Device for releasably connecting a furniture pull-out, which is movable guided in a furniture carcass via a guidance unit to said guidance unit

Information

  • Patent Grant
  • 9095211
  • Patent Number
    9,095,211
  • Date Filed
    Thursday, August 16, 2012
    12 years ago
  • Date Issued
    Tuesday, August 4, 2015
    9 years ago
Abstract
In a device for releasably connecting a furniture pullout part movably guided in a furniture carcass by a guide unit to the guide unit, the device including a device housing on which a control element is integrally formed and pivotably mounted via at least one solid body joint in such a way that the connection between the furniture pullout part and the guide unit can be released on actuation of the control element, at a distance from the solid body joint, supporting surfaces are provided for supporting the control element while preventing a relative movement between this and the device housing.
Description

This application claims priority based on an International Application filed under the Patent Cooperation Treaty, PCT/EP2012/003482, filed Aug. 16, 2012, which claims priority to DE202011104673.0, filed Aug. 18, 2011.


BACKGROUND OF THE INVENTION

The invention relates to a device for releasably connecting a furniture pullout part movably guided in a furniture carcass by means of a guide unit to the guide unit, the device comprising a device housing on which a control element is integrally formed and pivotably mounted via at least one solid body joint in such a way that the connection between the furniture pullout part and the guide unit can be released on actuation of the control element.


A device of this kind is for example known from EP 0 695 523 B1. Such devices are used for coupling the guide unit to a furniture pullout part, so that the furniture pullout part, for example a drawer, can be separated from the guide unit if required. It can now be taken out of the furniture carcass, making it possible to install the guide unit permanently into the carcass. The device known from prior art is a single-piece moulding made of a flexible plastic material. A control element is injection-moulded to a base section of the moulding. The control element comprises a handle and, integral with the handle, a latching section with a latching hook. By operating the handle, the control element, which is connected to the base section of the moulding via a solid body joint, can be pivoted; in this process, the latching hook disengages from a complementary latching section on the guide unit, so that the furniture pullout part can be separated from the guide unit.


A furniture pullout part is subjected to not inconsiderable forces, in particular in the opening and closing process and in particular if the furniture pullout part is heavily loaded. Peripheral parts of the furniture pullout part, such as the above-mentioned device in particular, can be subjected to heavy loads. Plastic control elements, for example, are at risk of material breakage. This is for example simulated in a dynamic “opening with overload” stop test. In this test, the furniture pullout part is brought from the closed position into an opened position using full force in order to test the stability of individual components. This dynamic test imposes a very heavy load on the material, resulting in repeated breakages caused by peak loads.


SUMMARY OF THE INVENTION

The invention is based on the problem of creating a device of the type referred to above, the components of which have a long service life even if heavily loaded.


This problem is solved by a device with the features of the independent claim 1. Further developments of the invention are described in the dependent claims.


The device according to the invention is characterised in that, at a distance from the solid body joint or the film hinge, supporting means are provided for supporting the control element while preventing a relative movement between this and the device housing.


The supporting element provides a support for the control element, resulting in minimum deformation of the control element even at high loads. The dynamic “opening with overload” stop test can be performed on the device according to the invention without resulting in material breakage. As a whole, the device has a long service life, so that a replacement of such devices because of damage is required only very rarely if at all. This reduces overall costs. The supporting means are of course arranged such that the operation of the control element, i.e. the release of the furniture pullout part from the guide unit, is not impeded.


In a further development of the invention, the supporting means are designed such that the control element can be supported in the X and Y spatial directions as well as the Z spatial direction of a Cartesian coordinate system defined by X, Y and Z coordinates. This means that the supporting means can provide support in all three spatial directions, making the direction in which forces act irrelevant.


In a further development of the invention, the supporting means have complementary supporting surfaces on the device housing on the one hand and on the control element on the other hand.


The supporting surfaces can be represented by supporting projections which project from the periphery of the device housing and/or from the periphery of the control element. The supporting projections are expediently formed integrally when producing the housing and the control element. Alternatively, the complementary supporting surfaces on the device housing and on the control element could be chosen such that no separate projections are provided, but surfaces present at the production of the housing and the control element are used; these will then have to be matched to one another in such a way that they are complementary on the one hand and are close to or in contact with one another on the other hand, so that a reliable support can be provided under the action of forces.


