The present invention relates to a cupboard having a carcass, a shelf, and an adjusting mechanism, with which mechanism the shelf can be shifted linearly, and a swivel joint about the rotary axis of which the shelf is supported rotatably on the adjusting mechanism, in accordance with the preamble to claim 1.
In such a cupboard, there is a constant need for an easy way to reach stowed objects that are located in the rear area of the cupboard. If the cupboard is a lower cupboard, for example, a drawer system can for instance be provided, which can be pulled out of the carcass of the cupboard and can make it easier to move the shelf at least partway out of the carcass of the cupboard. If the cupboard is an upper cupboard, it helps only somewhat to pull it out, since the objects located in the middle-rear part are still hard to reach.
The fundamental object of the present invention is to disclose a cupboard which can be used as both an upper cupboard and a lower cupboard, in which access to the rearward region of the shelf is made easier compared to the prior art.
According to the invention, the object is attained by means of the definitive features of claim 1.
According to the invention is can be provided that at last one retention mechanism is furnished which is embodied for reversible fixation of the shelf in a predetermined rotary position, the retention mechanism having a resilient which and a retention element that can be fixed reversibly in the receptacle.
Both parts of the retention mechanism, in particular the resilient receptacle and the retention element, are capable of jointly supporting the shelf in at least one position. This can be the case in particular if the reversibly fixable element obtained is located inside the resilient receptacle.
In that situation, a first part, for example the resilient receptacle, can be provided on a static part of the shelf or of the adjusting mechanism. The other part, for example the retention element, which can also be called an engagement element, can be located on a rotatable part of the shelf, in particular on the rotatable shelf. Especially preferably, the retention element can be located on the rotatable part of the revolute joint, and/or the cushioning receptacle can be located on a stationary part of the revolute joint.
A stationary part of the shelf or of the revolute joint can be a region of the adjusting mechanism or revolute joint that is furnished for receiving, or being joined to, the revolute joint or the rotatable part of the revolute joint in order to accommodate the rotary motion of the shelf.
This stationary part can be pulled out of the cupboard by means of a part of the adjusting mechanism that can also be pulled out, and/or the stationary part can form a base on which the revolute joint or the rotatable part of the revolute joint is located. The stationary part can for example be a be a retractable board, or the stationary part can be located on the retractable board.
The retention mechanism can also serve as a positioning means, a fixation means, or a retention means.
The cushioning receptacle can also be called a a element and/or slaving means and/or a shaping spring and/or simply a receptacle.
The retention element can also be called a portable element, or an engagement element.
According to the invention, an adjusting mechanism can be provided by means of which the shelf can be slid linearly and is supported rotatably about an axis. By this means, especially after the shelf has been pulled out (linear displacement), a rearward region of the shelf can be more easily accessible from the side or from the front by rotating the shelf by a desired angle, for instance by 90° or 180°. The invention is for example achieved at least whenever a rotatable pull-out device (shelf) is furnished.
Fundamentally, the adjusting mechanism can be embodied in one piece or in multiple pieces. In particular, the pull-out device can be furnished such that the shelf can be shifted linearly, and preferably, the shelf is furnished such that it can be pulled all the way out.
Especially preferably, it is provided that the adjusting mechanism has a pull-out device, which in particular can be pulled out at an angle or crosswise for the sake of shifting the shelf linearly.
The scissors or crosswise pull-out device can be embodied with one or more scissors units or elongated means that are connected in articulated or displaceable fashion one after another; a scissors unit has at least two means, in particular arms, that are connected to one another at a point or along an axis in articulated or displaceable fashion. Especially preferably, a pull-out scissors device or crosswise pull-out device is formed with at least two scissors units, which can be connected to one another by their respective ends. For example, in an end region of the pull-out scissors device or crosswise pull-out device, a rotating device can be provided by means of which the shelf can be rotated relative to the body of the cupboard, in particular about a (vertical) axis.
The pull-out scissors device can be secured/locked both on the two side elements walls of the carcass and on the back wall, the side walls, and/or the floor of the carcass. For example, the pull-out scissors device can also be furnished in the form of one or more rails which, for instance from below, are furnished in or connected to a freely adjustable region between the side walls of the shelf. In this respect, instead of being connected to the side walls, the pull-out scissors device can also be secured to at least one of the three regions of the carcass that have been mentioned. In particular, this can make possible a greater maximum width of the shelf inside the carcass, since that does not require any space for the pull-out scissors device on the sides of the shelf or of the adjusting mechanism.
