The present invention relates to a furniture unit for a great variety of applications. The furniture unit is particularly preferably employed in kitchens. Use is also possible and preferred in rack and cabinet systems and in other modular furniture. A piece of furniture may consist of one single furniture unit or else of multiple, sectional furniture units, which in turn form a larger furniture unit.
Various break-down furniture units have been disclosed in the prior art which are used for house and office furniture, for shelf systems in sales facilities and the like. These furniture units require little space for transport in their disassembled state. They can then be reassembled on site. A number of tools are required as a rule.
The time required and the complexity in assembling restrict the options for using these kinds of systems particularly in the case of furniture body elements complex in design.
DE 101 27 311 B4 discloses a furniture body configured to be disassembled and suitable for nearly no-tools assembly.
It is the object of the present invention to develop the known system further in an advantageous way so as to provide for easier assembly and/or improved functionality.
This object is solved by furniture units according to the invention having the features of the claims 1 and 8. Advantageous specific embodiments of the invention are the subjects of the subclaims. Further advantages and features of the invention can be taken from the general description and the description of the exemplary embodiment.
An inventive furniture unit according to claim 1 comprises at least one frame body that defines a box-shaped accommodating space. On at least one side a partition frame having a partition panel is accommodated. The partition frame accommodates the partition panel so it can be locked and/or aligned by at least one adjusting unit.
The furniture unit according to the invention has many advantages since it ensures simplicity of structure and reliability of function.
Due to the partition frame accommodating the partition panel a rigid partition frame can be provided that withstands high loads. The adjusting unit locks the partition panel at the partition frame so as to prevent inadvertent removal of the partition panel. At the same time the adjusting unit can align the partition panel to thus even out in particular small and tiny deviations in the region of less than 1 mm.
Preferably the partition frame comprises a top and a bottom beam wherein the adjusting unit is placed between the partition frame and the top beam for locking. Basically it is also possible to insert the adjusting unit between a bottom beam and the partition frame for locking the partition panel at the partition frame.
The adjusting unit is in particular L-shaped and comprises in particular one long and preferably one short contacting leg for the partition frame.
Preferably one, and in particular the short one, of the contacting legs is provided with a pair of adjusting screws for aligning the partition panel in two different directions. In particular is one adjusting screw provided for diverting the action so that the screw is turned in one direction while alignment is effected in a direction transverse thereto.
Particularly preferably the adjusting screw acts on a split region of one and in particular the longer of the contacting legs for adjusting the height. For example when the screw is turned by the screw tip into a frusto-conical accommodation within the split region then such screwing in causes the split region to expand so as to result in an alignment transverse to the driving direction of the adjusting screw.
Preferably the adjusting unit comprises at least one spring arm for latching that in particular protrudes from the long contacting leg. When the adjusting unit has been pushed in the spring arm that in particular protrudes from the long contacting leg and forms an approximately V-shaped aperture toward the short contacting leg, ensures latching if there is free space above the spring arm for the spring arm to resiliently rise after being pushed in. This reliably prevents removal of the adjusting unit since an attempt at removal causes an end of the spring arm to bear against a wall of the notch.
For removal in turn, a finger of a hand or a tool such as a screwdriver can be inserted into the notch from the side to bend the resilient spring arm downwardly so that the adjusting unit can now be readily removed.
Therefore it is preferred for the spring arm to engage in a notch of the top beam in the mounted state.
In another configuration an inventive furniture unit according to claim 8 comprises at least one frame body that defines at least one box-shaped accommodating space. The frame body is supported on at least two cross bars wherein one of which serves as the top cross bar and another one, as the bottom cross bar. The top cross bar is joined to the bottom cross bar via at least one supporting section. At least one joint section is provided for joining at least one cross bar to at least one supporting section. The joint section comprises an angular head that enters into the cross bar in the mounted state.
This furniture unit according to the invention has considerable advantages since it allows and facilitates a nearly no-tools assembly of the entire furniture unit. These two cross bars together with the supporting sections form one base frame that can for example be fastened to the wall of a building. All the other components are attached to said base frame.
