Patent Grant
12007158
This application claims the priority, under 35 U.S.C. § 119, of German Patent Application DE 10 2020 209 319.9, filed Jul. 23, 2020; the prior application is herewith incorporated by reference in its entirety.
One aspect of the invention relates to a food-receiving container for a household refrigeration appliance. The food-receiving container has a shell for receiving food. The food-receiving container also has a ventilation device for carrying out an air exchange between the surroundings and the interior of the food-receiving container. A further aspect of the invention relates to a household refrigeration appliance having such a food-receiving container.
Food-receiving containers for household refrigeration appliances are known in many different forms. Those food-receiving containers are generally able to be introduced into a receiving space for food of the household refrigeration appliance. That receiving space is defined by walls of an inner container of the household refrigeration appliance. The receiving space may be a refrigerator compartment or a freezer compartment.
Such a food-receiving container may also be, in particular, a keep-fresh system. To that end, the food-receiving container generally has a shell and a lid. The stored goods introduced therein may thus be individually stored in the keep-fresh system, partially independently of the remaining receiving space. To that end, it is possible to set customized ventilation. To that end, such food-receiving containers have ventilation devices. Such embodiments are disclosed, for example, in European Patent Application EP 2923165 A1, International Publication WO 2014/079781 A1 corresponding to U.S. Pat. No. 9,453,672, and International Publication WO 2014/090644 A1. In those embodiments of the food-receiving container, the ventilation devices are functional devices. In order to actuate those devices, they generally have an actuating part.
In known embodiments of food-receiving containers it is also provided that such a ventilation device is disposed in a lid which is configured and disposed separately from the shell. That results in restricted movement or potentially tight conditions for the operation of the ventilation device.
It is accordingly an object of the invention to provide a food-receiving container having a ventilation device on a handle of a front panel, and a household refrigeration appliance, which overcome the hereinafore-mentioned disadvantages of the heretofore-known containers and appliances of this general type and in which the ventilation device in the food-receiving container is improved.
With the foregoing and other objects in view there is provided, in accordance with the invention, a food-receiving container for a household refrigeration appliance. The food-receiving container has a shell for receiving the food. The food-receiving container also has a ventilation device. An air exchange between the surroundings and the interior of the food-receiving container may be carried out thereby. When viewed in the depth direction of the food-receiving container, the shell has a panel disposed at the front, i.e. a front panel. A handle is disposed on this front panel. When viewed in the vertical direction of the food-receiving container, the handle is disposed in an upper region of the front panel. The ventilation device is disposed on the handle. Through the use of such an embodiment it is achieved that a ventilation device is disposed directly on the shell itself. The ventilation device is also positioned on a specific component, namely the front panel of the shell. As a result, on the one hand, the ventilation device is able to be easily accessed and actuated by a user. As a result, it is possible to control the ventilation through the front panel. On the other hand, the visibility is also improved thereby. Specifically, the positioning in this upper region of the front panel permits a particularly user-friendly operating concept. Since in this context corresponding free space and/or room is generally provided downwardly, therefore, the accessibility for the hand of a user is also improved and simplified. Specifically, the concept of positioning the ventilation device on the handle itself assists this advantageous operating concept. Since a handle is provided in any case for handling the shell, therefore, the actuation of the ventilation device is also intuitive. Since it is common knowledge that the shell is able to be directly gripped by the handle in order to move it, in particular to push the shell in or out in the depth direction, this also persuades the user at the same time that a relevant actuation of the ventilation device may be carried out in a simple manner. Thus an operating concept is also provided in which the corresponding plurality of functions are disposed locally bundled together on this front panel. This includes, on the one hand, gripping the handle in order to displace the food-receiving container, in particular the shell, and, on the other hand, also in order to be able to actuate the ventilation device. In particular, the ventilation device is disposed entirely on the front panel.
In particular, the handle is disposed in an upper vertical third of the front panel. In one exemplary embodiment, the handle is disposed directly at the upper end and thus is positioned at a maximum distance upwardly. The aforementioned advantages are specifically achieved thereby.
