One aspect of the invention relates to an ice maker. A further aspect relates to a household cooling appliance.
U.S. Pat. No. 9,482,458 B2 describes an ice maker comprising an air guidance for guiding cold air. However, the air guidance is very undefined. Thereby also air can find its way into a storage container of the ice maker, in which ice form elements are stored. Thereby it is also possible that a corresponding air stream flows against or around the produced ice form elements in the storage container. The ice form elements due to sublimation release vapors. Since the air stream can also enter the storage container, by the air stream the distribution of these vapors is enforced, which however should be avoided.
It is accordingly an object of the invention to provide an ice maker, which overcomes the above-mentioned and other disadvantages of the heretofore-known devices and methods of this general type and which provides for an ice maker, in which the entry of an air stream into a storage container of the ice maker is at least clearly reduced. It is a further object of the invention to provide a household cooling appliance with an ice maker in which the entering of an air stream into a storage container of the ice maker is at least significantly reduced.
With the above and other objects in view there is provided, in accordance with one aspect of the invention, an ice maker for mounting into a household cooling appliance, comprising:
a storage container for ice, wherein the storage container comprises an outer side and an opening, which is accessible from the top,
a fan generating an air stream in the ice maker,
an air guiding duct, which viewed in the height direction of the ice maker is arranged above the storage container, wherein
the air guiding duct is bounded by a first lateral duct wall, which is oriented in the depth direction of the ice maker and extends in the height direction, and
the air guiding duct is bounded by a second duct wall, which is a roof wall, wherein the air guiding duct with at least one first opening is open towards the bottom so that an air stream streaming in the air guiding duct can escape towards the bottom from the air guiding duct, wherein
the first opening of the air guiding duct is arranged offset viewed in the width direction of the ice maker so that the air stream exiting from the first opening of the air guiding duct flows along the storage container on its outer side.
With the above and other objects in view there is also provided, in accordance with another aspect of the invention, a household cooling appliance comprising an ice maker, wherein the ice maker comprises:
a storage container for ice, wherein the storage container comprises an outer side and an opening, which is accessible from the top,
a fan generating an air stream in the ice maker,
an air guiding duct, which viewed in the height direction of the ice maker is arranged above the storage container, wherein
the air guiding duct is bounded by a first lateral duct wall, which is oriented in the depth direction of the ice maker and extends in the height direction, and
the air guiding duct is bounded by a second duct wall, which is a roof wall, wherein the air guiding duct with at least one first opening is open towards the bottom so that an air stream streaming in the air guiding duct can escape towards the bottom from the air guiding duct, wherein
the first opening of the air guiding duct is arranged offset viewed in the width direction of the ice maker so that the air stream exiting from the first opening of the air guiding duct flows along the storage container on its outer side.
According to another aspect of the present disclosure, wherein by the air stream exiting from the opening of the air guiding duct an outer side of a first side wall of the storage container and an outer side of a bottom wall of the storage container and an outer side of a second side wall of the storage wall are flown, wherein said bottom wall is opposite to the opening of the storage container, which is accessible from the top.
According to another aspect of the present disclosure, wherein at least by the first lateral duct wall and the roof wall the air stream in the air guiding duct is guided in the depth direction of the ice maker.
According to another aspect of the present disclosure, the first lateral duct wall and the roof wall are configured as single-piece duct part.
According to another aspect of the present disclosure, the first lateral duct wall at least in portions is curved in arch-like manner.
According to another aspect of the present disclosure, the first lateral duct wall viewed in the depth direction in a rear half of its length is curved towards the interior of the ice maker.
According to another aspect of the present disclosure, the air guiding duct comprises a second lateral duct wall, which bounds the air guiding duct at the side opposite the first lateral duct wall.
According to another aspect of the present disclosure, the ice maker comprises an outer housing wall, which is the second lateral duct wall.
According to another aspect of the present disclosure, the roof wall comprises a contact flange, which directly contacts the second lateral duct wall.
According to another aspect of the present disclosure, the air guiding duct comprises a rear end and an opposite front end, and the air guiding duct is narrowed from the rear end towards the front end.
According to another aspect of the present disclosure, the ice maker comprises a driving unit, which comprises a housing and a fan arranged therein, wherein the air stream can be generated by the fan, the air guiding duct is connected with a rear end to the housing.
According to another aspect of the present disclosure, the air guiding duct is arranged at the driving unit by a stick connection.
