阅读说明：本技术 搁架 (Shelf ) 是由 W·黑尔德 于 2018-04-18 设计创作，主要内容包括：本发明涉及一种搁架,其用于柜、优选角柜,所述柜具有能围绕轴线扭转并且能横向于所述轴线移动的至少两个格板,所述格板能彼此独立地操作、能相叠地布置并且能在格板支架上移动。在此,所述格板以能够实现360°转动的方式支承在所述格板支架上,其中,未支承在柜的底板上的格板分别支承在至少一个支架上,所述至少一个支架能固定在所述柜的后部区域中的稳定的壁上并且以高度能变化的方式布置。(The invention relates to a shelf for a cabinet, preferably a corner cabinet, having at least two panels which can be twisted about an axis and can be moved transversely to the axis, can be operated independently of one another, can be arranged one above the other and can be moved on a panel carrier. The panels are supported on the panel carriers in such a way that a 360 ° rotation is possible, wherein the panels not supported on the floor of the cabinet are each supported on at least one carrier which can be fastened to a stable wall in the rear region of the cabinet and is arranged in a height-variable manner.)

1. A shelf (10) for a cabinet (1), preferably a corner cabinet (1), which is polygonal and has an access opening (1a) arranged at the end side, having side walls (5a, 5b), a rear wall (5c, 5d) and at least two panels (14, 15) which can be twisted about an axis (12) and can be moved transversely to the axis (12), which can be operated independently of one another, can be arranged one above the other and can be positioned on a panel support (16), while the panel support (16) can be connected to a support (31),

it is characterized in that the preparation method is characterized in that,

the holder (31) can be operatively connected to at least one rear wall (5c, 5d) and/or a stationary support (S) arranged opposite the access opening (1 a).

2. A shelf according to claim 1, wherein the shelf is,

characterized in that an adjusting device (20, 21) is provided, by means of which the panels (14, 15) can be adjusted and can be fixed in their position, so that the panels (14, 15) can be fixed in at least two different positions.

3. The shelf according to claim 1 or 2,

it is characterized in that the preparation method is characterized in that,

the panels (14, 15) can be fixed in at least two different positions.

4. Shelf according to any of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the panels (14, 15) can be twisted about a common axis (12).

5. Shelf according to any of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the panel support (16) is supported by a support (8).

6. A shelf according to claim 5, wherein the shelf is,

it is characterized in that the preparation method is characterized in that,

the axes of the bearings (8) arranged one above the other are aligned.

7. Shelf according to any of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the panel carrier (16) supports auxiliary panels (41, 42) arranged laterally to the panels (14, 15).

8. A shelf according to claim 7, wherein the shelf is,

it is characterized in that the preparation method is characterized in that,

the sides (43, 44) of the auxiliary panels (41, 42) facing away from the panels (14, 15) are curved.

9. Shelf according to any of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the panels (14, 15) have covering elements (2, 3, 4).

10. Shelf according to any of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the lower panel support (16) of the panel (14) has a bracket (17) with support legs (19) and vertical legs (19a, 19b) extending transversely to the axis (12), wherein the bracket (17) is arranged such that the panel (15) arranged thereon is supported under load.

11. A shelf according to claim 10, wherein the shelf is,

it is characterized in that the preparation method is characterized in that,

the support (31) is arranged on the carrier (17) in a detachable manner and is supported by the carrier, wherein the carrier (17) can move under the support (31).

12. A shelf according to claim 11, wherein the shelf is,

it is characterized in that the preparation method is characterized in that,

the bearing is formed by a sliding bearing or a rolling bearing and can be fixed to the support (31) or the bracket (17).

13. Shelf according to any of the preceding claims,

it is characterized in that the preparation method is characterized in that,

the support (31) is embodied either as two-legged or rectilinear, and

the support (31) can be at least partially fastened to a building wall on a part of the cabinet (1) and/or on the back.

14. A rotatable cabinet having a shelf according to any one of claims 1 to 13.

Technical Field

The invention relates to a rotatable shelf according to the preamble of claim 1 or a cabinet having a corresponding shelf according to the preamble of claim 1.

Background

As described in EP 873702, conventional shelving is essentially a rotating shelf for corner cabinets (fachbondenkarussell). A central panel support is provided, which can be removed from the corner cabinet. In the removed state, the drawers arranged next to one another are accessible and can be removed from the shelf in the vertical direction. The shelf is not suitable for two or more drawers arranged one above the other.