In a further development of the invention, the control element is designed in the manner of a lever, with a manually operated operating section, which is located on the near side of the solid body joint, and with an engagement section for engagement with the complementary engagement means on the guide unit, which is located on the other side of the solid body joint.


In order to obtain a firm hold of the engagement section on the control element side and of the complementary engagement means when in engagement and at the same time to ensure that the engagement section can easily be released from the engagement means, the engagement section and the engagement means comprise latching means. The release of the furniture pullout part from the guide unit is achieved simply by unlatching the latching means formed on the engagement section from the complementary latching means of the guide unit. The latching means are expediently represented by latching teeth.


In a further development of the invention, and adjusting unit is provided for the vertical adjustment of the furniture pullout part relative to the guide unit. In this way, the gap between the furniture pullout part and the surrounding furniture carcass can be adjusted in the vertical direction.


In a particularly preferred embodiment, the adjusting unit comprises a wedge-shaped adjusting member which projects into the gap between the underside of the furniture pullout part and the guide unit and the adjusting movement of which causes a raising or lowering of the furniture pullout part relative to the guide unit.


In a particularly preferred embodiment, the adjusting member is pivotably mounted on the device housing by way of a pivot bearing having a journal pin. The vertical adjustment is therefore obtained by pivoting the adjusting member in one or the other direction.


In a particularly preferred embodiment, the journal pin is a part of the supporting means for the control element. The journal pin is therefore multifunctional, serving as a supporting means in addition to being part of the pivot bearing.


In a further development of the invention, the device housing and the control element are made of a plastic material. In particular, the same plastic material is used for the device housing and the control element.


In a particularly preferred embodiment, the device housing and the control element are injection-moulded plastic parts, the control element being injection-moulded to the device housing in the production process. Alternatively, the device housing and the control element could conceivably be produced in a two-component injection moulding process; in this case, the housing and the control element would be made of different plastic materials.


The invention further includes a piece of furniture with a furniture pullout part which is movable relative to a furniture carcass and guided by way of a guide unit, and which is characterised by a device according to any of claims 1 to 12.





BRIEF DESCRIPTION OF THE DRAWINGS

A preferred embodiment of the invention is illustrated in the drawing and explained in greater detail below. Of the drawing:



FIG. 1 is a perspective view of a preferred embodiment of the device according to the invention;



FIG. 2 is a side view of a part of the device from FIG. 1; and



FIG. 3 is a top view of a part of the device from FIG. 1.





DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS


FIGS. 1 to 3 show a preferred embodiment of the device 11 according to the invention designed for releasably connecting a furniture pullout part movably guided in a furniture carcass by means of a guide unit to the guide unit.


The device is explained below using a furniture pullout part designed as a drawer as an example.


The drawer is mounted for displacement relative to the furniture carcass via the at least one guide unit. Expediently, several guide units are provided, to which are assigned two opposite lateral edges of the drawer. The guide units may be parts of a so-called underfloor guide, in which the guide units are assigned to the drawer base. Alternatively, the guide units could be integrated into the side wall or the frame of the drawer. The device 11 according to the invention serves as a connecting link between the guide unit and the drawer. For this reason, the device 11 could be called a coupling.


The device 11 comprises a device housing 12 which is made of a plastic material and expediently produced in an injection moulding process. The device housing 12 has a base plate 13 with guide openings 14 for securing to the base of a drawer by means of suitable fasteners, for example screws. The end face of the base plate 13 is wider than the rest of the base plate 13, with through-holes 15 for mounting on a side wall projecting downwards or on the front plate of the drawer being provided on the end face, which is substantially perpendicular to the base plate. A bearing section 16 of an oblong shape rises above the base plate 13 of the device housing 12.


A further part of the device 11 is a lever-type control element 17 which is integrally formed on the bearing section 16 of the device housing 12 via at least one solid body joint 18. This control element 17 is likewise made of a plastic material and injection-moulded to the device housing 12 in the production process. The control element 17 is preferably made of the same plastic material, which makes for low production costs, because a one-component injection moulding process can be used.


The control element 17 is pivotably mounted on the bearing section 16 by way of the solid body joint 18. The control element 17 has a manually operated operating section 19 designed in the manner of a handle. The operating section 19 is located on one side of the solid body joint, with an engagement section 20 provided on the other side for engagement with complementary engagement means (not shown) on the guide unit.