According to another aspect of the present disclosure, the air guiding duct in the width direction of the ice maker is arranged to overlap in portions in an overlapping area with the opening of the storage container, wherein the air guiding duct comprises a bottom wall, by which the opening of the storage container is covered from the top in the overlapping area.
According to another aspect of the present disclosure, the first opening of the air guiding duct is formed in the bottom wall, and in the width direction is arranged external to the overlapping area.
According to another aspect of the present disclosure, said ice maker is arranged in a refrigeration compartment of a household cooling appliance.
Further features of the invention are apparent from the claims, the figures and the description of figures. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of figures and/or shown in the figures alone are usable not only in the respectively specified combination, but also in other combinations without departing from the scope of the invention. Thus, implementations are also to be considered as encompassed and disclosed by the invention, which are not explicitly shown in the figures and explained, but arise from and can be generated by separated feature combinations from the explained implementations. Implementations and feature combinations are also to be considered as disclosed, which thus do not comprise all of the features of an originally formulated independent claim. Moreover, implementations and feature combinations are to be considered as disclosed, in particular by the implementations set out above, which extend beyond or deviate from the feature combinations set out in the dependencies of the claims.
In the figures, identical or functionally identical parts are provided with the same reference signs.
With indications of “top”, “bottom”, “front”, “rear”, “horizontal”, “vertical”, “depth direction”, “width direction”, “height direction”, etc., the positions and orientations given in intended use and intended arrangement of the apparatus are specified.
Referring now to the figures of the drawing in detail and first, particularly, to
The illustrated household cooling appliance 1 comprises an outer housing 2. In the outer housing a first receiving space for food items is configured, which here is a refrigeration compartment 3. In an embodiment the household cooling appliance 1 moreover comprises a second receiving space for food items, which is separate from the first receiving space and which here is a freezer compartment 4. As can be recognized, in the embodiment shown here the refrigeration compartment 3 and the freezer compartment 4 are arranged one above the other in the height direction (y-direction) of the household cooling appliance 1. The freezer compartment 4, which is arranged further below, is capable of being locked by a door 5. The door 5 in the shown embodiment is a front wall of a drawer, which can be shifted linearly in the depth direction (z direction) of the household cooling appliance 1. The refrigeration compartment 3 is capable of being locked by two separate doors 6 and 7, which are shown in
In an embodiment the household cooling appliance 1 moreover comprises a dispenser 10 configured to output ice form elements or crushed ice. The dispenser 10 moreover can also optionally be configured to output a drink. In an embodiment the household cooling appliance 1 comprises a module 8. In an embodiment the dispenser 10 comprises said module 8.
The module 8 in the shown embodiment is arranged in the interior of the refrigeration compartment 3. This means that whilst the module 8 is arranged to be thermally insulated against the refrigeration compartment 3, however, that it is only accessible and reachable via the feed opening of the refrigeration compartment 3. Thus, the module 8 can only be made accessible, when at least the door 6 is opened.
The dispenser 10 in addition to the module 8 also comprises an output 9. The output 9 here is for instance configured to be integrally formed in the door 6. On an outer side of the door 6, which faces away from the refrigeration compartment 3 and then is also a front side, a niche is formed, in which a receiving container can be placed and in which then via the output 9 the ice form elements or the crushed ice can be output.
In the closed state of the door 6 the output 9 is coupled with the module 8 so that via an ice chute 11 formed here in the output 9 ice form elements or crushed ice can arrive at the output 9 from the module 8.
The module 8 can be an ice compartment 12a. The household cooling appliance 1 can then also be configured without an ice maker 12. The module 8 can also be an ice maker 12. The ice compartment 12a can be an integral part of the ice maker 12 if the household cooling appliance 1 comprises an ice maker 12.
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In particular the front wall 15 is configured to be separate from the outer housing wall 17. Preferably the ice maker 12 comprises a front frame 18. The front frame 18 is configured to be separate from the front wall 15. The front frame 18 is connected in particular with the outer housing wall 17. In the mounted state, as shown in
Moreover, the ice maker 12 comprises a driving unit 21. The driving unit 21 is in particular configured to drive the conveyor 79 already mentioned in the above. In particular here a driving by a drive motor is envisaged. Moreover, it may be envisaged that the driving unit 21 is configured for generating an air stream in the ice maker 12. In particular here a cold air stream should be generated. The driving unit 21 is a separate module. The driving unit 21 thus is configured to be separate from the ice producer 13 and separate from the storage container 14. In the embodiment it is arranged at the rear end of the ice maker 12 viewed in the depth direction (z direction). The driving unit 21 comprises a drive housing 22. In the drive housing 22 functional units are arranged. A functional unit of the driving unit 21 can for instance be a fan for generating the air stream. A functional unit, however, can also be for instance a drive motor for driving the conveyor 79. The functional unit, however, for instance can also be an air duct.
