Domestic refrigeration appliance with a stabilised anti-tip device and / or a pull-out stop device for a food receiving container
By setting a side stop element on the pallet and connecting it in one piece with the stabilizing element, the problem of instability of the pallet during the pulling and flipping process in household refrigeration equipment is solved, realizing stable movement of the pallet and preventing deformation of the stop element, thereby improving the service life and safety of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- BSH HAUSGERATE GMBH
- Filing Date
- 2023-05-22
- Publication Date
- 2026-06-09
Smart Images

Figure CN117109240B_ABST
Abstract
Description
Technical Field
[0001] One aspect of the invention relates to a household refrigeration appliance, including at least one receiving space for food. This receiving space is defined by a wall of the household refrigeration appliance. Furthermore, the household refrigeration appliance has at least one tray for receiving stored items. Additionally, the household refrigeration appliance has a guiding system. The tray is movably disposed in the receiving space using this guiding system. In this regard, the tray is particularly pullable, and particularly movably guided or supported along the depth direction of the household refrigeration appliance. The guiding system has a guiding unit. This guiding unit is disposed on at least one of the walls defining the receiving space. The household refrigeration appliance additionally has an anti-tipping device and / or a pull-out stop device. Using this anti-tipping device and / or pull-out stop device, the pulling out and / or tipping of the tray is restricted in the pulled-out state. Background Technology
[0002] Household refrigeration equipment with receiving spaces, such as freezer compartments or refrigerator compartments, is known. A tray is provided in this receiving space, configured to receive stored items, particularly food. Such a tray may have a basin-like container. The tray may be configured to be exposed upwards, thus having a top filling opening. Summary of the Invention
[0003] The purpose of this invention is to realize a household refrigeration device in which the positioning of the tray during movement is improved, and in particular, the pull-out position of the tray can be better adjusted.
[0004] This objective is achieved by a household refrigeration device having features according to a preferred embodiment.
[0005] One aspect of the invention relates to a household refrigeration appliance including at least one receiving space for food. This receiving space is defined by a wall of the household refrigeration appliance. Furthermore, the household refrigeration appliance has at least one tray for receiving stored items. The household refrigeration appliance also has a guiding system. The tray is movably positioned in the receiving space using this guiding system. In this regard, the tray is particularly pullable, and particularly movably guided or supported along the depth direction of the household refrigeration appliance. The guiding system has a guiding unit. This guiding unit is disposed on at least one of the walls defining the receiving space. The household refrigeration appliance additionally has an anti-tipping device and / or a pull-out stop device. The anti-tipping device and / or pull-out stop device restrict the pulling out and / or tipping of the tray in the pulled-out state.
[0006] The anti-tipping device and / or pull-out stop device have a tray side stop element. This tray side stop element is conventionally configured such that if the tray is pulled forward when viewed along the depth direction of the household refrigeration unit, the stop element stops, in particular, directly contacts, a corresponding stop element on the outside of the tray. This tray side stop element is particularly freely cantilevered and projecting laterally onto the tray along its width. This stop element is positioned in the pulled-out position of the tray to stop against the corresponding stop element on the outside of the tray. This is to enable the formation of the anti-tipping and / or pull-out stop system. The tray also has a stabilizing element different from the tray side stop element. This stabilizing element is connected to the tray side stop element. In particular, this stabilizing element is directly connected to the stop element. Furthermore, the stabilizing element terminates at a portion of the tray different from the tray side stop element. This stabilizes the tray side stop element. With such a household refrigeration unit, it is now achieved that the tray side stop element is mechanically additionally stabilized or protected. Thus, on the one hand, the stop element is exposed and can be easily directly coupled to a corresponding stop element outside the tray; on the other hand, a mechanical connection to other components of the tray is achieved by means of a stabilizing element. This also results in better absorption and dissipation of forces acting on the stop element when it reaches the pull-out position. This better avoids undesirable bending or even breakage of the stop element. Even with relatively large trays—which can subsequently be extensively filled with stored items—this solution better absorbs the corresponding leverage and torsional forces acting on the stop element. In the pull-out position, the tray is pulled out to its maximum forward when viewed in the depth direction, yet remains coupled to the guide unit. In this relatively exposed forward position, the tray is also set to hang freely forward. Based on gravity, this also constitutes the tray's flipping position, which is generated around a flipping axis oriented in the width direction. Stabilization is achieved using a stabilizing element to better absorb and dissipate the forces.