DE 102012007306 a1 describes a corner cabinet with a plurality of round plates arranged one above the other in a cabinet compartment, which are rotatably supported by a central shaft and serve for storing daily articles, wherein an upper plate is fastened to a side wall of the corner cabinet by means of a bracket. The front side wall of the corner cabinet forms a covering for a drawer which can be individually adjusted and pulled out on a plate, wherein, in addition to the drawer, an additional container for daily necessities is also fastened to the plate, which serves as a pull-out guide for the drawer, wherein the plate, together with the container and the rear wall of the drawer which is moved in, completes the circular cross section of the individually rotatable disk (Rondellen). A disadvantage of this arrangement using a simple structural bracket is that the bracket is bent when a load is applied to the plate. Furthermore, the bracket only allows the rotation of the grid by approximately 90 ° in both directions.

Disclosure of Invention

Starting from the prior art described above, the object underlying the invention is to develop such a shelf such that it also has shelves or drawers which are arranged one above the other, are accessible at any time and are movable, making the most of the available space.

This object is achieved by the features of claim 1 or the features of claim 1.

It can be seen that the invention is in any case achieved if the invention is a shelf, preferably a rotating shelf, in which at least two shelves (drawers) are provided that can be twisted about an axis and can be moved transversely to the axis. The panels can be operated independently of one another, can be arranged one above the other and can be moved on the respective panel carrier. The shelf can thus also be used in a corner cabinet and the space provided by the corner cabinet can be completely filled with panels or drawers which are accessible and can be operated independently of one another. In particular, the 360 ° twistability of the pane allows the space provided on the pane to be fully utilized here.

Since this is a polygonal, preferably square or pentagonal, cabinet whose access opening arranged at the end face is two side walls extending vertically and two and more rear walls also extending vertically, the interior space of the cabinet can be optimally utilized. An access opening, which is arranged at the end and is equipped with a covering, is arranged between the two side walls, through which access opening access to the cabinet is possible. In the center in the cabinet there are at least two panels which can be twisted about an axis and can be moved transversely to the axis, which panels can be operated independently of one another and can be arranged one above the other. The panels are positioned on a panel support. The panel carrier is held by a support element which can be connected to at least one rear wall and/or a stationary support arranged opposite the access opening. If the support element is connected to one or more rear walls of the cabinet facing away from the access opening, the shelf support can be pivoted unhindered, twisted or pivoted about its vertical axis in both directions without problems. All of the panel supports have a common vertically extending axis of rotation so that the supports of the panel supports are aligned. However, the support element can also be connected to a separate support, which can be made of metal, in particular aluminum or steel. The support is preferably arranged opposite the access opening and can be designed in the form of a column, for example in the form of a hollow cylinder or in the form of another suitable geometry. In certain cases, it can be advantageous to leave the joining point between the two rear walls free, so that the cabinet is at least partially free and open in this region, and the gap thus created is covered by the joining point of the two walls of the masonry wall (Mauerwerk) arranged at right angles to one another, in which the shelf or the cabinet is arranged. In this case, either the support is formed by a masonry wall of the wall or the connection between the support and the kitchen wall is made by an auxiliary body, for example a profile. The profile elements are connected to the masonry wall on the one hand and to the support on the other hand. In this case, no further auxiliary means are required for positionally fixedly positioning the support element in the interior of the cabinet. Since the outer shape of the cabinet can be freely defined, the cross section of the outer contour can be four-cornered, pentagonal or polygonal, thus enabling the cabinet to be adapted to the specific geometry of the kitchen space.

Further practical and advantageous embodiments of the invention emerge from the dependent claims.

If the panels are constructed such that they can be fixed in two, preferably three, different positions, it is possible to move all drawers into and out of the rack simultaneously and individually. In addition, the shelf can also be swung inside the corner cabinet in the closed state.

Further optimization of the shelf structure is: the panels are able to twist about a common vertical axis. By means of the grid, a horizontal reciprocating movement can be uniformly applied, in which movement the drawer can be moved out of the shelf or into the shelf. The individual drawers are provided with covers arranged on the end faces, which are adapted to the outer contour of the corner cabinet. In the rest state, the covering parts form the inwardly angled end sides of the corner cabinet. When the covering is slightly actuated, an axial pressure is exerted on the covering inwards in the direction of movement of the drawer. The covers are slightly biased inwardly into the shelves and secured whereby the drawer can twist or swing about its own vertical axis.

When the covering or drawer is further manipulated in the axial direction, the drawer is unlocked and moved outwardly from the shelf.

Since the drawers can be handled individually, they can also be individually removed from the rack, so that they are accessible at any time, i.e. from above and from the side.

The twistability and the swinging ability of the drawer are improved by arranging the drawer on the support. If a plurality of panel supports are arranged one above the other, the lower panel is supported on a rotary bearing, which is arranged on the floor of the corner cabinet. Between each two panel carriers there is a stationary carrier which can be fastened to the vertical wall of the corner cabinet and which carries a corresponding rotary bearing for the second panel carrier.