In one exemplary embodiment the handle has a handle recess which may be gripped from below. As a result, a particularly simple handling and gripping concept is achieved. In this context the handle recess is constructed in such a way that it is open downwardly in some regions. A user is thus able to grip the handle recess from below with the fingers. The user thus grips behind a front-side handle recess wall which defines the handle recess. At least sub-components of the ventilation device are disposed in this handle recess. Thus a compact construction of the front panel is possible. The specific embodiment of the handle, namely with a handle recess, thus also affords constructional space so that this ventilation device is able to be received. In addition to a space-saving concept, a protected positioning of the ventilation device is also facilitated thereby. It is thus possible to avoid the situation where the ventilation device is knocked or damaged when the shell is pushed in and pulled out of the receiving space of the household refrigeration appliance.
In one exemplary embodiment, the sub-components of the ventilation device are received entirely in the handle recess. As a result, the sub-components are disposed so as to be particularly protected and installed in a compact manner. In particular, therefore, it may be provided that when viewing the shell from the front side, these sub-components are disposed so as to be entirely concealed in the handle recess. Moreover, a tidy and visually uninterrupted appearance of the food-receiving container is afforded thereby.
In one exemplary embodiment, the ventilation device has a ventilation slider. In this context the ventilation slider represents a sub-component of the ventilation device. This ventilation slider is disposed, in particular, in the handle recess. The ventilation slider is displaceably mounted in this handle recess for opening and closing the ventilation device. In particular, this displacement movement is a linear displacement movement. This displacement movement is oriented, in particular, in the width direction of the food-receiving container. Through the use of such an embodiment, the ventilation slider may be positioned in the handle recess, resulting in an advantageous retention and fastening. In particular, therefore, it is also possible to achieve an accurate relative movement of the ventilation slider relative to the handle recess. In particular, therefore, a very accurate concept is achieved for opening and closing the ventilation device. The ventilation slider, in particular, is a separate one-piece component.
In one exemplary embodiment, the shell itself, in particular a shell wall, has at least one ventilation opening of the ventilation device. The ventilation opening is thus configured in one piece with and/or integrated in a shell wall. The ventilation device preferably has a ventilation slider which is configured for opening and closing the ventilation device, wherein the ventilation opening in the shell wall may be uncovered and covered depending on the position of the ventilation slider. A very compact system is also provided thereby in order to be able to achieve, in particular, a ventilation through this ventilation opening of the handle recess. Due to the handle recess and the shape thereof, therefore, it is also possible to generate a well-directed airflow into the handle recess or out of the handle recess, in particular when the ventilation device is open and this ventilation opening of the shell is uncovered.
In one exemplary embodiment, the ventilation opening of the shell wall is formed in a rear side which defines the handle recess. When viewed in the depth direction of the food-receiving container, this rear side is, in particular, a rear handle recess wall. This rear handle recess wall, in particular, is also a shell wall which directly defines the interior of the shell. Thus it is possible to form very short paths for the guidance of the air exchange.
In one exemplary embodiment, the ventilation slider itself has at least one ventilation opening. This at least one ventilation opening is thus configured in one piece and/or integrated in this ventilation slider. This ventilation opening of the ventilation slider is disposed in the open position of the ventilation device so as to overlap at least partially with at least one ventilation opening which is formed in the shell wall. In this regard, in the closed state of the ventilation device, there is no overlap between these at least two ventilation openings.
In one exemplary embodiment, the ventilation slider is configured as an elongated rail-shaped component. The ventilation slider extends over at least 50 percent, in particular at least 60 percent, in particular at least 70 percent, in particular at least 80 percent of the extent of the handle recess measured in the width direction. The handle recess preferably extends over at least 50 percent, in particular at least 60 percent, in particular at least 70 percent, in particular at least 80 percent, in particular at least 90 percent of the width of the front panel. In particular, the width of the shell is also predetermined by the width of the front panel.