[0007] In particular, the stabilizing element can also be configured as a support rod. In one embodiment, the stabilizing element may be directly connected to the tray side stop element at its first end. The stabilizing element may also be directly connected to the tray portion at its opposite end.
[0008] In one embodiment, the stabilizing element is configured as a suspension system for the pallet side stop element. This specifically means that the stabilizing element extends upwards from the stop element when viewed along the height direction of the pallet, and then terminates on a portion of the pallet above the pallet side stop element in the height direction. Thus, the pallet side stop element is coupled upwards to the pallet portion via the at least one stabilizing element. The stop element is thus suspended from the pallet portion by means of the stabilizing element. This is particularly advantageous in that it allows for better absorption and dissipation (especially in the pull-out position) of forces acting on the stop element from above and / or diagonally above. This also better prevents excessive downward and backward bending of the stop element in the pull-out position.
[0009] In one embodiment, the stabilizing element is formed as a plate-like strip. Viewed perpendicular to its longitudinal axis, the stabilizing element is thus formed relatively thin. However, its dimensions are more defined within the planar extension of the plate-like strip, resulting in corresponding rigidity. Furthermore, this also allows for increased, and particularly along a longer line, direct connection to both the stop element and the tray element. In particular, the stabilizing element is configured as a suspension strap for suspending the stop element.
[0010] A stabilizing element can be implemented using a plate-like strip, the size of which can be determined accordingly along the width direction of the tray so as to connect with the tray side stop element along the width direction for a defined length. Thus, the stop element is stabilized by the stabilizing element for at least a portion of the length measured along the width direction. Consequently, the length of the stop element that freely protrudes from the side wall of the tray is compensated by the stabilizing element.
[0011] In one embodiment, the stabilizing element and the tray side stop element are integrally formed.
[0012] This reduces the number of components and lowers assembly costs, as it eliminates the need to additionally assemble separate stabilizing elements and separate tray side stops with other components. Furthermore, this one-piece design also achieves a durable and stable connection that remains intact without positional tolerances or similar issues.
[0013] In one embodiment, the upper end of the stabilizing element terminates at a plate on the tray. This plate is part of or a component of the tray portion. Thus, an exposed member, i.e., the plate, is achieved on the tray portion, to which the upper end of the stabilizing element extends. This configuration also achieves an overall mechanically stable structure between the plate, the stabilizing element, and the stop element. This allows for highly discrete local contact positions between the plate and the stabilizing element. This is particularly advantageous for forming corresponding force paths, so that undesirable movement and / or deformation of the stop element can be avoided.
[0014] In particular, the upper end of the stabilizing element is formed as a single piece with the plate.
[0015] In principle, one-piece construction is one-piece manufacturing. This involves manufacturing stabilizing and stopping elements, particularly plates, in a single process. It also means that only components with their respective geometries are constructed and manufactured in this process. Therefore, one-piece manufacturing does not mean that these individual components are manufactured separately in their own geometry and then connected to each other in subsequent processes, such as by bonding or similar methods.
[0016] However, in one embodiment, it is also possible to manufacture and provide the stop element and the stabilizing element as separate components, and then connect them to each other in a subsequent process, for example, by bonding or thermal welding.
[0017] In one embodiment, the stabilizing element, viewed along the width of the tray, is formed only on a portion of the width of the stop element. Specifically, the stabilizing element is configured to extend along a portion of the total length of the stop element, beginning at the end of the stop element that is inside the tray wall relative to the tray. Thus, the portion of the stop element facing away from the tray wall (on which the stop element is disposed and oriented laterally) lacks a stabilizing element. In this case, this portion of the stop element extends laterally completely freely overhanging. In this respect, another portion of the stop element facing the tray extends laterally freely overhanging from the tray wall, yet is also connected to the stabilizing element along the width direction through this portion.
[0018] Furthermore, this embodiment allows for highly advantageous direct coupling between stop elements, particularly in the pull-out position. Even in the case of the portion of the stop element located on its outer side, there is no obstruction during tray coupling and / or flipping.
[0019] In one embodiment, the stabilizing element, when viewed along the width of the tray, is configured to be spaced apart from the outer end of the tray side stop element.
