Exemplary embodiments of the present invention relate to a device for the translatory and rotary movement of an item having a planar bearing region relative to a bearing region of a carder panel arranged plane-parallel in relation to the bearing region, as well as to a piece of furniture or household appliance,
A generic device is known, for example, from DE 10 2017 106 170 A1,
In DE 10 2017 106 170 A1, a translational-rotational bearing is used to perform a translatory and rotary movement, which essentially has two panels with running channels formed thereon in which rolling bans are guided. The running channels are designed in such a way that they allow translatory and rotary movement of one plate relative to the other plate by a predetermined angle.
A rectilinear slot provided in one of the plates, in which a connecting stub attached to the other plate is guided, also allows translatory movement, as well as axial fixation of the panels relative to each other,
A problem with this design in connection with a large difference between the length and with of the item is the generation of tipping forces when the item is in or near the 90° pivoted position, hi which the item protrudes maximally over a front edge of the carder panel. In this case, the item may preferably be in the form of a shelf.
This means that there is a risk of the shelf tipping over the edge of the carrier panel, especially when heavier items are placed on the part of the shelf that protrudes over this edge,
Exemplary embodiments. of the present invention are directed to further developing a device for the translatory and rotatory movement of an item having a flat bearing region relative to a bearing region of a carrier panel arranged plane-parallel to the bearing region, in which bearing surfaces of the bearing regions facing one another have respective running channels in which rolling-contact bodies are guided, to the effect that tilting forces occurring even with minimal overlap of the item with respect to the carrier panel can be better absorbed.
The device according to the invention, in which, as viewed in the plane of the bearing surfaces, a length of the item is greater than a width of the item, has, on bearing surfaces facing one another of the bearing regions, respective running channels in which rolling-contact bodies are guided,
The running channels are shaped such that when force is applied to the item in a direction defined in the plane of the bearing region, the item is movable relative to the carrier panel in a first pivoting direction from a starting position to an end position in which the item is pivoted relative to the carrier panel through a predetermined angle of between 90° and 180° and is pivotable back to the starting position in a pivoting direction opposite to the first pivoting direction.
A connecting stub protrudes from one of the bearing regions and is movable in a guide track arranged in the other of the bearing regions.
The connecting stub is arranged eccentrically on one of the bearing regions, The guide track is arc-shaped with a varying radius of curvature.
With a device designed in this way, the off-centers arrangement of the connecting stub in particular makes it possible to form a larger lever arm for absorbing the tipping forces that occur compared to a centrally arranged connecting stub.
This makes it possible, in particular, to use items with a greater aspect ratio, The aspect ratio is defined as the ratio of the length to the width of the item in the plane of the bearing regions.
Rotation by a total of 180° enables an item with a greater length than width to be inserted congruently in both layers into a piece of furniture or household appliance or other items.
Thus, the effect of supporting the resulting tilting forces in such a device with an unequal ratio of the length and width of the item is greatest when the rotation is 90°.
Due to the off-center arrangement of the connecting stub, the formation of the lever arm for absorbing occurring tilting forces is greatest when rotating by 90° compared to a centrally arranged connecting stub.
The device for translatory and rotary movement of the item can therefore also be pivoted by only 90°, for example, so that the enlarged support effect according to the invention acts against tipping. An alternative device may thus have a smaller total angle of rotation than 180°, for example only 90°.
The bearing of the item via the rolling-contact bodies guided in the running channels also reduces manufacturing costs and increases the robustness and ease of operation with little effort of the device.
According to an advantageous embodiment variant, a distance of the connecting stub to opposite longitudinal edges of the item is equal, in other words, the connecting stub is arranged off-center in the direction of the longitudinal extension of the item. and centered in the bearing region of the item in the direction of the width extension of the item.
According to a preferred further development, the connecting stub has a cylindrical neck region, from the free end of which a collar extends, the surface of which facing the neck region engages behind a support surface formed in the guide track.