For especially optimal utilization of space, the shelf can be approximately the same basic shape as the carcass. In particular, this shape can be a square or rectangular. The size of the shelf, especially if the shelf is square or rectangular, can be large enough that free rotatability of the shelf inside the carcass in a retracted position is prevented by the side walls and the back wall. In such a situation, free mobility is made possible only when, by a linear displacement of the adjusting mechanism or the retraction device, the shelf is moved outward so far out of the carcass that upon rotation, the corners of the shelf 11 move past the side walls. This is ensured in particular whenever the shelf 11 is moved all the way out of the carcass, or the shelf 11 is so much smaller than the base of the carcass that free rotatability is enabled even if the shelf has been moved partially of the carcass, or if the shelf 11 is so much smaller than the base of the carcass that free rotatability is enabled even if the shelf has already been moved partway out of the base body.
The present invention is intended in particular to make a contribution when free rotatability of the shelf inside the carcass is already fundamentally impossible because of the dimensions of the shelf.
Preferably, it is provided that the adjusting mechanism is secured to an inner back wall and/or side wall of the carcass. As a result, the adjusting mechanism can be provided entirely inside the interior of the carcass. Particularly in the event of simultaneous fastening onto the back and side walls or onto the back wall, top, and/or base, firmer anchoring of the adjusting mechanism to the carcass can be provided, because particularly when the drawer has been pulled out, a layer filled with heavy filler material can exert increased leverage on the connecting elements between the adjusting mechanism and the carcass.
Expediently, it can be provided that the adjusting mechanism has fixation means which releasably define the shelf and/or the adjusting mechanism in an outward-extended position. To make a shelf possible that can be rotated easily relative to the carcass, it can be necessary to pull the shelf out of the carcass at least far enough that, upon a rotary motion, the advantageously rectangular or square shelf can be moved past the side walls of the carcass. If, for example by contact with a person using the system, the adjusting mechanism is to be returned at least partway back in the direction of a retracted position of the shelf, the shelf may be prevented from freely rotating. The shelf can be fixed by fixation means in an extended position, in which the drawer protrudes far enough out of the carcass to make free rotation possible. As a result, damage from a rotation of the shelf on the walls of the carcass can be averted.
It is especially preferably provided that the fixation means has at least one wheel, preferably spring-supported, which engages a wall of the carcass from the top or from behind in the region of the opening of the carcass, thereby fixing it. In principle, an arbitrary fixation means for locking the shelf or for locking the pull-out device or in an extended position can be furnished that can be easily released again, in order to make it easy to return the shelf into the carcass of the cupboard.
In one embodiment, at least one wheel, or an element fitting over or behind a wheel, can be provided which is braced on an arbitrary carcass wall, counter to the direction in which the carcass wall is introduced into the interior of the carcass in a retracted position. For example, this can be a front edge of a side wall, lid, or floor of the carcass, or of an outer side of the side wall, of a cover, or of a base of the carcass. In both cases, the fitting over the top of the wheel or behind the wheel can lead overall to resistance or retention or stopping of the adjusting mechanism, and this retracted position in the interior of the carcass. In particular, the wheel can be spring-supported, as a result of which, by overcoming a related counterpressure on the shelf or on the extraction device, it can be put by a user into an outset position, which can make it possible to reposition the shelf from the pulled-out position to the retracted position back inside the carcass.
To undo locking of the shelf, for instance by means of the wheel, a release mechanism can also be provided, which upon actuation moves the wheel or the locking means out of the working position, in which it fits over or behind, back to a retracted position of repose, which makes it possible to reposition the shelf from the extended position to the retracted position inside the carcass. In principle, an opening can be the region in which a cupboard door or a facing is typically located, so as to conceal the door or facing.
In a further refinement of the invention, it is especially expedient that the adjusting mechanism has a rotation device for rotatably shifting the shelf. The rotation device can fundamentally be a bearing, a turntable, or some other element which enables the rotation of the shelf relative to the adjusting mechanism. To furnish the largest possible supporting surface, which in particular is embodied as a board or a double board, and in particular in the case of the double board, one board can be secured to the adjusting mechanism, and the other board can be secured to the shelf. The two boards of the double-platter arrangement can be rotatable relative to one another, whereby a sufficiently large shelf area is furnished, which absorbs the forces that occur if the supporting area is unilaterally stressed or if one side of the shelf is pulled downward and thereby protects or spares the applicable bearing or bearings.