In order to always ensure a horizontal position even when the support stands are constructed in a simple embodiment, in the case of a fully loaded drawer, the lower shelf support is provided with a bracket (B ü gel) whose horizontal support legs are arranged at a small distance from the upper shelf support, on which the support stands of the upper drawer can be supported.

In an alternative embodiment, the auxiliary support (to which the support carrier can be fastened in a height-adjustable manner) can be fastened at least partially or to the rear wall of the cabinet and/or the rear building wall, thereby eliminating the use of brackets.

In order to be able to make full use of the interior space of the corner cabinet, a further practical configuration of the invention provides for the shelf support to have auxiliary shelves arranged laterally to the shelves. The auxiliary panel can advantageously be detachably connected to the panel. In the simplest embodiment the auxiliary panel is suspended at the side of the panel support.

The side of the auxiliary panel facing away from the panel is curved.

The carrier and/or the support can have means for movement independently of one another, which are configured, for example, as bearings (plain bearings or roller bearings) and can move the carrier under the support.

Drawings

Embodiments of the invention are schematically illustrated in the drawings and described in detail below. It shows that:

figure 1 shows the corner cabinet in a different position,

figure 2 shows the adjustment device in different operating positions,

figure 3 is a vertical plan view of the adjustment device,

figure 4 shows the adjusting device according to figure 3 with a rotating support in a perspective side view,

figure 5 the corner cabinet shown in figure 1 in various stages of construction,

FIG. 6 is an exploded view of the grid support with the grid in the starting position in the removed position of the grid,

figure 7 the shelf bracket of figure 6 with brackets and supports,

figure 8 rear region of corner cabinet with vertical auxiliary support of the stand,

figure 9 the corner cabinet of figure 8 with a grid arranged on vertical fixing elements,

figure 10 the corner cabinet of figure 9 with the covering mounted on the panels,

figures 11, 12, 13 show different embodiments of a grid support with grids.

Detailed Description

In the figures, a shelf 10 is shown for a cabinet 1, preferably a corner cabinet 1, which is polygonal and has an access opening 1a arranged at the end. The corner cabinet 1 has: side walls 5a, 5 b; rear walls 5c, 5 d; and at least two panels 14, 15 that can be twisted about the axis 12 and can be moved transversely to the axis 12. The panels 14, 15 can be operated independently of one another, can be arranged one above the other and can be positioned on a panel carrier 16. The panels can be connected to a support 31. The holder 31 can be operatively connected to at least one rear wall 5c, 5d and/or a stationary support S arranged opposite the access opening 1 a.

As can be seen from fig. 5a, the bracket 31 is essentially an L-shaped bracket 31 with legs 31a, 31b, which are operatively connected with the rear walls 5c, 5d, for example by screws. The rotary support 8 is positioned centrally in the bracket 31. In the case of two or more panel carriers, a corresponding plurality of carriers 31 are arranged one above the other, each carrying a support 8.

In fig. 1, a corner cabinet 1 with a cover panel 5 and side walls 5a and 5b is shown. The end sides of the corner cabinets are vertically interrupted inward and are formed by the covering parts 2, 3 and 4 and the corresponding panels (drawers).

If a small force is applied to one of the covers 2, 3, 4 (the uppermost cover 2 in this embodiment) in the direction of the arrow (fig. 1b), the drawer is self-unlocking and is removed from the corner cabinet (fig. 1c, 1 d). If a force in the direction of the arrow is applied in the position according to fig. 1d, the drawer assumes the position according to fig. 1 e.

If a large force is initially applied to the covering 2 of the corner cabinet in the direction of the arrow (fig. 1h), the drawer is moved slightly inwards, so that the covering 2 of the drawer is no longer aligned with the broken end face of the corner cabinet. In this position, the uppermost drawer together with the shelf supports can be twisted about a vertical axis (fig. 1g, 1 f). If the drawer is twisted into the home position (fig. 1h) and is slightly actuated, the drawer together with the covering 2 assumes the position of fig. 1 e. Alternatively, the mechanism can also be implemented in such a way that the covering automatically pops out and assumes the position of fig. 1e after twisting and when the position shown in fig. 1h is reached.