A simple connection is enabled at the cross bar due to connecting at least one supporting section via at least one joint section with at least one cross bar. The angular head of the joint section can be inserted through a hole in the cross bar so that the angular head is reliably retained at the cross bar.
Preferably at least one cross bar has at least one hole for receiving the angular head of the joint section. In particular is a plurality of evenly spaced holes provided in the cross bar. Particularly preferably both of the cross bars are identical in structure.
The joint section is preferably connected with the supporting section via at least one screw. Or else it is possible for the joint section to be connected with the supporting section via two or more screws. This type of joint requires just a screwdriver for connecting the supporting section with the cross bar via the joint section. A modular structure is possible where any desired dimensions can be realized according to the hole distances.
In other configurations it is also possible for the joint section to comprise at least one latch joint for connecting with the supporting section. This allows a structure that entirely dispenses with screws. The latch joint is inserted into a matching stop groove of the supporting section where it latches into the supporting section while the angular head of the joint section is retained in the hole of the cross bar. The result is a stable and firm structure that can be realized substantially without tools.
Further advantages and features of the present invention can be taken from the description of the exemplary embodiments, which will be discussed with reference to the following figures.
The figures show in:
With reference to the enclosed figures, exemplary embodiments of furniture units 1 according to the invention will be discussed below.
The bottom cross bar 32 and the top cross bar 31 may for example be attached to a wall of a building, serving to support the entire furniture unit 1.
The top cross bar 31 comprises slots 33 for inserting a partition frame 20. To this end the partition frame 20 has an engaging lug 29, not shown in
The furniture unit 1 is provided with at least one frame body 2 that provides a box-shaped or square accommodating space 3 that is presently shown on the side in front of the partition frame 20. An accommodating space 3 is formed on the other side of the partition frame. The accommodating spaces 3 may serve to receive any desired furniture elements 8. The accommodating spaces 3 may for example be provided with drawers or electrical appliances or cabinet elements or the like.
The partition frame 20 comprises the top beam 21 and the bottom beam 22, and functional sections 5 and 6. Two functional sections 5 are provided as the front functional sections, receiving between them the top beam 21 in an upper region and the bottom beam 22 in a lower region. The two beams 21 and 22 and the functional sections are linked to one another in non-visible pivot points to form a four-bar mechanism.
The partition frame forms a side panel 4 of the frame body 2.
Three fitting sections 7 are disposed between the functional sections at different heights. Each of the fitting sections 7 comprises an inner longitudinal face 13 and an outer longitudinal face 14. The inner longitudinal face 13 is oriented toward the interior of the accommodating space 3, comprising a first groove 11 extending over the entire length of the fitting section 7.
Furthermore, holes 17 forming a row of holes are provided in the inner longitudinal face 13 of the fitting section 7. At the height of the holes 17 of the fitting section 7 there is also a hole 18 in the functional sections 5, 6. Preferably all the holes are spaced apart by specified and substantially equal distances.
The bottommost fitting section 7 shows a fitting as the furniture element 8 that is received in another groove 23 on the outer longitudinal face 14, not shown, of the fitting section 7. By means of the furniture element 8 that is presently formed as a bottom angle, further components such as shelves, drawer cabinets and the like can be attached to the furniture unit 1.
The partition panel frame 20 may comprise a partition panel 19 that may be made of standard materials. The partition panel 19 may for example be of glass and it may be transparent or opaque.
The top cross bar 31 and the bottom cross bar 32 are preferably identical in structure and may be positioned for example mirror-inverted. Both the cross bars may comprise top and bottom holes 45 disposed equidistantly in analogy to the slots 33. The holes 45 allow the mounting of different elements. For example joint sections 60 may be provided for joining the supporting sections 41, 42 to the cross bars 31, 32. The cross bars 31 and 32 and the supporting sections 41 and 42 form a base frame 30.
The supporting section 41 preferably consists of a light metal such as aluminium or the like. Manufacturing from plastic or wood is likewise possible.
The side rabbet 47 may for example be provided for accommodating the rear panel 36 where a lateral end of a panel section 37 is pushed into the rabbet 47. Subsequently the rear panel is locked by attaching the closing section 44 so that the rear panel is securely received. This is the state shown in
The front groove 48 may serve to receive the partition panel 19 which may furthermore be additionally fixed by way of the closing section 44.
