to be completely foam-tight, since the lower section of the gap can be used as a collection chamber for foam if necessary; the ridge only needs to delay the foam for long enough so that it hardens before the collection chamber is full.
A prefabricated insulation body, e.g. one that has been expanded in a hollow mold or customized from expanded material, may also be inserted into the gap, whether in order to be used as a seal against penetrating foam or merely to attenuate vibrations in it caused by contact with the outer shell.
To establish a foam-tight joint between the outer shell and the filling part, an edge strip of the outer shell angled on the upper edge of the opening can engage into a groove of the filling part.
An edge strip of the outer shell angled on a lateral or lower edge of the opening can engage accordingly into a groove of the main part.
A foam-tight joint between main part and filling part can be established by means of a tongue-and-groove joint.
The insertion direction of the tongue-and-groove joint is preferably oriented perpendicular to the outer shell. Thus the groove of the main part, which accommodates the flange of the outer shell, and the section of the tongue-and-groove joint, which is located on the main part, is molded with an identical molding tool and removed from the mold in the same movement.
In a particularly preferred manner, the section of the tongue-and-groove joint, which is located on the main part, is an upper area of a linear groove, the lower area of which accommodates the edge strip of the outer shell.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as embodied in a refrigerator with a dispenser, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
Referring now to the figures of the drawings in detail and first, particularly to
A front edge 18 of a ceiling 19 of the main part 11 is recessed against this plane. It is likewise provided with a groove 20 that is open toward the front. A passage is made in a vertex 21 of the ceiling 19, through which, in the fully assembled appliance, a water conduit is extended to an outlet in the upper area of the dispenser housing 8, above the filler tube 47. In an inclined wall section between the ceiling 19 and a rear wall 22, a hole 23 can be seen, which will form the outlet of an ice chute, as well as projections 24 for fastening a pivoting flap for closing the hole 23 when it is not in use.
The two filling parts 11, 12 are identical in terms of their construction; they differ only in the height at which they are located. A ridge 26, 27, 28 protrudes respectively along the lateral edges and the lower edge of a side of a vertical wall panel 25 facing toward the observer; a further ridge 26 parallel to the lower edge links the lateral ridges 26, 27. As can be seen more clearly in
The ridges 26, 27 are widened into a flange 32 on their edge facing toward the observer, from the rear side of which a tongue 33 in turn protrudes.
The operating component 9 is installed directly below the ridge 28 and closes the opening 7 above an edge 40.
The pressure of the foam may cause the outer shell 6 to be pushed away from the ridge 29 slightly. To prevent the foam from penetrating over the ridge 29 and into the lower section 39, the latter can be filled in advance by insertion of a preformed insulation body 44, e.g. made from expanded polystyrene; it may however already be sufficient if the gap between the ridge 29 and the outer shell 6 is narrow enough to inhibit the penetration of the foam so that the quantity of foam passing through to constrict the gap is too small to fill the lower section 39.
The following is a summary list of reference numerals and the corresponding structure used in the above description of the invention:
Number | Date | Country | Kind |
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10 2016 201 782.9 | Feb 2016 | DE | national |