As FIG. 1 in particular shows, the handle-like operating section 19 is wedge-shaped, with a suitable, possibly curved, operating surface 21 being provided on the outside of the operating section 19 for applying a finger of the user. As FIG. 3 in particular shows, the engagement section 20 is provided with latching means in the form of latching teeth 22 on the other side of the solid body joint 18. In the position of the control element 17 shown in FIG. 1, the latching teeth 22 on the engagement section 20 are in engagement with complementary latching teeth (not shown) on the guide unit, thereby coupling the drawer to the guide unit. By the pressure applied by the finger of the user to the operating surface 21, the control element 17 can be pivoted clockwise about the solid body joint 18, and in this process the engagement section 20 with the latching teeth 22 pivots anticlockwise towards the bearing section 16 of the device housing 12, thereby disengaging latching teeth on the control element 17 from the complementary latching teeth on the guide unit.


As FIG. 3 in particular shows, a pivoting recess 23 is formed on the device housing 12, allowing a certain degree of pivoting of the engagement section 20 with the latching teeth 22 towards the bearing section 16. The device 11 further comprises supporting means 24 located at a distance from the solid body joint. The supporting means 24 are designed such that support is provided in the X and Y spatial directions as well as the Z spatial direction of a Cartesian coordinate system defined by X, Y and Z coordinates. For this purpose, complementary supporting surfaces 25a, 25b, 26a, 26b, 27a, 27b are provided on the device housing 12 on the one hand and on the control element 17 on the other hand for supporting the control element against forces acting in the X, Y and Z spatial directions. The supporting surfaces 25a-27b are formed on supporting projections which project from the periphery of the control element 17 and from the periphery of the device housing 12. Among the supporting projections, there are provided X supporting projections 28a, 28b with the supporting surfaces 25a, 25b against forces acting in the X direction. The X supporting projection 28a on the device housing is represented by a journal pin 29 of an adjusting member 30 of an adjusting unit for the vertical adjustment of the furniture pullout part, which will be described in greater detail below. The associated supporting surface 25a is located on the peripheral surface of the journal pin 29. To complement this arrangement, the X supporting projection 28b of the control element is located on the underside of the control element 17 and projects therefrom. The associated supporting surface 25b is the surface of the X supporting projection 28b which faces the supporting surface 25a on the journal pin 29.


The Y supporting projections 31a, 31b are represented on the side of the device housing 12 by a web section extending in the X direction and forming a boundary of the pivoting recess 23, while the complementary Y supporting projection 31b on the control element 17 is represented by an extension of the end face of the engagement section 20, which likewise extends in the X direction. The associated supporting surfaces 26a, 26b are represented by facing inner surfaces of the supporting projections 31a, 31b. As FIG. 3 in particular shows, there is only a very small, if any, distance between the two supporting surfaces 26a, 26b (they may even be in contact with one another), so that, if forces act in the Y direction, the two supporting surfaces 26a, 26b prevent a relative movement between the control element 17 and the device housing 12 in the Y direction by being in contact with one another.


The Z supporting projections 32a, 32b are in particular recognisable in FIG. 2. The Z supporting projection 32a on the device housing is represented by the same web section which was previously described as Y supporting projection 31a. The supporting surface 27a is located on the underside of this Z supporting projection 32a. The Z supporting projection 32b on the control element 17 is represented by a further nose-like extension of the engagement section 20 of the control element 17. The supporting surface 27b is located on the top of this Z supporting projection 32b.


As a whole, these X, Y and Z supporting projections are produced integrally by a suitable design of the mould in the production of the device 11.


The device 11 further comprises an adjusting unit for the vertical adjustment of the furniture pullout part relative to the guide unit. For this purpose, the adjusting unit comprises a wedge-shaped adjusting member 30, which projects into the gap between the underside of the furniture pullout part and the guide unit and which is pivotably mounted on the device housing 12 by means of the journal pin 29. When the adjusting member 30 is pivoted, a more or less wide or thick region of a wedge-shaped guide section 33 of the adjusting member enters the gap between the guide unit and the underside of the drawer, allowing a vertical adjustment of the drawer relative to the guide unit and thus to the furniture carcass.