The positive connection thus achieved between the item and the carder panel in a direction perpendicular to the plane of the bearing regions allows further improved absorption of tipping forces.
Particularly preferably, side edges of a curved path of the guide track connecting the ends are formed with respective support surfaces.
According to an advantageous further development, a plurality of spaced-apart support webs aligned perpendicular to the plane of the bearing surfaces are integrally formed with a respective support surface on the inner edges of the ends of the guide track.
According to a further preferred embodiment variant, at least one spring tongue is formed on each of the inner edges of the ends of the guide track, which tongue can be pressed under the action of force from a latching position narrowing a passage width of the guide track in the direction of the guide track edge, wherein the spring tongue is integrally formed at the level of the neck region of the connecting stub, as viewed perpendicularly to the plane of the bearing surfaces.
This provides simple haptic feedback for the user that the item has reached its final position.
According to a further preferred embodiment variant, the curved path of the guide track is curved in only one direction.
Particularly preferably, the ends of the guide track in the transition area to the curved path are curved in the opposite direction to the curvature of the curved path.
According to a further advantageous embodiment variant of the invention, the rolling-contact bodies are accommodated in a rolling-contact body cage having a plurality of rolling-contact body receptacles.
Particularly preferably, the rolling-contact body cage has an annular, closed frame region and a support region. The frame region does not extend beyond an edge of the carrier panel in any position of the item from the starting position to the end position, so that rolling-contact bodies mounted in this part of the rolling-contact body cage always transmit a partial load of the item to the carrier panel. The support region extends beyond an edge of the carrier panel within a predetermined pivot angle range, thus helping to further support the item against tipping over the edge of the carrier panel.
As a result, the rolling-contact body cage also contributes to further stabilization with regard to any tipping forces that occur.
According to a preferred embodiment variant, the item is formed as a shelf with a storage surface.
The piece of furniture or household appliance according to the invention, in particular refrigerator or freezer, has a body on which at least one item described as above is arranged.
Preferred exemplary embodiments are explained in more detail below with reference to the accompanying drawings, wherein:
in the following description of figures, terms such as top, bottom, left, right, front, rear, etc. refer exclusively to the exemplary representation and position of the item, the carder panel, the rolling-contact bodies, the rolling-contact body cage, the guide track, the connecting stubs and the like selected in the respective figures. These terms are not to be understood restrictively, i.e., due to different working positions or the mirror-symmetrical design or the like, these references may change.
In
Simultaneous translatory and rotary movement is understood here as a superposition of a rotational movement of the item around the connecting stub and a translational movement of the item with the connecting stub along the guide track.
The underside of the item 2 designed as a shelf and the upper side of the carrier panel 3 are designed as bearing regions 4, 5. The bearing surfaces of these bearing regions 4, 5 facing each other each have running channels 41, 51 in which roiling-contact bodies 7, preferably in the form of balls, are guided.
The running channels 41, 51 introduced into the bearing regions 4, 5 of the item 2 and the carder panel 3 are designed and introduced distributed over the bearing regions 4, 5 in such a way that several of the rolling-contact bodies 7, when force is applied to the item 2 in a direction A defined in the plane of the bearing regions, move the item 2 in a positively guided translatory and rotatory movement from a starting position, shown by way of example in
Designs of the running channels 41, 51 are also conceivable in such a way that the item 2 can be moved from a starting position into an end position pivoted by less than 180° in a first pivoting direction R1, wherein the end position is reached during a rotation of the item 2 from its starting position by at least 90°, preferably between 130° and 180°.
Furthermore, the running channels 41, 51 are designed in such a way that the item 2, during its pivoting movement, only passes over a front edge (in
Furthermore, the item 2 can be pivoted from this end position in a pivoting direction R2 opposite to the first pivoting direction R1 back to the starting position.
As can further be seen from
As can be seen further in
In the assembled state of the item 2, the connecting stub 9 is movable on the carrier panel 3 in a guide track 8 arranged in the bearing region 5 of the carrier panel 3.