In
The driving unit 21 comprises a first receiving duct 29. The receiving duct 29 is configured for receiving a first fastening part that is separate thereto to extend completely through the receiving duct 29. The fastening part, which is not shown in
The first receiving duct 29, as this has already been set out in the above, extends across the entire depth of the drive housing 22. It is configured to be open both at its front end or the entry 30 as well as at its rear end or the exit 31. Moreover the driving unit 21 comprises a second receiving duct 32 (
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The first receiving duct 29 comprises a, viewed in the depth direction, rear end portion 29a (
The same is true in analogy for the second receiving duct 32. Here, too, the rear end portion and a front portion extending therefrom in the depth direction towards the front are configured. Here, too, the rear portion has a constriction or narrowing formed by the throat 38. Also thereby the rear end portion is smaller than the front portion viewed in the cross section perpendicular to the longitudinal axis B.
Moreover the driving unit 21 comprises an air duct 43 positioned inside the drive housing 22. From this air duct 43 an air stream L generated by the fan 23 can be guided in the driving unit 21 and thus in the drive housing 22 in a defined way. This air duct 43 of the driving unit 21 comprises an air duct outlet 44. Same is configured in the embodiment in the front wall 24 of the drive housing 22.
In a further advantageous embodiment it is envisaged that on the front wall 24 a passage 45 is formed. Through this passage 45 a shaft 46 of a drive motor 64 shown here (
In a further advantageous embodiment it is envisaged that the driving unit 21 comprises a coupling entry 47 for mechanical coupling of the storage container 14 to the driving unit 21. For instance the storage container 14 can comprise a coupling part at its rear side, which can be inserted into the coupling entry 47. Thereby a mechanical coupling and a position centering of the storage container 14 relative to the driving unit 21 is facilitated. Preferably this coupling entry 47 is configured immediately above the entry 30 of the first receiving duct 29. The coupling entry 47 can be integral part of a mechanical stick connection. However, it may also be integral part of a snap connection. The corresponding counter coupler 80 (
In a further advantageous embodiment it may be envisaged that the driving unit 21 comprises a closing aid 48. This closing aid 48 can be configured as a separate module of its own. The closing aid 48 allows for the driving unit 21 with the storage container 14 to be held fixed in position. In particular here a self-locking principle is facilitated so that the storage container 14 in the depth direction is led via a certain path independently to the driving unit 21, in particular drawn into the drive housing 22. In an advantageous embodiment it is thereby rendered possible that the front wall 15, which is firmly connected with the storage container 14, equally automatically is drawn in the depth direction towards the rear. Thereby the front wall 15 with a defined pressing force is pressed to the front frame 18 or pulled towards the rear and a corresponding pressing force generated between the named components.
The closing aid 48 comprises an insertion opening 49, as it can be recognized in
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For mounting, as this can be recognized in
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The ice maker 12 moreover comprises an air guiding duct 66. The air guiding duct 66 comprises a first lateral duct wall 67. This first lateral duct wall 67 extends in the depth direction of the ice maker 12 and extends in the height direction of the ice maker 12. The air guiding duct 66 moreover is bounded by a second duct wall 68. The second duct wall 68 is a roof wall. The air guiding duct 66 comprises at least one opening 69, which is open towards the bottom. In particular in an embodiment three such openings 69, 70, and 71 are configured. All of these are configured to be open towards the bottom. An air stream L flowing through the air guiding duct 66 by the geometry of the duct walls and their arrangement relative to each other is released from the air guiding duct 66 towards the bottom. This is effected by the openings 69, 70, and 71.
The air guiding duct 66, viewed in the width direction of the ice maker 12, is arranged offset relative to the opening 65 of the storage container 14. In particular this offset arrangement is such that the air stream L exiting from the first opening 69, 70, 71 of the air guiding duct 66 flows around the storage container 14 at its outer side 14a. In particular the arrangement of the first openings 69, 70, and 71 to the storage container 14, in particular its opening 65 toward the top, is such that no overlapping in the width direction is given. The exiting of the air stream L from the openings 69, 70, 71 thereby is not effected via the opening 65 into the storage container 14. The air stream L thus only flows around the storage container 14 at its outer side 14a.