Particularly for attaining a defined rotatability of the shelf, it can be provided that the rotating device is embodied for locating the shelf rotatably in at least two directions. For example, it may be expedient to define a first position, in which the shelf is in an outset position. The outset position can in particular be the position in which the shelf can easily be slid into the carcass. In that position, one lateral edge of the carcass can for example be oriented approximately parallel to a lateral edge of the shelf. A second orientation can be provided in an arbitrary (rotational) angle that is different from that of the first position. A rotation of 90° or by 180°, 270°, or 360° (or less than 360°) can be especially expedient; that is, the second orientation may differ by 90° or by 180°, 270°, or 360°, or an arbitrary angle between them. In particular, it can be provided that the shelf can be fixed in the first orientation. In principle, the second position can be defined such that upon a rotation of the shelf, the shelf is located in an oblique position relative to the carcass, such as 100°, 290°, and so forth.
It can be expedient to provide that at list one fixed position in at least one orientation of the shelf is furnished, in which the shelf can be releasably lockable or releasably fixable. An especially expedient fixation can be in the form of a latch in which the shelf can be releasably latched or releasably fixed. An especially expedient fixation can comprise a latch, which can be furnished by means of a detent element. Such a detent element can be provided in each of the (two) fixable orientations, in order to make it possible to the shelf in the appropriate position or orientation. There can also be a detent element if this involves a receptacle for one region of the shelf or a middle part of the shelf in which the region or the middle part is fixed releasably. In particular, the detent element can have a guide link that has a slaving means for the region or middle of the shelf; the slaving means is able to firmly hold the middle or the region, in particular in a detent position. For undoing the (detent) connection, it may be provided that an initial resistance is intended to be overcome, or the middle or the region of the shelf is to be inserted still further into the latch, as a result of which the latch can be releasable. For that purpose, the guide link can be embodied with a corresponding track for releasing the region or the middle. The region or the middle can for example also involve a hook that can be guided in the link or supplied to the link.
The detent element can advantageously furnish a detachable connection to the shelf, as a result of which a simple change can be made between the individual orientations of the shelf. For connecting the detent element, an engagement means may be provided which can be embodied as a hook, a middle, or a region, for example, and which is furnished for engagement with the detent element in a way that fixes the shelf. Fundamentally, any means that can be secured to the shelf and can be releasably connected to the shelf is conceivable as an engagement means. The detent element can in particular be provided on the adjusting mechanism, in the region of the rotating device, particularly in the region of the turntable or double turntable. Fundamentally, the detent element can also be called a locking element. It can be furnished with the link guide, in which the receiving means for a pin, pivot, bolt or other element (means, hook, region, portable element) of the shelf is furnished.
The receiving means can in particular be a guide element, which receives the pin, pivot, bolt, or other element, and which is supported movably inside the link. The link guide can be furnished with a track for the guide element, which track can be approximately equivalent to the rotational motion of the shelf, or at least can complete this track. The guide element can furthermore be operatively connected to a spring, which when the shelf is being rotated can be tensed or relaxed, while the guide element is operatively connected to the pin, link, bolt, or other element of the receptacle (transfer element). Thus the spring can be tensed by means of moving the shelf, while the shelf is supplied with a defined orientation in which the shelf is given a defined orientation, in which the shelf or guide element (slaving means) can be locked (see
In this second orientation, in turn, a separate guide element with a further spring can be furnished, which is capable of interacting with the same transfer element of the shelf or a second transfer element of the shelf, again tensing a spring, and which can have a detent connection for fixation of the shelf in the second orientation.
It may be necessary, beginning at a first orientation of the shelf following a (rotation) point/region, in which the one (first) spring is already relaxed, yet the shelf has not yet locked in the second position, to tense the second spring counter to the spring tension thereof and to guide the shelf to the second orientation, for instance by hand. Between the relaxation of the first spring and the tensing of the second spring, a rotary region can be furnished between the first or second orientation, in which region both springs are tensed or both are relaxed, or in which neither the first nor the second spring has changed its status. In that region, the shelf can be freely rotatable about its axis, independently of the link guide or guide elements.
It is especially preferably provided that the stowing device has foldable side walls that can be lowered toward the outside. The cupboard in accordance with the present invention can also have at least one of the following properties, which can be arbitrarily combined with one another.
The present invention will be described further, based on the accompanying drawings.