The receiving width of the guide track 8 can be larger than the diameter of the part of the connecting stub 9 projecting into the guide track 8. This enables a play of the connecting stub 9 in the guide track that goes beyond structural tolerances,
Furthermore, as can be clearly seen in
In the present exemplary embodiment, the connecting stub 9 is positioned such that it protrudes off-center from the bearing region 4 of the item 2 in the direction of the longitudinal extension L of the item 2 and in the direction of the width extension Bin the center, Therefore, a distance of the connecting stub 9 to opposite longitudinal edges 22, 23 of the item 2 is equal.
The curved guide track 8 is designed with a varying radius of curvature. The guide track 8 essentially consists of a curved path 81, which is preferably curved in only one direction, from which respective ends 82, 83 extend, which are curved in the transition to the curved path 81 in the opposite direction to the curvature of the curved path 81.
For positive connection of the carder panel 3 to the item 2, the connecting stub 9 has a cylindrical neck region 91, from the free end of which extends a collar 92, the surface 93 of which facing the neck region 91 engages behind a support surface 86, 87 formed in the guide track 8. The support surfaces 86, 87 are shown by way of example in
As can be seen further in
Other support surfaces 86 are formed on the inner edges of the ends 82, 83 of the guide track 8 spaced apart from each other, wherein the support webs 85 are oriented perpendicularly to the plane of the bearing surfaces, as can be readily seen in
Furthermore, at least one spring tongue 84 is formed on each of the inner edges of the ends 82, 83 of the guide track 8, which can be pressed towards the edge of the guide track under the action of force from a latching position of the connecting stub 9 narrowing a passage width of the guide track 8.
The spring tongue 84 is formed perpendicularly to the plane of the bearing surface at the level of the neck region 91 of the connecting stub 9.
In the preferred embodiment variant shown here, two such spring tongues 84 are provided, which are forced apart when the connecting stub 9 enters one of the ends 82, 83 and hold the connecting stub 9 in this end position after it has been fully retracted into the end position, so that it is only possible for the connecting stub 9 to slide out of this end position by applying a predetermined force that is sufficient to force the spring tongues 84 apart.
As shown in particular in
The two slightly differently designed embodiment variants of rolling contact body cages 6 essentially comprise an annular, dosed frame region 61 and a support region 62.
In this regard, the frame region 61 is shaped and positioned between the bearing regions 4, 5 such that it does not protrude beyond an edge of the carrier panel 3 in any pivoted position, as exemplified by
In contrast, the support region 62 of the rolling-contact body cage 6 extends beyond an edge of the carrier panel 3 for additional absorption of tilting forces within a predetermined pivot angle range of the item 2 relative to the carrier panel 3.
As shown, for example, in
In this case, a stationarily fixed base 15 is preferably arranged in the body 13, 14 of the piece of furniture 11 or household appliance 12, on which the carder panel 3 of the device is fixed. It is also conceivable to fasten the carder panel directly to the body 13, 14.
It is also conceivable that an item according to the invention and a carder panel according to the invention are used in the interior of a motor vehicle, for example a caravan or in the cockpit or trunk of a car.
Although the invention has been illustrated and described in detail by way of preferred embodiments, the invention is not limited by the examples disclosed, and other variations can be derived from these by the person skilled in the art without leaving the scope of the invention. It is therefore clear that there is a plurality of possible variations. It is also dear that embodiments stated by way of example are only really examples that are not to be seen as limiting the scope, application possibilities or configuration of the invention in any way. In fact, the preceding description and the description of the figures enable the person skilled in the art to implement the exemplary embodiments in concrete manner, wherein, with the knowledge of the disclosed inventive concept, the person skilled in the art is able to undertake various changes, for example, with regard to the functioning or arrangement of individual elements stated in an exemplary embodiment without leaving the scope of the invention, which is defined by the claims and their legal equivalents, such as further explanations in the description.
Number | Date | Country | Kind |
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10 2020 105 202.2 | Feb 2020 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/052686 | 2/4/2021 | WO |