In particular the air guiding duct 66 comprises a bottom wall 72. In this bottom wall 72 the first openings 69, 70, 71 are formed. Through the bottom wall 72 the opening 65 of the air guiding duct 66 is also covered in the portion, in which it overlaps in the width direction with the opening 65. Thereby no air stream flows through the opening 65 into the storage container 14. In particular by the first lateral duct wall 67 and the second duct wall 68 showing the roof wall the air stream L is conducted into the air conduction duct in the depth direction of the ice maker 12. The first lateral duct wall 67, the second duct wall 68, and in particular the bottom wall 72 are integrally formed with each other as a single piece. In particular a component 77 is thereby formed, in particular from plastic. The first lateral duct wall 67 is configured to be uneven. It is curved in an arch-shaped manner. In particular at the rear end facing the driving unit 62, in particular a rear half, an arch-shaped curvature is configured. A curvature is provided only in one direction. In particular the curvature is directed towards the ice producer 13.
Preferably the air guiding duct 66 comprises a second lateral duct wall bounding the air guiding duct 66 at the side opposite the first lateral duct wall 67. In particular this second lateral duct wall is formed by an outer housing wall of the outer housing 16 of the ice maker 12. The outer housing wall is in particular formed by the wall 17a, as it is shown in
As can be recognized moreover in
The component 77, which is formed as a single piece and comprises the walls 67, 68, and 72 as well as the flange 73, is arranged in non-destructively releasable manner at the driving unit 21. For this purpose the driving unit 21 comprises a coupler oriented in the depth direction towards the front. This component is fitted upon this coupler. This component 77 in
The air guiding duct 66, viewed in the depth direction, comprises a front end 66a and a rear end 66b. The air guiding duct 66 narrows, in particular continuously, starting from the rear end 66b towards the front up to the front end 66a. Thereby a pressing of the airstream L outward out of the openings 69, 70, 71 is supported.
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In an embodiment, the first receiving duct and the second receiving duct viewed in the width direction of the driving unit are arranged offset relative to each other.
In an embodiment, by the air stream exiting from the opening of the air guiding duct an outer side of a first side wall of the storage container and an outer side of a bottom wall of the storage container and an outer side of a second side wall of the storage wall are flown, wherein said bottom wall is opposite to the opening of the storage container, which is accessible from the top.
In an embodiment, at least by the first lateral duct wall and the roof wall the air stream in the air guiding duct is guided in the depth direction of the ice maker.
In an embodiment, the first lateral duct wall and the roof wall are configured as single-piece duct part.
In an embodiment, the first lateral duct wall at least in portions is curved in arch-like manner.
In an embodiment, the first lateral duct wall viewed in the depth direction in a rear half of its length is curved towards the interior of the ice maker.
In an embodiment, the air guiding duct comprises a second lateral duct wall, which bounds the air guiding duct at the side opposite the first lateral duct wall.
In an embodiment, the ice maker comprises an outer housing wall, which is the second lateral duct wall.
In an embodiment, the roof wall comprises a contact flange, which directly contacts the second lateral duct wall.
In an embodiment, the air guiding duct comprises a rear end and an opposite front end, and the air guiding duct is narrowed from the rear end towards the front end.
In an embodiment, the ice maker comprises a driving unit, which comprises a housing and a fan arranged therein, wherein the air stream can be generated by the fan, wherein the air guiding duct is connected with a rear end to the housing.
In an embodiment, the air guiding duct is arranged at the driving unit by a stick connection.
In an embodiment, the air guiding duct in the width direction of the ice maker is arranged to overlap in portions in an overlapping area with the opening of the storage container, wherein the air guiding duct comprises a bottom wall, by which the opening of the storage container is covered from the top in the overlapping area.
In an embodiment, the first opening of the air guiding duct is formed in the bottom wall, and in the width direction is arranged external to the overlapping area.
In an embodiment, said ice maker is arranged in a refrigeration compartment of a household cooling appliance.
The following is a list of reference numerals used in the above description of the invention with reference to the drawing figures:
78′
Number | Name | Date | Kind |
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9482458 | Jeong et al. | Nov 2016 | B2 |
20080295539 | An | Dec 2008 | A1 |
20100180608 | Shaha | Jul 2010 | A1 |
20160370078 | Koo | Dec 2016 | A1 |
20180231294 | Song | Aug 2018 | A1 |
20190011166 | Bertolini | Jan 2019 | A1 |
Number | Date | Country | |
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20210207864 A1 | Jul 2021 | US |