Pushing the partition panel 19 into the partition frame 20 braces the partition frame 20 so that it retains the form shown in
The joint section 60 of
Alternately a joint section 60 as it is illustrated in
Each single panel section 37 has a cross-section as it can be seen in
Each of the panel sections 37 comprises a hollow space 49. The single panel sections may consist of a great variety of materials such as wood, plastic and metal, and in particular light metal. They may for example be of an aluminium material allowing an optically appealing design.
The partition frame 20 consists of the front functional sections 5 and the rear functional sections 6, and of the top beam 21 and the bottom beam 22. The fitting sections 7 are retained at the partition frame 19 by means of pegs 9, 10.
The upper pegs 9 at the two functional sections 5 and 6 are inserted into the first groove 11. To this end the section is placed horizontal, the groove 11 facing upwardly, and placed on the pegs 9. Then the fitting section 7 is pivoted downwardly about the pivot point of the pegs 9 so that the second groove 12 bears against the second pegs 10. In this way the second pegs 10 are received in the second groove 12. The pegs 10 in the groove 12 prevent further outwardly movement while the first pegs 9 in the first groove 11 prevent inwardly movement of the fitting section 7. Furthermore the pegs 9, 10 reliably divert the forces acting from above.
Another groove 23 beneath the first and second grooves 11, 12 serves to receive a furniture element 8 configured in particular as a bottom angle or a shelf to allow attaching further components.
The partition frame 20 is supported downwardly by a base 71 on which retaining pins 35 are provided which are inserted into matching bottom apertures of the functional sections 5. A T-bar is pushed onto the partition frame 19 from the front, covering the gap between the two functional sections 5 in which the partition panel 19 has been inserted.
After inserting the partition panel 19, an adjusting unit 50 is pushed in between the partition panel 19 and the top beam 21 and latches into a recess or a notch 59 of the top beam 21.
The beam 21 consists of the beam parts 26 and 27. The beam part 26 has a supporting lug 28 at its end while the beam part 27 has an engaging lug 29. At the other end of the beam parts 26 and 27 the notch 59 is provided for accommodating the adjusting unit 50.
Two functional sections 5 and two functional sections 6 and the top beam 21 and the bottom beam 22 together form the partition frame 20.
It is possible for a front functional section 5 and a rear functional section 6 and a beam part 26 and a beam part 27 to form a part frame where the single components are linked to one another in pivot points to form a four-bar mechanism. A second part frame is correspondingly formed of the same parts.
Now the part frames can be assembled to form the partition frame 20 according to
This configuration allows to insert the part frame shown on the left in
The long contacting leg 51 is provided with a spring arm 58, which in the normal state protrudes upwardly.
When the adjusting unit 50 is pushed into the space between the partition panel 19 and the top beam 21 the spring arm 58 is first pressed downwardly until the spring arm resiliently rises in the offset 59 and is firmly wedged in the notch 59. This readily prevents the adjusting unit 50 from being pulled out.
The distance of the notch 59 from the end of the beam is dimensioned such that the notch 59 is not covered by the functional section 5.
This allows particular flexibility in the structure of the furniture units according to the invention since the height of various elements may be modified even at a later time. For example if a cabinet element is first used with a specific quantity of shelves or drawers and the height of this cabinet element is later intended to be expanded, then at least one matching part can be placed on top. Reversely it is also possible to remove various installations from one or more frame bodies and for example to use it as a higher cabinet or the like.
The invention allows a basically unlimited expandability in height by the stacking capability. There is an increase in the functionality of the partition frame that comprises a simple, detachable bracing as a partition panel. The frame construction with detachable joint sections allows easy assembly. The slots disposed at defined lateral distances and also the modular structure of the rear panel allows realizing flexible widths.
Fixed, non-detachable connections can be dispensed with which reduces transport costs and damage in transit. Moreover, re-use and re-construction in dependence on the currently prevailing requirements is possible.
Number | Date | Country | Kind |
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10 2011 112 073.8 | Sep 2011 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2012/003610 | 8/28/2012 | WO | 00 | 7/14/2014 |