[0020] Preferably, the pallet side stop element extends rearward at least partially beyond the storage volume of the pallet when viewed along the depth direction of the pallet. This is another advantageous embodiment. This allows the pallet to be pulled forward to the maximum extent in its pulled-out position, where the rear region of the storage volume is particularly advantageously accessible. This is because the coupling position between the pallet side stop element and its corresponding stop element on the outside of the pallet is offset rearward as far as possible along the depth direction.
[0021] In one embodiment, the stop element is at least partially formed as a hollow profile. This saves material and reduces the weight of the pallet. Even so, advantageous mechanical stability and rigidity are achieved through this hollow profile.
[0022] In one embodiment, the hollow profile is configured to open outwards when viewed from the side along the width of the tray. This also saves material. In one embodiment, at least one reinforcing support is formed in the hollow profile that forms the stop element. This strengthens the hollow profile itself. If the stop element contacts a corresponding stop element in the pulled-out position of the tray and a corresponding force is applied to the stop element, high shape stability can be obtained.
[0023] Preferably, at least one reinforcing support may be formed between the stabilizing element and the pallet wall. Thus, the reinforcing support may also be connected to the pallet wall at a different location than the ends, particularly the upper and lower ends. Otherwise, the stabilizing element is disposed, particularly at a distance from the pallet wall.
[0024] In one embodiment, the stop element is configured to face forward as having an inclined stop wall. The inclined stop wall is preferably inclined rearward and upward with respect to its orientation. This means that the front end of the stop wall, viewed in the depth direction, is deeper than the rear end, viewed in the height direction. This achieves a very advantageous coupling with the corresponding stop element outside the tray. Thus, particularly in the pull-out position (in which the tray is also arranged with a slight downward tilt), this particular position of the tray can be maintained particularly advantageously. This is because a larger contact area between the inclined stop wall and the corresponding stop element can be achieved. Thus, a linear contact position—which would subsequently generate a correspondingly larger force peak locally—can be avoided on the stop element, and even so, the desired slight tilting position of the tray can still be achieved.
[0025] Furthermore, the inclined stop wall preferably also defines, and in particular limits, the maximum possible tilting position of the pallet in the pulled-out position.
[0026] In one embodiment, the pallet-side stop element is configured as the particularly upward-guided rear end of an elongated guide rail oriented along the depth direction of the pallet. Thus, the stop element is almost integrated into the guide rail. This allows the stop element to be implemented mechanically more stably, even from its own perspective. In one embodiment, at least a portion of the guide rail, viewed along the depth direction and adjacent to the stop element, is also configured as a hollow profile. Accordingly, the advantages described for the hollow profile of the stop element are obtained. Advantageously, this portion of the guide rail, also configured as a hollow profile, has one or more reinforcements. These reinforcements can be, for example, reinforcing ribs or reinforcing supports. This also achieves a particularly stable guide rail. This also makes pallet movement more efficient, as the pallet-side guide rail is thus configured to withstand high loads and move accordingly as the pallet moves on the guide unit. Forces acting between the guide rail and the guide unit do not cause damage to the guide rail. A truss-like structure, particularly rigidly constituting the overall element, i.e., the guide rail, can also be achieved through this hollow profile with reinforcements or a support system.
[0027] Therefore, even if the pallet is relatively large, especially if it is loaded with a large amount of stored items, unwanted damage to the guide rails, such as deformation or tearing, can be avoided.
[0028] Preferably, the anti-tipping device and / or pull-out stop device have a corresponding stop element on the outside of the pallet. In particular, this corresponding stop element restricts the guide rail for the pallet upward when viewed in the height direction. This also advantageously prevents the pallet from moving undesirably upward. It also advantageously prevents the pallet from tipping over upward from the guide movement. Similarly, because of the corresponding stop element positioned in this way, the pull-out position can also be achieved particularly advantageously, and the stop element can be positioned in an upward, particularly upward and forward tilting orientation. Thus, in the pull-out position, the stop element is supported on the corresponding stop element in an inclined orientation forward and upward. It is precisely this position that is advantageous in the case of very large and widely loaded pallets, because the corresponding stop element can be formed very stably in this respect and can subsequently absorb the forces that occur in the pull-out position of the pallet particularly advantageously.