Claims
  • 1. A device for releasably connecting a furniture pullout part movably guided in a furniture carcass by means of a guide unit to the guide unit, the device comprising a device housing on which a control element is integrally formed and pivotably mounted via at least one solid body joint in such a way that the connection between the furniture pullout part and the guide unit can be released on actuation of the control element, wherein, at a distance from the solid body joint, supporting means are provided for supporting the control element while preventing a relative movement between the control element and the device housing, wherein the supporting means supports the control element in the X, Y and Z spatial directions of a Cartesian coordinate system defined by X, Y and Z coordinates, andwherein the supporting means comprises: an X supporting projection projecting from the periphery of the device housing and having an X supporting surface facing in the X direction;an X supporting projection projecting from the periphery of the control element and having an X supporting surface facing the X supporting surface of the device housing for preventing relative movement between the device housing and the control element in the X direction;a Y supporting projection projecting from the periphery of the device housing and having a Y supporting surface facing in the Y direction;a Y supporting projection projecting from the periphery of the control element and having a Y supporting surface facing the Y supporting surface of the device housing for preventing relative movement between the device housing and the control element in the Y direction;a Z supporting projection projecting from the periphery of the device housing and having a Z supporting surface facing in the Z direction; anda Z supporting projection projecting from the periphery of the control element and having a Z supporting surface facing the Z supporting surface of the device housing for preventing relative movement between the device housing and the control element in the Z direction.
  • 2. A device according to claim 1, wherein the control element is designed in the manner of a lever, with a manually operated operating section, which is located on the near side of the solid body joint, and with an engagement section for engagement with the complementary engagement means on the guide unit, which is located on the other side of the solid body joint.
  • 3. A device according to claim 2, wherein the engagement section comprises latching teeth, which can be latched to complementary engagement means likewise designed as latching teeth.
  • 4. A device according to claim 1, further comprising an adjusting unit for the vertical adjustment of the furniture pullout part relative to the guide unit.
  • 5. A device according to claim 4, wherein the adjusting unit comprises a wedge-shaped adjusting member which projects into the gap between the underside of the furniture pullout part and the guide unit and the adjusting movement of which causes a raising or lowering of the furniture pullout part relative to the guide unit.
  • 6. A device according to claim 5, wherein the adjusting member is pivotably mounted on the device housing by way of a pivot bearing having a journal pin.
  • 7. A device according to claim 6, wherein the journal pin is a part of the supporting means for the control element.
  • 8. A device according to claim 1, wherein the device housing and the control element are made of the same plastic material.
  • 9. A device according to claim 8, wherein the device housing and the control element are injection-molded plastic parts, the control element being injection-molded to the device housing in the production process.
  • 10. A piece of furniture with a furniture pullout part which is movable relative to a furniture carcass and guided by way of a guide unit, wherein the piece of furniture comprises a device according to claim 1.
Priority Claims (1)
Number Date Country Kind
20 2011 104 673 U Aug 2011 DE national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/EP2012/003482 8/16/2012 WO 00 2/11/2014
Publishing Document Publishing Date Country Kind
WO2013/023783 2/21/2013 WO A
US Referenced Citations (15)
Number Name Date Kind
5261737 Faust et al. Nov 1993 A
5302016 Lautenschlager et al. Apr 1994 A
5439283 Schroder et al. Aug 1995 A
5580139 Grabher Dec 1996 A
5588729 Berger Dec 1996 A
7549712 Booker et al. Jun 2009 B2
20020158557 Weichelt Oct 2002 A1
20030234603 Salice Dec 2003 A1
20040095047 Salice May 2004 A1
20040239219 Kim et al. Dec 2004 A1
20080218045 Moser Sep 2008 A1
20090236959 Liang et al. Sep 2009 A1
20090251037 Berger Oct 2009 A1
20090261700 Chen et al. Oct 2009 A1
20120292465 Holzer et al. Nov 2012 A1
Foreign Referenced Citations (8)
Number Date Country
1432323 Jul 2003 CN
8802690 May 1988 DE
4432820 Mar 1996 DE
20107278 Sep 2001 DE
20217545 Feb 2003 DE
202009003886 Jul 2009 DE
0695523 Feb 1998 EP
WO 2010040273 Apr 2010 WO
Related Publications (1)
Number Date Country
20140210330 A1 Jul 2014 US