The present invention relates to a drawer front connection unit, a drawer wall element, and a furniture item.
For the connection of a drawer, in particular a drawer wall element having a drawer front, drawer front connection units are known in a wide variety of designs within the field of furniture making.
The object of the present invention is to improve a drawer front connection unit for a flexible furniture production.
The present invention is based on a drawer front connection unit for a drawer wall element of a drawer, on which drawer wall element a marginal portion of a drawer bottom is insertable in order to form a drawer side wall adjoining the drawer bottom. The drawer wall element here comprises a wall profile part and a bottom-receiving profile part, wherein on the drawer wall element is provided a support surface, present on the bottom-receiving profile, for providing underside support to a drawer bottom insertable on the drawer wall element. The wall profile part here comprises a chamber portion having an inner wall sheet portion and an outer wall sheet portion, which are spaced apart, one opposite the other, by a width dimension of the drawer wall element and are connected by a bent-over section.
The essence of the present invention lies in the fact that the drawer front connection unit is designed for fitting in the chamber portion of the drawer wall element and extends over a height dimension of the chamber portion, wherein the drawer front connection unit has front-fastening elements for fitting of a drawer front. The drawer front connection unit can advantageously be accommodated in a protected manner within the chamber portion and, at the same time, can be barely or not at all apparent. As a result of the extent over a height dimension of the chamber portion, the drawer front connection unit can be fixed in the chamber portion at fastening positions which offer the advantage of a secure and stable fitting. The drawer front connection unit can here be latched in place, for example by snap-locking, or can be fitted, for example by welding or, for example, by means of screwing or riveting or by a combination of different fastening methods—detachably or non-detachably—in the chamber portion.
The front-fastening elements are preferably configured in a lower region and in an upper region of the drawer front connection unit, whereby, in particular on drawers having a comparatively deep storage space, connecting forces between the drawer front and the drawer wall element can advantageously be distributed, preferably evenly, amongst several connecting points.
If, for different drawer fronts within an appropriate range, respectively different connection methods are necessary, a first of the front-fastening elements can be fitted detachably to the drawer front connection unit in order to be able, where necessary, to exchange the front-fastening element.
For a stable connection of a drawer front to a drawer wall element, it is advantageous if a second of the front-fastening elements is fastened in a permanent, in particular non-detachable manner, to the drawer front connection unit.
A preferred embodiment of the invention lies in the fact that a first of the front-fastening elements can be arranged with the drawer front connection unit in such a way in the chamber region that the first front-fastening element is positionable within the wall profile part such that it bears against a top edge. As a result, the first front-fastening element can be positioned comparatively remote from the, for example, second front-fastening element in order to achieve an advantageously high leverage through the connection to a drawer front.
The front-fastening elements can be connected to each other via an assembly body, which can advantageously be tailored to a shape of the chamber region.
Preferably, at least one of the two front-fastening elements is arranged in such a way on the assembly body that a flat end face of the front-fastening element can be arranged in a plane of an end face of the drawer wall element. In this case, the drawer front connection unit can advantageously reinforce the appropriate end face of the drawer wall element.
Furthermore, it is preferred that one of the front-fastening elements comprises a removable plug element, which is intended to be fastened to the front panel in order to enable a rational production. In particular, as a counterpart thereto, one of the front-fastening elements, preferably the same one, can comprise a socket, which can be fitted to the assembly body.
The socket can be provided with a tension device, with which a tensile force applied to the plugged-in plug element is adjustable for the fastening of the drawer front in order to connect a drawer front with a predefined force to the drawer wall element. In the tension device, a wedge-shaped bolt, which in particular is configured to back-grip the plug element, can be adjustably mounted in order to wedge the plug element under tensile stress in the tension device. To this end, the plug element preferably has a widened plug head.
The assembly body can be configured in the form of a flat, preferably rigid plate, whereby the drawer front connection unit, if need be, can be inserted in chamber portions of different drawer wall elements.
Preferably, to the assembly body can be fitted a filling element, with which the assembly body can be supported against a surface portion on an inner side of the wall profile part, whereby a stability of the drawer wall element can additionally be advantageously increased.
A further aspect of the present invention relates to a drawer wall element for a drawer, on which drawer wall element a marginal portion of a drawer bottom is insertable in order to form a drawer side wall adjoining the drawer bottom, wherein the drawer wall element has a wall profile part and a bottom-receiving profile part, which are respectively designed as separate and mutually coordinated components made of a sheet metal material and are connectable to each other in mutual alignment to form the drawer wall element, so that on the created drawer wall element can be provided a support surface, present on the bottom-receiving profile part, for providing underside support to a drawer bottom insertable on the drawer wall element. It is here essential that to an end-face end of the wall profile part is fitted a drawer front connection unit according to the invention, which is configured according to one or more of the embodiments described above.
The drawer front connection unit can here be arranged on the drawer wall element above the bottom-receiving profile part, wherein the drawer front connection unit and the bottom-receiving profile part can be connected to each other, in particular fixedly.
Furniture items having a drawer front connection unit according to the present invention can be able to be produced comparatively rationally, with increased load bearing capacity.
The present invention is explained below on the basis of an illustrative embodiment and with the aid of drawings. The reference symbols are used uniformly in all figures in order to denote consistent features.