Shown in the drawings are
As
As can be seen particularly from
The portable element 13′″, in particular in an angular portion of the rotation of the revolute joint 13 about its own axis, can be delivered to the slaving means 31. The slaving means 31 can cooperate with a spring 32 and/or a damper 33, and the slaving means 31 can be feasibly supported along a link/link guide 34. Counter to the spring force of the spring 32, the slaving means 31 can be movable along the link 34 into a first end region, in which the slaving means 31 can at least partially be spaced apart radially from the axis of rotation of the revolute joint 13. In particular, as shown in
This terminal position of the slaving means 31 is shown for example on the left-hand side of
If a (second) terminal position in the link 34, a maximally inserted damping position of the damper 33 or a maximal relaxation of the spring 32 is achieved, then the slaving means 31 has reached its second terminal position, in which it is placed at least partially closer to a rotary axis of the revolute joint 13 than in the first terminal position already described above.
The link 34 can be approximately equivalent to the circumferential shape of the revolute joint 13, in particular the shape of the outer circumference of the first part 13′ or approximately the shape of the outer circumference of the first part 13′, or can be embodied approximately tangentially to the revolute joint 13. Preferably, the spring and/or damper are approximately parallel to one another in their orientation and/or are tangential to the revolute joint 13, in particular tangential to the point of the revolute joint 13, in which the slaving means 31, in the position shown there on the right-hand side, is positioned relative to the revolute joint 13 such that it is in engagement with the portable element 13′.
By a clockwise rotation of the upper cupboard out of the position of the portable element 13′ shown in
On the revolute joint 13, there are preferably two guide elements 30 provided along the circumference of the revolute joint 13; preferably, the first end points of the guide link, in which the receptacle of the slaving means 31 is spaced apart at least partially radially from the portable element 13′″, point along the circumference of the revolute joint relative to one another.
If, as shown in
Whether the portable element 13′″ or the slaving means 31 determines their common motion along the link 34 accordingly depends on the starting point of the slaving means 31 in the link 34.
The two guide elements 30 and 30′ can be provided at an arbitrary angle from one another along the outer circumference of the joint 13. In
By a relative positioning of the two slaving means 31 and 31′ along an outer circumference of the joint 13, a rotary angle of the revolute joint 13 and of the shelf 11, which is secured to the revolute joint 13, can be adjustable. The revolute joint can rotate between the two second terminal positions only as far as the portable element 13′″ permits.
For the mode of operation of the guide elements 30 in cooperation with the portable element 13′″, it is fundamentally unimportant whether the guide elements 30 and 30′ are located on the shelf 11 and the portable element 13′″ is provided on a static part of the revolute joint 13, or the other way around. Conversely, what can be decisive for the invention that the portable element 13′″ and the guide elements 30 and 30′ are secured on different parts of the revolute joint or on different parts of the pull-out unit. One of the parts (30, 30′)/13 should be located at least on a static region, that is, a region that is not rotatable, while the other part can be located on a rotatable part, such as the joint or the shelf 11. The first terminal position along the link 31 is identified in
In summary, it can be determined that the present invention, in both this and other embodiments, relates to a drawer/shelf that can be pulled out of a cabinet carcass and that is fundamentally rotatably supported.
It can preferably be provided that, while free rotatability of the drawer/shelf on a revolute joint is made possible, nevertheless the free rotatability can be interrupted on account of an interaction of the revolute joint with means for positioning the rotatable part of the drawer/shelf in certain positions; that is, a fixation of the drawer/shelf in a certain position is enabled. This fixation can be overcome; for example, the drawer can be released from the fixation or the fixed position.
Especially preferably, the fixation can be accomplished in damped and/or guided fashion, as a result of which vibrations that can for instance be traced back to the fixation are reduced or can be averted.
Fundamentally, it can be preferable that the drawer is movable back and forth between one or more fixations or is fundamentally freely rotatable, i.e. by 360°, while the rotatability in the region of the fixation is interrupted if the fixation needs to be overcome.
The concept can be described this way: a revolute joint 40 is furnished, on which a drawer/shelf, i.e. a storage option for a drawer can be located. In comparison with a base body of the drawer that can be pulled out, it can be provided that the storage option can be rotatable.
The base body can also be limited to a mechanism for pulling out the drawer/shelf.
The revolute joint can have a part 41 that can be affixed to the base body of the drawer and that is preferably fixed thereon.
Retention means 50, 51 are preferably furnished, which make it possible, despite the free rotatability of the revolute joint, to enable a fixation of the rotatable part, that is, of the attachment/shelf on the revolute joint in a predefined rotary position.