[0029] In one embodiment, the guide rail corresponding to the stop element and the guide unit is constructed as a single piece, wherein the guide rail restricts the guide track downward when viewed along the height direction of the household refrigeration unit. Specifically, the guide unit is configured as a guide bracket for the guide rail, oriented along the depth direction. Thus, the tray's guide rail rests against the guide unit in a strip-like manner. This larger surface contact also improves the force distribution of the tray acting on the guide unit, preventing localized force peaks. Furthermore, this allows for smoother and more stable guidance and better prevents wedging or jamming.
[0030] In one embodiment, the corresponding stop element has a sloping rear wall. This specifically means that the sloping rear wall, viewed in the depth direction, has its front end positioned lower in the height direction than its rear end. Preferably, the slope of the rear wall corresponds to the slope of the stop wall of the stop element. This same slope allows for a particularly large area of contact between the stop wall and the rear wall in the pulled-out position.
[0031] In one embodiment, the guide unit has a guide rail that downwardly restricts the guide rail for the pallet, wherein the guide rail has a partial bulge. This partial bulge serves, in particular, as a tilting support for the pallet during pull-out. This partial bulge can be configured, for example, as a dome-shaped bulge. Such a protrusion, particularly without corners, causes a continuous and uniform tilting of the pallet. Preferably, the partial bulge is formed on the front end of the guide rail of the guide unit in the depth direction. The operating principle of reaching the pull-out position and subsequently defining a restricted tilting position is thus particularly advantageous, because this achieves a smooth pull-out with the automatic tilting caused around the front support position.
[0032] In one embodiment, the tray has a width measured along its width direction of less than 60 cm, particularly less than 70 cm, preferably between 70 and 90 cm, and especially between 75 and 85 cm. Such a very wide tray can be used in very large household refrigeration equipment, such as correspondingly large refrigerators or freezers or refrigeration-freezing-combination units. Because the tray thus also has a significantly larger storage volume for the stored items due to its size, the total weight of the tray and the stored items can be greater than 15 kg, particularly also greater than 20 kg, and especially greater than 40 kg. It is precisely in the case of trays of such size that the invention is particularly advantageous so that, if the pull-out position is reached, the stop element will not undesirably bend, break, or tear.
[0033] The terms "up," "down," "front," "back," "horizontal," "vertical," "depth," "width," and "height" describe the position and orientation of household refrigeration equipment under conventional use and positioning conditions.
[0034] Further features of the invention arise from the claims, drawings, and description thereof. Features and combinations thereof previously described in the specification, as well as features and combinations thereof subsequently described in the description of the drawings and / or shown separately in the drawings, are applicable not only in their respective proposed combinations but also in other combinations or individually, without departing from the scope of the invention. Therefore, the following embodiments, which are not explicitly shown and illustrated in the drawings but are derived and can be produced by separate combinations of features from the illustrated embodiments, should also be considered as included and disclosed by the invention. Thus, the following embodiments and combinations of features, which do not possess all the features of the originally drafted independent claims, should also be considered as disclosed. Attached Figure Description
[0035] Embodiments of the invention are further illustrated below with reference to schematic diagrams. In the drawings:
[0036] Figure 1 : A perspective view showing an embodiment of a household refrigeration device according to the present invention;
[0037] Figure 2 : Showing according to Figure 1 A vertical cross-sectional view of a portion of a household refrigeration appliance, the household refrigeration appliance including an embodiment of a tray in a pull-out position, the tray including an anti-tipping device and / or a pull-out stop device;
[0038] Figure 3 : A perspective view showing an embodiment of the tray and the guide unit outside the tray;
[0039] Figure 4 : Show Figure 3 A magnified view of a portion of the area;
[0040] Figure 5 : Show Figure 3 An enlarged subview of another area within the view;
[0041] Figure 6 : An enlarged subview showing a portion of an embodiment of a tray used for storing items;
[0042] Figure 7 : A perspective view showing another embodiment of a tray, the tray including specific components of one embodiment of an anti-tipping device and / or pull-out stop device; and
[0043] Figure 8 : Showing according to Figure 1 A perspective view of a portion of a household refrigeration unit with a removable tray.