In one exemplary embodiment, the shell may have a width which is greater than 30 cm, in particular greater than or equal to 40 cm. A depth of the shell measured in the depth direction is, in particular, greater than 30 cm.
In one exemplary embodiment, the ventilation slider is approximately U-shaped in cross section. This cross section is viewed perpendicular to a longitudinal axis of the ventilation slider. In this exemplary embodiment, therefore, the ventilation slider may also be formed in the manner of a groove. In particular, relative to its groove-shaped and/or its U-shaped embodiment, the ventilation slider is oriented in such a way that the opening of this U-shape is oriented downwardly. In particular, a mechanically stable component is provided thereby. Through the use of this shape, it may also be disposed in an improved manner in the handle recess. Thus a mechanically stable positioning is provided, with at the same time the possibility for accurate displacement. In one exemplary embodiment, the shape of the ventilation slider is adapted, in particular, to the shape of the handle recess and/or to the shape of the walls defining the handle recess. In this regard, a form-locking positioning of the ventilation slider in the handle recess and thus on the walls defining the handle recess may also be provided at least in some regions. In a further exemplary embodiment, the ventilation slider may also be approximately L-shaped in cross section.
A secure retention and a particularly linear displacement movement are permitted by the aforementioned shapes.
The handle recess is defined, in particular, by a front-side handle recess wall, a rear-side handle recess wall and an upper handle recess wall and/or top wall. In particular, the ventilation slider has a front wall, a rear wall and a top wall.
In particular, at least one ventilation opening of the ventilation slider is formed in the rear wall. In the mounted state, this rear wall bears against the inner face of the rear handle recess wall at least in some regions. A top wall of the ventilation slider bears, in particular, against the inner face of an upper handle recess wall. A front wall of the ventilation slider bears, in particular, against an inner face of the front-side handle recess wall.
In one exemplary embodiment, it is provided that the ventilation slider has a handle and/or a handle part. In particular, this handle part protrudes from the handle recess. Thus the handle part is oriented, in particular, so as to be freely protruding. Thus the handle part is positioned so as to be exposed so that it is able to be gripped by a user in a simple manner. A particularly user-friendly operating concept for displacing the ventilation slider is permitted thereby. The handle part may be a downwardly protruding plate-shaped part. The handle part may be configured to be slightly curved. It is also possible that a handle part is configured to be approximately U-shaped in cross section. Thus, for example, the handle part may be configured as an encompassing part. In particular, the handle part may be disposed in such a way that it encompasses a front-side handle recess wall on the front side and rear side and from below.
In one exemplary embodiment, it is provided that the ventilation slider is mounted directly on the walls defining the handle recess. The mounting may be releasable in a non-destructive manner. This may be provided, for example, with at least one snap-in device. In this exemplary embodiment, the ventilation device thus has the ventilation slider which receives the at least one ventilation opening in the shell and the handle part. Further components are thus not provided.
A clamped connection may also be provided in addition to the at least one snap-in connection or alternatively thereto. Then the ventilation slider is held in a clamped manner in the handle recess.
In one exemplary embodiment, it is provided that the ventilation device has, in particular, a rail-shaped carrier part which is separate from the ventilation slider and from the shell. This carrier part is disposed, in particular, in the handle recess. The carrier part is disposed, in particular, directly on the shell. In particular, the carrier part is positioned fixedly on the shell. In particular, a releasable connection of the carrier part on the shell is provided in a non-destructive manner. For example, in this context a snap-in connection and/or a clamped connection may be provided. When viewed in the width direction in which the carrier part extends with its longitudinal axis, it is possible in this context that snap-in elements are provided on opposing ends. These snap-in elements are able to be snapped into snap-in receivers which are provided in the walls of the shell. These walls define the handle recess with the opposing end sides in the width direction. In a further exemplary embodiment, it may be provided that the carrier part is held additionally or alternatively thereto by a clamped connection in the handle recess. In particular, the carrier part is thus anchored to the handle recess walls. It is also possible that positioning hooks are provided. These positioning hooks may be disposed on the shell. In particular, the positioning hooks may be integrally formed in one piece on components of the shell separate from the front panel. This is advantageous, in particular, when the front panel is a separate component and in this regard is separate from a base body of the shell. The base body may be configured in one piece. In an exemplary embodiment, the base body may have the bottom wall of the shell, two opposing vertical side walls of the shell and a vertical rear wall of the shell. These hooks may thus be disposed on a front-side upper edge of the vertical side walls of the base body. When assembling the front panel to the base body, these hooks are able to engage in hook receivers in the front panel. They may be positioned in such a way that they support the carrier part, which is already disposed in the handle recess, from below and/or push the carrier part upwardly. As a result, the carrier part is pushed upwardly by the hooks against the upper handle recess wall.