To that end, a (resilient) receptacle, which can also be called a shaped spring 50, can be furnished on the revolute joint or a fixed (non-rotatable) part of the drawer. As a counterpart, a retention element 51, which can be reversibly fixed in or can engage the receptacle, can be furnished, which can also be called an engagement element 51, such as a nib or pivot, can be accordingly furnished on a fixed part of the drawer or furnished to the revolute joint.
Thus a first one of these two parts (receptacle, retention element) can be furnished on the revolute joint 40, and a second one of the two parts can be furnished on the gase body or fixed part of the drawer. A fixed opart of the drawer can in particular be a nonrotating part or stationary part of the pullout of the drawer.
The receptacle, such as a shaped spring 50, can for instance be embodied like an open pretzel, of the kind shown in
A second function of the shaped spring can be to accommodate the momentum of the rotatable part of the drawer before the the engaging element 51 is fixed, or in other words to slow down the rotary motion of the shelf/drawer before providing a fixation.
This can counteract damage to the shaped spring 50, since the rotatable part of the drawer/shelf does not first, in the receptacle 52, have to slow the full speed of the rotary motion down to zero. For that, a contact region 53 on the shaped spring can be provided, which can at least in some regions be in contact with the engaging element 51. This contact means 54 can be seen for example in
The contact region 53 of the shaped spring 20 with the engaging element 51 can be in contact via spring tension, which can increase as there is a closer and closer approach of the engaging element 51 to the receptacle 52 at the shaped spring. The shaped spring can therefore be spaced apart from a circular path of the element 51 around the revolute joint by an amount that decreases, the closer (as a function of this) the element 51 comes to the receptacle 52. As a result, a part of the spring can experience a bending force, originating at or in other words because of the element 51, which can furnish a braking sliding contact between the element 51 and the spring 20.
Thus by means of a kind of sliding contact, the rotary speed of the rotatable part of the drawer can be decreased, before the engaging element 51 reaches into the receptacle 52 of the shaped spring 50. The shaped spring, which can also be called a capturing element, can be formed either symmetrically or asymmetrically. This shaping can extend in particular along a path surrounding the element 50. At least in a symmetrical construction, the engaging element can be detachable from the receptacle 52 on both sides, or in other words can perform a rotary motion on both sides of the shaped spring.
Fundamentally, it can be possible, by an appropriate exertion of force on the rotatable part 40 of the revolute joint, to overcome the reluctance of the shaped spring 50, and in particular its receptacle 52, and to set the engaging element free from the receptacle 52 of the shaped spring 50.
As a result, a further rotation of the revolute joint is enabled beyond the contact point/region between the receptacle 52 of the shaped spring 50 and the engaging element 51. Fundamentally, a plurality of shaped springs 50 and/or engaging elements 51 are provided on the rotatable part 40 of the revolute joint and/or the fixed part (that is, the nonrotating/static part). As a result, a plurality of (rotational) locking positions for the rotating part of the drawer/receptacle can be furnished on the adjustment mechanism.
In
The retension/retension force of the shaped spring 50 on the engaging element 51 in the engagement of the two shown in
The shaped spring can also be called a receiving element 50 for reversible fixation of an engaging element 51 or of a region of the rotatable part 40 of the revolute joint for a drawer or support. The reversible fixation can be done from the pickup element 50 outward in both rotary directions of the revolute joint.
For especially easy mounting of the revolute joint, it can be provided that a receptacle 60 for the revolute joint is furnished on the fixed part of the drawer. This can be provided as U-shaped or horseshoe-shaped, and the revolute joint with its part 41 that is fixed/to be fixed/nonrotating can be placed in or introduced into a preferably open region of the receptacle or can be connected to it.
For fixation of the revolute joint on the fixed part of the drawer, or in other words on the nonrotably supported part of the drawer, a fixation element, for instance in the form of a hook, can be provided, which keeps the revolute joing in the receptacle 60.
Especially preferably, it is provided that the drawer, after being pulled out, caln be retained in an open position. To that end, in
The locking means 80, 81 can in particular be embodied as a latchable pair of hooks (see
Alternatively, for releasing the retention mechanism 80, 81, an actuatable regions, key, or lever can bd provided that is operatively connected to the retention mechanism and that can undo the locking.
Fundamentally, each of these individual parts can be can be provided, without a further part and in arbitrary combination, so as to implement the present invention.
Number | Date | Country | Kind |
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19161600.2 | Mar 2019 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2020/056182 | 3/9/2020 | WO | 00 |