[0044] In the accompanying drawings, parts that are identical or have the same function are given the same reference numerals. Detailed Implementation
[0045] exist Figure 1 The diagram shows a perspective view of a household refrigeration unit 1. This household refrigeration unit is configured for storing and preserving food. The household refrigeration unit 1 can be a refrigeration unit, a freezing unit, or a refrigeration-freezing unit.
[0046] The household refrigeration appliance 1 has a housing 2. At least one receiving space 3 for food is formed within the housing 2. The receiving space 3 may be, for example, a refrigerator compartment. The household refrigeration appliance 1 also has a door 4. The door 4 is movably mounted on the housing 2. Specifically, the door is configured to close the receiving space 3 from the front.
[0047] In one embodiment, the household refrigeration unit 1 may have another receiving space 5 for food. This receiving space 5 may be a refrigerator compartment. This receiving space 5 can be closed on the front side through another door 6 of the household refrigeration unit 1.
[0048] At least one tray for receiving stored items may be provided in the receiving space 3. Exemplarily, multiple trays, particularly three trays 7, 8, and 9, are provided here. Trays 7 to 9 are basin-type receiving containers. These trays may also be referred to as food receiving trays. Trays 7 to 9 may have a width greater than 50 cm, particularly greater than 60 cm, particularly greater than 70 cm, and particularly between 70 and 90 cm (measured along the x-direction).
[0049] Alternatively, the household refrigeration unit 1 may also have at least one tray 10 in the receiving space 5. Two trays 10 and 11 are shown here as an example.
[0050] Furthermore, the household refrigeration unit 1 has a guiding system 12. This guiding system 12 allows at least one tray 7, 8, 9 to be movably supported. This guiding system 12 allows the trays 7, 8, 9 to be pulled out of and pushed into the receiving space 3 in a guided manner along the depth direction (z-direction) of the household refrigeration unit 1.
[0051] exist Figure 2A vertical cross-sectional view of the household refrigeration unit 1 is shown in the middle section. A vertical cross-sectional view of the receiving space 3 is shown here in one example. The cross-sectional plane extends along the height (y-direction) and depth directions of the household refrigeration unit 1. A guide system 12 is also shown here. This guide system has guide units 13, 14, and 15 for each tray 7. Guide unit 13 has a guide rail 16. The guide rail 16 is, in this case, located on the side wall 17 that defines the receiving space 3. The guide rail 16 is configured as a hollow profile in this area. It has a hollow profile cover 18. It also has a hollow profile bottom 19. Multiple reinforcing supports 20 may be provided in this hollow profile; for clarity, only some of the reinforcing supports are indicated by reference numerals.
[0052] On the guide rail 16, particularly the hollow profile cover 18, the tray 7 can be coupled to the guide rail 21 on the tray side. This guide rail 21 on the tray side can be supported on the guide rail 16 outside the tray for movement along the depth direction. This guide rail 21 on the tray side is provided on the side wall 22 of the tray 7. It can be integrally formed with this side wall. In particular, it can be configured, for example, as an injection-molded component.
[0053] Correspondingly, guide rails 16 and 21 are also configured for the other tray 8. In particular, trays 7 and 8 are configured similarly here. Preferably, guide units 13 and 14 are also configured similarly here. Also, the above description, particularly for guide rails 16 and tray 7, as well as the special anti-tipping device and / or pull-out stop device, and the following description similarly apply to tray 8 and guide unit 14.
[0054] In comparison, Figure 2 Another embodiment of guide unit 15 is also shown, which is formed differently from guide units 13 and 14. Guide rail 23 is shown. This guide rail is geometrically different from guide rail 16. Guide rail 23 can also be formed as a hollow profile. However, guide rail 23 can also be designed in other ways.
[0055] In the case of guide rail 23, in this embodiment, a partial bulge 24 is formed on the front end 23a when viewed in the depth direction. This partial bulge 24 is preferably a support position on which the tray 9 shown here is rotatably supported. As can be seen here, the guide rail 25 on the tray side sits on the support position 24 from above with its bottom 26. In the illustrated embodiment, all trays 7, 8, and 9 are shown in the pulled-out position. This means that these trays are pulled forward to the maximum extent in the depth direction, yet still coupled to the guide units 13, 14, and 15.
[0056] The anti-tipping device and / or pull-out stop device 27 present here also function in these pull-out positions. In one embodiment of the tray 9 and guide unit 15, an anti-tipping device and / or pull-out stop device 28 is also configured.