In one exemplary embodiment, the ventilation slider is movably disposed on the carrier part. In particular, a direct configuration of the ventilation slider on the carrier part is provided in this case. In this context, a guide device may be provided. For example, in this case it is possible to provide a guide opening in which an engagement part and/or an engagement element engages. The guide device is formed by this mechanical coupling. In the mounted state on the carrier part, the ventilation slider may also be displaced thereby relative to the carrier part. In particular, a linear displacement movement is provided in this case. In particular, this linear displacement movement is oriented in the width direction of the food-receiving container.
A plurality of such guide devices may also be provided. These guide devices may be provided as retaining and guiding devices. Both the guiding and the retaining of the ventilation slider on the carrier part is possible thereby. Corresponding snap-in guide devices may be provided in this case. This is possible on a rear-side carrier part wall and a rear-side wall of the ventilation slider. Additionally or alternatively thereto, a corresponding connection may be provided on a front-side carrier part wall and a front-side wall of the ventilation slider.
In one exemplary embodiment, when viewed in cross section, the carrier part is configured to be approximately U-shaped. The carrier part, in particular, is an elongated, in particular rectilinear, rail. In its embodiment as a U-shape, the carrier part may also be configured in the manner of a groove in terms of the shape thereof. In one exemplary embodiment the carrier part extends over at least 50 percent, in particular at least 60 percent, in particular at least 70 percent, in particular at least 80 percent, in particular at least 90 percent of the width of the handle recess.
In one exemplary embodiment, the carrier part is directly disposed on walls which define the handle recess. The configuration is fixed. A non-destructive, releasable connection may be provided. In one exemplary embodiment, as has been already set forth above, the ventilation slider is displaceably mounted directly on the carrier part. The ventilation slider is thus releasably mounted therein in a non-destructive manner.
Advantageous options have already been cited for fastening the carrier part to the handle recess walls.
In one exemplary embodiment, it is provided that the food-receiving container has a lid. This lid is a separate component from the shell. The lid may be configured and disposed so as to be directly positioned onto the shell from above. The lid may be configured merely as a lid closing the shell. However, the lid may additionally be configured as a shelf or as a partition. In such an exemplary embodiment, therefore, the lid is disposed so as to be slightly spaced apart from the shell. The lid is thus disposed on the inner faces of an inner container of the household refrigeration appliance. The inner container is a separate component from the food-receiving container. The inner container is configured, in particular, in a receiving space for food. This receiving space may be a refrigerator compartment or a freezer compartment. The food-receiving container is able to be received in the inner container in a movable manner, in particular in a displaceable manner in the depth direction.
In one exemplary embodiment, the ventilation device has a display unit for displaying the ventilation operating states of the ventilation device. In one exemplary embodiment, this display unit is disposed in the handle of the shell. In one exemplary embodiment, a displayed ventilation operating state may be observed on a top wall and/or an upper handle recess wall of the handle. This means that this displayed ventilation operating state is visible and observable from above. It may be provided that this top wall and/or the upper handle recess wall has at least two viewing windows. These viewing windows are, in particular, continuous holes. In one exemplary embodiment, it may be provided that symbols which characterize the different ventilation operating states are disposed on a top wall of the ventilation slider and/or on a top wall of the carrier part. In particular, when the ventilation device has only the ventilation slider and no carrier part, these symbols may be provided on the top wall of the ventilation slider. Depending on the displacement position, therefore, the respective symbols may be seen and identified through at least one of these viewing windows. If the ventilation device has the above-mentioned carrier part, it may be provided that this carrier part also has viewing windows. These viewing windows may be disposed in a congruent manner with the viewing windows in the upper handle recess wall. In this case, therefore, depending on the displacement position of the ventilation slider, the symbol may be observed through the viewing window on the upper handle recess wall and the viewing window of the carrier part. In particular, the viewing windows are provided in the case of an opaque embodiment of the upper handle recess wall.