In
The drawer wall element 1 comprises a wall profile part 4, which is divided by bending edges 5a and 5b into an inner wall sheet portion 6, an outer wall sheet portion 7, and a top edge sheet portion 8. The chamber region 3 is defined by a space enclosed by the three sheet portions 6, 7 and 8. In the chamber region 3 is arranged, moreover, a filling element 9, with which the inner wall sheet portion 6 and the outer wall sheet portion 7 are held at a distance apart of a width dimension B. As a result of the filling element 9, the inner wall sheet portion 6 and the outer wall sheet portion 7, at least in the region of the filling element 9, cannot be compressed, so that advantageously the drawer wall element is stabilized in its shape.
On a rear end face lb, the drawer wall element 1 has a rear wall connector 10, with which a rear wall can be fitted to the drawer wall element 1.
On a bottom side of the drawer wall element 1, the outer wall sheet element 7 protrudes downward beyond a bottom edge of the inner wall sheet portion 6. In this case, on a bottom edge 6a of the inner wall sheet portion 6, a plurality of bottom-receiving profile parts 11 are fitted to the drawer wall element 1, which are intended to fit a drawer bottom (not shown) on the bottom edge 6a of the inner wall sheet part 6.
In
A height F of the mounting plate 12 is tailored to a height dimension H of the chamber portion 3 and tallies, in particular, with the height dimension H. The front-fastening elements 13 and 14 are arranged on the same side face 12b at a comparatively large distance apart on the mounting plate 12. As a result, a large part of the height dimension H of the chamber portion 3 can be utilized as the lever length in order to absorb, for example, lateral force effects transversely to the longitudinal axis of the drawer wall element. Such force effects can arise, for example, if a comparatively tall article, for example a drinks bottle, tips over and falls against, for example, the bending edge 5a.
To the mounting plate 12 can be fitted a filling element 15, which extends over the width dimension B and bears in the chamber portion 3 against the inner wall sheet portion 6 and against the outer wall sheet portion 7.
The front-fastening element 13 is fitted with holding clamps 16a, 16b and 16c to the mounting plate. The holding clamps 16a, 16b and 16c protrude on the side face 12b from the mounting plate 12 and are shaped into right-angled U-profiles. Preferably, the holding clamps 16a-16c are punched out of the mounting plate 12 in such a way that they are connected on one side to the mounting plate 12 and are bent out of the mounting plate. The surface of the front-fastening element 13 and the holding clamps 16a-16c can be mutually coordinated in such a way that the holding clamps 16a-16c on the front-fastening element 13, which, in a position shown in
The front-fastening element 14 is preferably connected in a fixed and non-detachable manner to the mounting plate 12. On that embodiment of the drawer front connection unit 2 which is shown in
In an opening 22 is arranged an unlocking element 23, which can be moved in order to release the latched-in plug element 21 in the opening 22, for example with a suitable screwdriver (not shown). Furthermore, the shaft element 19 has a set screw 24, with which a horizontal position of the plug element 21 in the shaft element 19 is adjustable. For an assembly, on the plug element 21 are configured two dowel pins 25, which are intended to be hammered into corresponding bores (not shown) on an inner side of a drawer front (not shown). The plug element 21 of the other front-fastening element 14 can thus be fitted to the drawer front (not shown) and afterwards plugged into the shaft element 19 for a latching connection. By means of the adjusting elements 20 and 24, following latching of the plug element 21, a positioning of the drawer wall element 1, and here of a drawer bottom (not shown) inserted on the bottom-receiving profile parts, on a drawer front (not shown) is advantageously possible. For the just described adjustment possibilities, the inner wall sheet part 6 can be breached and open at appropriate places in order that the adjusting elements 20 and 24, for the purpose of the adjustment, are accessible by a user.
In
On the main body 26 is configured a funnel-shaped shaft opening 36, which has an inwardly converging, rectangular cross section. Through the shaft opening 36, the cylindrical recess 27, and thus the cylinder body 29, are reachable from an end face 26a.
The front-fastening element 13 comprises a plug element 32 having a, for example, cylindrical pin 34, which on a free end has a spherical thickening 35. If a mark 38 on the cylinder body 29 and a mark 39 on the main body 26 are arranged in close proximity to each other, the thickening 35 of the plug element 13 can be introduced through the shaft opening 36 into a slot opening 31 on a cylinder casing wall 37 of the cylinder body 29. Counter to the arrow direction D, the slot opening is of narrowing configuration, wherein the slot opening has in the axial direction of the cylinder body a width which corresponds to a diameter of the cylindrical pin. The cylinder casing wall 37 can here back-grip the plug element 13 at the thickening 35, whereby the plug element 13 can be jointly locked on the main body 26 by rotation of the cylinder body 29 in the arrow direction D.
On that end of the pin 34 which lies opposite the thickening 35 is configured a dowel portion 33, with which the plug element 13, can be hammered into a corresponding bore (not shown) on a drawer front (not shown) for fastening purposes.
Number | Date | Country | Kind |
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20 2013 011 421.5 | Dec 2013 | DE | national |
This application is a continuation of International Application No. PCT/EP2014/078175 filed Dec. 17, 2014, which designated the United States, and claims the benefit under 35 USC §119(a)-(d) of German Application No. 20 2013 011 421.5 filed Dec. 20, 2013, the entireties of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/EP2014/078175 | Dec 2014 | US |
Child | 15184161 | US |