[0057] Anti-tipping devices and / or pull-out stop devices 27 and 28 prevent trays 7, 8, and 9 from being pulled further forward beyond their designated positions. Figure 2 The maximum pull-out position is shown in the diagram. Additionally, or alternatively, the anti-tipping device and / or pull-out stop devices 27 and 28 also restrict the tilting of trays 7, 8, and 9 downwards. The positions where the pulled-out trays 7 to 9 tilt only slightly are shown here. These positions are maintained and defined by the anti-tipping device and / or pull-out stop devices 27 and 28.
[0058] The anti-tipping device and / or pull-out stop device 27 has a tray-side stop element 29. In the illustrated embodiment, this tray-side stop element is configured as the rear end of the guide rail 21. This stop element 29, viewed in the height direction, pulls upward relative to the remaining forward-connected portion 30 of the guide rail 21. The tray-side stop element 29 is specifically configured as a hollow profile. The hollow profile opens laterally when viewed in the width direction (x-direction). In one embodiment, the hollow profile preferably has at least one reinforcing support 31. Furthermore, the stop element 29 has a stop wall 32. The stop wall 32 is inclined.
[0059] Specifically, the tray 7 is configured to have at least one stabilizing element 33. This stabilizing element 33 is connected, particularly directly, to the tray side stop element 29. The stabilizing element and the tray side stop element are integrally formed. Therefore, the stabilizing element 33 is connected to the stop element 29 at a first end, specifically the lower end 33a. The stabilizing element 33 is connected, particularly directly, to the tray portion 34 of the tray 7 at another second end, specifically the upper end 33b. The stabilizing element is integrally formed with the tray portion. In one embodiment, the tray portion 34 may be formed as a plate or sheet. This plate may be formed on the upper end or upper edge of the tray 7. However, the plate may also be offset downwards relative to the upper edge of the tray 7 along the height direction. The stabilizing element 33 is preferably formed as a plate-shaped strip. Figure 2 In the view shown, in the embodiment illustrated, the stop element 29 is suspended by the stabilizing element 33 from a plate arranged above it in the height direction.
[0060] As can also be seen from the outside, the stop element 29 extends rearward beyond the storage volume 35 of the tray 7, at least regionally when viewed in the depth direction. Therefore, in an advantageous embodiment, the stop element 29 protrudes rearward relative to the storage volume 35.
[0061] The anti-tipping device and / or pull-out stop device 27 further includes a corresponding stop element 36. This corresponding stop element 36, located on the outside of the tray, is preferably formed on the guide unit 13. This corresponding stop element is formed integrally with the guide unit 13. The corresponding stop element 36 is preferably disposed on the support arm 37 protruding upward from the guide rail 16. This corresponding stop element is disposed above the guide rail 16 in the height direction. The guide rail 38—along which the tray 7 is guided in the depth direction by the guide unit 13—is restricted upward at this local location by the corresponding stop element 36.
[0062] In one embodiment, the corresponding stop element 36 has an inclined rear wall 39. This inclined rear wall 39 is disposed at an angle. Specifically, this inclined rear wall has the same slope as the stop wall 32. Therefore, in the pull-out position (such as when it is in…), Figure 2 As shown in the diagram, the stop wall 32 and the rear wall 39 are planarly abutting each other. This also restricts the flipping position of the tray 7. As can be seen, the corresponding stop element 36 overlaps with the stop element 29 in the height direction, thereby forming a pull-out stop assembly. Thus, the stop element 29 cannot pass next to the corresponding stop element 39 when viewed in the depth direction, thereby preventing or stopping the undesired complete pull-out of the tray 7.
[0063] As shown in the embodiment of guide rail 21, the remaining portion 30 is constructed identically along its entire length in the height direction.
[0064] In the embodiment of tray 9, the corresponding remaining portion 40 is configured to have a thinning position 41 at the transition towards the stop element 29. Furthermore, this remaining portion 40 is not configured in a straight line along its entire length, but is guided obliquely upward in the front region. Thus, tray 9 can slide beyond the support position 24 in the fully pushed-in state and in this respect can subsequently descend completely downward onto guide rail 23 in the final pushed-in position.