It is also possible that this upper handle recess wall is transparent at least in some regions. The upper handle recess wall may then be configured without such a continuous viewing window. Then the respective symbol which characterizes the ventilation state is visible through the transparent region of this upper handle recess wall.
In principle, it is possible that the walls which define the handle recess are transparent at least in some regions, in particular entirely. It is also possible that at least one of these walls is opaque and thus non-transparent. Thus many different variants of food-receiving containers are also possible in this regard.
In one exemplary embodiment, the front panel is movably disposed on a base body of the shell on the front side. The exemplary embodiment of a base body has already been described above.
As an alternative to the aforementioned exemplary embodiment in which the display unit and/or the indicator for displaying an ventilation operating state is configured in a top wall of the handle of the shell, and/or may be seen from there, additionally or alternatively thereto it may also be provided that this display of the ventilation operating state is disposed on a front handle recess wall. The ability to observe the ventilation operating state is thus permitted through this front-side handle recess wall of the handle of the shell.
The positions and orientations provided when the container and/or the appliance is used as intended and disposed as intended are specified by the terms “top,” “bottom,” “front,” “rear,” “horizontal,” “vertical,” “depth direction,” “width direction,” “vertical direction”.
Further features of the invention are disclosed in the claims, the figures and the description of the figures. The features and combinations of features cited above in the description, as well as the features and combinations of features cited hereinafter in the description of the figures and/or shown individually in the figures, are able to be used not only in the respectively specified combination but also in other combinations or alone, without departing from the scope of the invention. Thus embodiments which are not explicitly shown and described in the figures, but which are revealed and are able to be generated by separate combinations of features from the described embodiments, are also to be regarded as encompassed and disclosed by the invention. The embodiments and combinations of features which, therefore, do not have all of the features of an originally formulated independent claim are to be regarded as disclosed.
Although the invention is illustrated and described herein as embodied in a food-receiving container having a ventilation device on a handle of a front panel, and a household refrigeration appliance, 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 in detail to the figures of the drawings, in which the same or functionally the same elements are provided with the same reference characters, and first, particularly, to
The further receiving space 5 generally serves for deep-freezing frozen goods, for example at −18° C. The receiving space 5 is accessible when a freezer compartment door 7 is open.
A refrigerated goods container and/or keep-fresh container is mounted in the above receiving space 4 in a manner in which it is able to be pulled out. The keep-fresh container constitutes a food-receiving container 8. The food-receiving container 8 has a drawer and/or shell 10. In one exemplary embodiment, the food-receiving container 8 also has a lid 9. This lid is separate from the shell 10. The lid 9 may be provided only for closing the shell 10 from above. The lid may then be positioned directly on the shell 10. In one exemplary embodiment it may also be provided that the lid 9 is configured at the same time as a shelf or partition. The lid is then, in particular, directly mounted on the side walls 3a and 3b. In one exemplary embodiment, therefore, the lid does not directly bear against the shell 10 but is disposed, in particular, so as to be offset upwardly at a minimum distance.
It may also be provided, as shown, that a separate cover 11, for example in the form of a partition, for example a glass shelf, is disposed in addition to the lid 9. This cover is disposed directly above the lid 9 and slightly spaced apart from the lid 9.
A further or different food-receiving container 8′ may also be provided.
The food-receiving container 8 is separated at least by the cover 11 from the residual partial volume of the receiving space 4 which remains.