In fig. 1 and 2, the position of the uppermost drawer in the operating situation is shown by way of example. If the drawer is in its rest position (fig. 1a, 1e, 2c), it can be moved into and out of the corner cabinet when the covering 2 is operated. Whether the drawer is moved in or out depends on which force in the direction of the arrow the covering member 2 is operated. The shelf support is operatively connected to spring-loaded adjusting devices 20, 21 (fig. 2), wherein the adjusting devices 20, 21 can assume a plurality of operating positions. When operating slightly in the rest position (fig. 1a, 1e, 2c), the adjusting device 20, 21 is unlocked by moving it a short distance inward in a direction transverse to the axis of rotation and then moving outward (fig. 2d) due to the spring loading, so that the uppermost drawer assumes the position (fig. 1d, 2 a). When the covering 2 is operated again in the direction of the arrow (fig. 1d), the drawer is moved into its original position (fig. 1a, 1e, 2c) against the action of the spring 50 (fig. 2a, 2 b). If the cover 2 is conversely operated more forcefully in the rest position (fig. 1a, 1e, 2c), it moves inwards in a direction transverse to the axis of rotation and is locked in a position in which it can rotate the grid.

When the uppermost drawer has been retracted (fig. 1h, 2e), it can be moved into its rest state (fig. 1a, 1e, 2c) by a slight pressure exerted on the covering 2. This is also illustrated in fig. 3. The adjusting devices 20, 21 together with the rotary bearing 8 can be seen from fig. 4.

The rotary shelf is shown in an open position in figure 5. Fig. 5a shows a corner cabinet 1 with a lower shelf support together with a drawer. The carrier 17 is arranged on the panel carrier and on it a carrier 31 is arranged, which is embodied as two-legged. This support can be fastened in a height-adjustable manner to auxiliary supports which are embodied integrally with the rear walls 5c, 5d of the cabinet 1 or can be arranged on these rear walls. The support 8 for the second panel holder is arranged on the holder 31 (fig. 5 b). The carrier 17 here movably supports the holder 31 by means of a detachable bearing, not shown. The support can be formed, for example, by a plain bearing or a roller bearing and can be arranged on the carrier 17 or the support 31.

In fig. 5c, the support 31 and the support 8 are covered by the second panel carrier 16 with the lower part of the adjusting device 21 arranged thereon, and in fig. 5d the panel carrier 16 has the panels 15.

In fig. 6 and 7, the lower panel 14 and the upper panel 15 are shown with brackets 17 or panel holders 16. In general, the shelf 10 according to the invention has two or more panels 14, 15 that can be twisted about the axis 12 and can be moved transversely to the axis 12. The panels 14, 15 can be operated independently of one another and can be fixed in three different positions. The individual positions of the drawers 14, 15 are defined in their operation by the adjusting devices 20, 21. The drawers 14, 15 can be moved in the direction of the double arrow 18, wherein the respective operating position is defined by the adjusting devices 20, 21 shown in fig. 3 and 4 and fig. 2. The lower panel support 16 has a bracket 17, the horizontal leg 19 of which is arranged at a small distance from the support 31 according to fig. 9. The bracket 17 is substantially U-shaped with its vertical legs 19a, 19b being fixedly secured to the shelf support 16. The bracket 31 supports the rotary bearing 8 and is supported by its legs 32, 33 on the wall of the corner cabinet. The auxiliary panes 41, 42 are arranged on the side of the pane support 16, the sides 43, 44 thereof facing away from the panes being curved. The carrier 17 here movably supports the support 31 by means of a detachable bearing (plain bearing or rolling bearing), not shown, which is arranged between the two and here on the carrier 17 and/or the support 31.

Fig. 8 shows a holding means 61 (post) which can be fastened at least partially, for example by means of an upper end 60, directly to a building wall or other stable wall of the back. The holding means 61 (posts) thus have an improved stability with respect to the holding element illustrated in fig. 5. A part of the holding means 61 can also be fixed to a part of the cabinet 1.

Fig. 9 shows an alternative variant of a support 31, which in this case is embodied as a linear support 31 and is fastened to a vertical auxiliary support. The stability of the support system is increased by the increased stability of the auxiliary support and by the stability of the support 31 without the use of brackets 17. The shelf supports 16 are each arranged on a support 31.

In addition to fig. 9, fig. 10 additionally shows the arrangement of the shelves 14, 15 on the shelf support 16.

In fig. 11, 12 and 13, different configurations of the panel holder 16, the panels 14 and 15 and the auxiliary panels 41 and 42 are shown.

The proposed shelf therefore allows to fully utilize the internal space of the corner cabinet without here affecting the appearance of the corner cabinet. The technical embodiment of the shelf support 16 and the shelves 14, 15 makes the functional capacity of the shelf (rotary shelf) independent of the number of drawers 14, 15 arranged one above the other. The drawers 14, 15 can also have different heights. In this case, the maximum load capacity of the drawers 14, 15 is provided with full mobility.