[0065] As can be seen in the embodiment of tray 9, the stop element 29 is positioned completely behind the storage volume 35 of tray 9 when viewed in the depth direction. Therefore, the stop element 29 is positioned to protrude completely rearward from the storage volume 35.
[0066] exist Figure 3 The image shows a rearward perspective view of one embodiment of the tray 7. As can be seen here, stop elements 29 are respectively directly molded onto opposite sidewalls 7a and 7b. The stop elements 29 are elements that project laterally when viewed in the width direction. These stop elements are freely suspended laterally. Furthermore, corresponding stabilizing elements 33 can also be seen. Figure 3As shown, the stabilizing element 33 does not extend along the entire length of the stop element 29 measured along that width direction. In this embodiment, the stabilizing element 33 extends only a portion of the length of the stop element 29 along that width direction. In particular, the stabilizing element 33 extends only partially along the length of the stop element 29 from the outside of the sidewalls 7a, 7b. Thus, the ends of the stop element 29 facing away from the corresponding sidewalls 7a, 7b along the width direction are exposed. This allows for direct coupling with the corresponding stop element 36 without the stabilizing element 33 obstructing this connection.
[0067] exist Figure 4 The middle shows Figure 3 An enlarged view of a portion of region I. A more detailed view can be seen of the connection between the stop element 29, the stabilizing element 33, the lower end 33a, and the rear wall 29a of the stop element 29. The shape of the corresponding stop element 36 is also shown.
[0068] exist Figure 6 The image shows a partial rearward perspective view of the tray 7. The hollow profile of the stop element 29 can be seen here. The reinforcing support 42, which is also reinforced by a hollow profile portion 30, can also be seen.
[0069] exist Figure 7 The diagram shows a perspective view of one embodiment of the tray 9. The illustrated geometry of the stop element 29, the stabilizing element 33, and the guide rails 25 on the side of the tray can be seen.
[0070] exist Figure 8 A partial perspective view shows the lower part of the household refrigeration unit 1. Trays 7, 8, and 9 have been removed. Guide units 13, 14, and 15 mounted on wall 17 are visible here. Corresponding guide units 13, 14, and 15 are also provided on the opposite wall 43, which is opposite wall 17 and similarly limits the receiving space 3. These corresponding guide units are constructed in the same manner as guide units 13, 14, and 15.
[0071] List of reference numerals in the attached diagram:
[0072] 1 Household refrigeration equipment
[0073] 2 shells
[0074] 3 receiving space
[0075] 4 doors
[0076] 5 receiving space
[0077] 6 doors
[0078] 7 trays
[0079] 7a sidewall
[0080] 7b sidewall
[0081] 8 trays
[0082] 9 trays
[0083] 10 trays
[0084] 12-boot system
[0085] 13 Guide Units
[0086] 14 Guide Units
[0087] 15 Guide Units
[0088] 16 guide rails
[0089] 17 sidewalls
[0090] 18 Hollow Profile Cover
[0091] 19 Hollow profile bottom
[0092] 20 Reinforcing Support Components
[0093] 21 guide rails
[0094] 22 sidewalls
[0095] 23 guide rails
[0096] 23a end
[0097] 24 raised parts
[0098] 25 guide rail
[0099] 26 bottom
[0100] 27 Anti-tumble device and / or pull-out stop device
[0101] 28 Anti-tumble device and / or pull-out stop device
[0102] 29 Stopping elements
[0103] 29a posterior wall
[0104] 30 parts
[0105] 31 Reinforcing Support
[0106] 32 stop wall
[0107] 33 stabilizing elements
[0108] 33a end
[0109] 33b end
[0110] 34 pallet section
[0111] 35 storage volume
[0112] 36 stop elements
[0113] 37-inch boom
[0114] 38 guide rails
[0115] 39 Corresponding stop element
[0116] 40 parts
[0117] 41 Thinning position
[0118] 42 Reinforcing Support
[0119] 43 walls
[0120] x-width direction
[0121] y-axis
[0122] z-depth direction
Claims
1. A household refrigeration device (1), comprising: The food receiving space (3, 5) is bounded by walls (17, 43); Trays (7, 8, 9, 10, 11) for receiving stored items, the trays being movably arranged in the receiving spaces (3, 5) using a guiding system (12) of the household refrigeration equipment (1), wherein the guiding system (12) has guiding units (13, 14, 15) arranged on at least one of the walls (17, 43); and anti-tipping devices and / or pull-out stops (27, 28) for restricting the pulling out and / or tipping of the trays (7, 8, 9, 10, 11), wherein the anti-tipping devices and / or pull-out stops (27, 28) have at least one tray side stop element (29) protruding from the side of the trays (7, 8, 9, 10, 11). On trays (7, 8, 9, 10, 11) and arranged to stop at the pull-out position of the trays (7, 8, 9, 10, 11) on corresponding stop elements (36) outside the tray, thereby subsequently forming an anti-tipping and / or pull-out stop device, wherein the tray side stop element (29) extends rearward at least regionally beyond the storage volume (35) of the trays (7, 8, 9, 10, 11) when viewed along the depth direction (z) of the trays (7, 8, 9, 10, 11), wherein the trays (7, 8, 9, 10, 11) have stabilizing elements (33) connected to the tray side stop element (29) and terminate at the tray portion (34) of the trays (7, 8, 9, 10, 11), thereby stabilizing the tray side stop element (29).