The food-receiving container 8 may be removed from the receiving space 4 in a non-destructive manner. Even in the state inserted into the receiving space 4 it is provided that the shell 10 may be pushed back and forth in the depth direction and thus in the z-direction, in the state still mounted in the receiving space 4, in order to be able to reach into the interior of the shell 10. The same may also be provided in the food-receiving container 8′. This food-receiving container may also be configured with a shell and, in particular, also with a lid.
In
The shell 10 also has a front panel 17. The front panel 17 in the exemplary embodiment is a separate component from the base body 12. The front panel constitutes a front wall of the shell 10. The front panel is releasably disposed on the base body 12 in a non-destructive manner. The front wall and/or the front panel 17 directly defines on the front side a storage space 18 of the shell 10.
The front panel 17 is configured in the manner of a plate. The front panel 17 has a handle 19. The handle 19 is configured in one piece in the front panel 17. In the exemplary embodiment, the handle 19 extends substantially over the entire width of the front panel 17. In the exemplary embodiment, the front panel 17 extends substantially over the entire width of the shell 10. The handle 19 has a handle recess 20. The handle recess 20 is open downwardly. As a result, the handle may be gripped from below, when approached from the front. When viewed in the vertical direction (y-direction) the handle 19 is provided in an upper region of the front panel 17. The handle is provided, in particular, in an upper third of the height of the front panel 17. In particular, the handle is disposed on an upper edge 21 of the front panel 17. The handle thus constitutes an upper terminal portion of the front panel 17.
When viewed in the depth direction, the handle recess 20 is defined by a front-side handle recess wall 22 and upwardly by an upper handle recess wall 23 and rearwardly by a rear handle recess wall 24 (
Moreover, when viewed in the width direction, further opposing defining walls are configured as handle recess walls which are represented by handle recess walls 26 and 27 (
The food-receiving container 8, 8′ also has a ventilation, air-conditioning or climatizing device 28. Through the use of this ventilation device 28, an air exchange may be carried out between the surroundings and the interior of the shell 10 which is formed by the storage space 18, in particular through the front panel 17.
In the exemplary embodiment, the ventilation device 28 is disposed on the shell 10. The ventilation device 28 is disposed entirely on the front panel 17.
Even if the lid 9 is a component of the food-receiving container 8, 8′, in one exemplary embodiment the ventilation device 28 is disposed entirely in the front panel 17.
As may be identified, at least sub-components of the ventilation device 28 are disposed on the handle 19. In particular, in this regard sub-components of the ventilation device 28 are disposed in the handle recess 20, in particular received entirely therein.
In the illustrated exemplary embodiment, the front panel 17 is shown in an exploded view in
In the exemplary embodiment, the ventilation device 28 also has a ventilation slider 30. The ventilation slider 30 constitutes a separate component from the front panel 17. The ventilation slider is constructed in the manner of a rail and/or bar. In the exemplary embodiment shown herein, the ventilation slider 30 has a rear wall 31. In particular, a plurality of ventilation openings 32 are formed in this rear wall 31. For the sake of clarity, only some of the ventilation openings are provided with the corresponding reference character. Moreover, in the exemplary embodiment the ventilation slider 30 has a top wall and/or an upper wall 33.
In a further exemplary embodiment, in addition to the rear wall 31 and the upper wall 33, a front wall 34 viewed in the depth direction (
In
The ventilation slider 30 is displaceably disposed in the handle recess 20. In particular, a linear displacement movement is possible in this case, in particular in the width direction. To this end, it is provided that the ventilation device 28 is open when the ventilation openings 32 are disposed so as to be at least partially overlapping with the ventilation openings 29. If the ventilation slider 30 is displaced in such a way that there is no overlap between the ventilation openings 32 and the ventilation openings 29, the ventilation device 28 is closed.
In one exemplary embodiment, it may be provided that the ventilation device 28 has only the ventilation slider 30, in particular with the handle 35 and the ventilation openings 29, 32.