2. The household refrigeration equipment (1) according to claim 1, wherein, The stabilizing element (33) is formed as a plate-shaped strip.
3. The household refrigeration equipment (1) according to claim 1 or 2, wherein, The stabilizing element (33) and the tray side stop element (29) are integrally formed.
4. The household refrigeration equipment (1) according to claim 1 or 2, wherein, The upper end (33b) of the stabilizing element (33) ends at the plate of the tray portion (34) of the tray (7, 8, 9, 10, 11).
5. The household refrigeration equipment (1) according to claim 1 or 2, wherein, The stabilizing element (33) is formed only on a portion of the width of the stop element (29) when viewed along the width direction (x) of the trays (7, 8, 9, 10, 11).
6. The household refrigeration equipment (1) according to claim 5, wherein, The stabilizing element (33) is configured to be spaced apart from the outer end of the stop element (29) along the width direction (x) along the width direction (x).
7. The household refrigeration equipment (1) according to claim 6, wherein, The stabilizing element (33) ends inwardly offset from the outer end of the stop element (29) along the width direction (x).
8. The household refrigeration equipment (1) according to any one of claims 1-2 and 6-7, wherein, The stop element (29) is formed as a hollow profile.
9. The household refrigeration equipment (1) according to claim 8, wherein, The hollow profile opens to the side along the width direction (x) and has at least one reinforcing support (31) constructed in the hollow profile.
10. The household refrigeration equipment (1) according to any one of claims 1-2, 6-7 and 9, wherein, The stop element (29) has an inclined stop wall (32) facing forward.
11. The household refrigeration equipment (1) according to any one of claims 1-2, 6-7 and 9, wherein, The stop element (29) is configured as the rear end of the elongated guide rails (21, 25) of the trays (7, 8, 9, 10, 11) oriented in the depth direction (z).
12. The household refrigeration equipment (1) according to any one of claims 1-2, 6-7 and 9, wherein, The anti-tipping device and / or pull-out stop device (27, 28) have the corresponding stop element (36) which limits the guide rail (38) of the tray (7, 8, 9, 10, 11) upward.
13. The household refrigeration equipment (1) according to claim 12, wherein, The corresponding stop element (36) and the guide rail (16, 23) of the guide unit (13, 14, 15) are formed in one piece, wherein the guide rail (16, 23) of the guide unit limits the guide rail (38) downward.
14. The household refrigeration equipment (1) according to claim 12, wherein, The corresponding stop element (36) has an inclined rear wall (39).
15. The household refrigeration appliance (1) according to any one of claims 1-2, 6-7, 9 and 13-14, wherein, The guide unit (13, 14, 15) has a guide rail that is lowerly defined as a guide rail (38) for the trays (7, 8, 9, 10, 11), wherein the guide rail has a partial bulge (24) that serves as a flipping support for the trays (7, 8, 9, 10, 11) at least when pulled out.
16. The household refrigeration equipment (1) according to claim 4, wherein, The stabilizing element (33) is integral with the plate.
17. The household refrigeration device (1) according to claim 10, wherein, The stop wall (32) is inclined backward and upward.
18. The household refrigeration equipment (1) according to claim 11, wherein, The rear end is an upward-guided rear end.