In a further exemplary embodiment, it may be provided that the ventilation device 28 additionally has a carrier part 36 separate therefrom. This is shown in
Moreover, the carrier part 36 has ventilation openings 41, wherein in this case only some of the ventilation openings are provided with the corresponding reference character. In the mounted state of the carrier part 36 the ventilation openings 41 are disposed, in particular, so as to be congruent with the ventilation openings 29. In the mounted state, the carrier part 36 is disposed fixedly on the front panel 17 in the handle recess 20. The ventilation slider 30 is disposed on this carrier part 36 so as to be relatively displaceable thereto, in particular is mounted directly thereon.
It may be provided that the ventilation slider 30 is directly disposed on the carrier part 36 by a snap-in connection and/or by a clamped connection. In particular, it is provided that a guide device is provided ed by which the ventilation slider 30 is displaceably mounted on the carrier part 36. In particular, a retention is also possible thereby. Relative to the guide device the carrier part 36 has, for example, a guide receiver 42. Engagement elements 43 engage in this guide receiver (
This guide device may also serve as a retaining device, in particular when the ventilation slider 30 is held by a clamped retention on the carrier part 36.
In the exemplary embodiment of the ventilation slider 30 shown in
In an exemplary embodiment, it is provided that the shell 10, in particular the front panel 17, has a display unit 44 (
These viewing windows 45 and 46 are, in particular, continuous holes. It may be provided that symbols 47 are displayed on an upper face 33a (
As may also be identified in
In this embodiment of the display unit 44 at least the upper handle recess wall 23 may be formed so as to be opaque.
If the upper wall 23 is formed so as to be transparent, the viewing windows 45 and 46 do not have to be present. If the carrier part 36 is present, depending on the transparency or opaqueness of the carrier part 36 it may be provided that the viewing windows 48 and 49 are present or not present.
In
In one exemplary embodiment, it may be provided that the side wall 14 has a hook 50 in an upper front corner region. This is provided, in particular, when the front panel 17 is a separate component from the base body 12. The hooking of the front panel 17 to the base body 12 in the upper region is made possible thereby. In one exemplary embodiment, this hook 50 is also provided at the same time to fix the carrier part 36. To this end, in one exemplary embodiment it is provided that the carrier part 36 has an engagement region 51 (
In
In
In all of the exemplary embodiments it is also possible that such a mechanical coupling in the form of a guide device and/or retaining device is provided on the upper walls 33 and/or 52 and/or the upper handle recess wall 23.
In
In
In one exemplary embodiment it is provided that a rear-side wall 58 of the approximately U-shaped ventilation slider 30 extends downwardly over the rear-side wall 57 of the carrier part 36. The overlap of this rear wall 58 protruding downwardly relative thereto, however, is disposed substantially without contact with the rear-side handle recess wall 24. A direct bearing with a marginal edge 58b on the inner face of the rear handle recess wall 24 is provided merely on a lower freely protruding end 58a. As a result, a bearing of this wall 58 against the rear handle recess wall 24 over a large surface area is avoided. A simpler displacement of the ventilation slider 30 is thus possible. In particular, the scratching of the inner face of the rear-side handle recess wall 24 is also avoided thereby.
In
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 |
|---|---|---|---|
| 102020209319.9 | Jul 2020 | DE | national |
| Number | Name | Date | Kind |
|---|---|---|---|
| 5040856 | Wilkins et al. | Aug 1991 | A |
| 9453672 | Becke et al. | Sep 2016 | B2 |
| Number | Date | Country |
|---|---|---|
| 104215011 | Dec 2014 | CN |
| 108870865 | Nov 2018 | CN |
| 2923165 | Sep 2015 | EP |
| 2009036436 | Feb 2009 | JP |
| WO-2012146581 | Nov 2012 | WO |
| 2013164341 | Nov 2013 | WO |
| 2014079739 | May 2014 | WO |
| 2014079781 | May 2014 | WO |
| 2014090644 | Jun 2014 | WO |
| WO-2015086185 | Jun 2015 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20220026138 A1 | Jan 2022 | US |
