This application is the National Stage of PCT/EP2016/059890 filed on May 3, 2016, which claims priority under 35 U.S.C. § 119 of German Application No. 10 2015 106 852.4 filed on May 4, 2015, the disclosures of which are incorporated by reference. The international application under PCT article 21(2) was not published in English.
The present invention relates to a device for fixing a push element, in particular a drawer, to a rail of a pull-out guide, said device comprising a clamping mechanism with a receptacle for a holding part and a device for adjusting the depth for the push element, and a method for fixing a push element.
WO 2014/180899 discloses a pull-out guide in which a coupling element is arranged on a running rail and cooperates with a corresponding coupling element arranged on the furniture part in order to connect the furniture part to the running rail. At least one adjusting device for displacing the position of the coupling element relative to the running rail in at least one spatial direction is arranged on the running rail. The adjustment of the entire coupling part requires several mounting steps during the alignment of the drawer. In addition, the latching on the rail can only take place in several stages by means of spaced-apart latching elements.
EP 1 285 604 discloses a device for fixing a drawer to a rail of a pull-out guide, in which a base part which can be fastened to the drawer and a latching element which can be fixed to the pull-out guide are provided. In order to compensate for the distance between the guide rails of the pull-out guides, the latching element can be displaced within specific tolerances relative to the base part. The holding forces are limited by the design of the latching element and the base part as a plastic part, especially in the case of heavy drawers which extend in the pull-out direction up to the maximum pull-out position. In addition, it is desirable to position the drawer as precisely as possible within the furniture body in order to obtain an attractive joint pattern.
It is therefore an object of the present invention to provide a device and a method for fixing a push element, in which a simple alignment of the drawer with respect to the depth adjustment is made possible.
The device according to the invention for fixing a push element comprises a clamping mechanism with a receptacle, wherein the device for depth adjustment has a stop which can be adjusted on or in the receptacle. As a result, the entire receptacle no longer has to be moved for depth adjustment, but it is sufficient to limit the insertion depth of the holding part via the stop. As a result, the device for depth adjustment can be made compact. The term “depth adjustment” in the sense of the application means an adjustment in the longitudinal direction of the pull-out guide so that the drawer is adjusted in the installed position in the depth of the furniture body.
Preferably, the device for depth adjustment is infinitely variable. For this purpose, the device for depth adjustment can, for example, have a knurled nut rotatably mounted on a threaded bolt, a thread or an eccentric as a drive means.
In a further embodiment, a self-locking clamping element, in particular a self-locking clamping lever, is provided on the receptacle by means of which the holding part is frictionally secured against being pulled out. As a result, a particularly stable fixing of the push element can take place by means of the self-locking clamping lever, in particular also with regard to stop tests, in which the drawer is moved in the loaded state into the maximum opening position. The self-locking clamping lever of the clamping mechanism ensures that the holding part is held in such a way that it cannot be pulled out further from the receptacle in the opening direction. However, insertion of the holding part into the receptacle of the clamping mechanism is comparatively simple since only small frictional forces need to be overcome, so that assembly can be formed in a simple way. In addition, an infinitely variable fixing of the holding part can be achieved by a frictionally engaged connection of the clamping lever, which allows particularly precise positioning of the push element in the opening direction. Furthermore, the clamping lever is rotatably mounted about a pivot.
A frictionally engaged or force-locked connection differs from a form-fitting connection in that the holding forces are provided by frictional forces and not by form-fitting stop elements, such as teeth or stops. In this way, a stepless adjustment of the holding part can be obtained in the case of a force-locked fixing of the holding part, which is independent of stop elements.
For the frictionally engaged connection, the web-shaped holding part can have a substantially planar surface, which in certain areas is in contact with a contact surface on the clamping lever. The holding part can be strip-shaped, angled, U-shaped, produced as a hollow profile or with other geometries, in particular made of metal, wherein a section of a profile can be used for the frictionally engaged connection.
In this case, the clamping lever can be pretensioned into a locked position, in particular via one or more energy storage devices, so that unintended unlocking cannot take place.
According to a preferred embodiment of the invention, means for unlocking the clamping lever are provided, by means of which the force-locked connection of the clamping lever can be released from the holding part. A linearly movable slide or button can be provided for unlocking the clamping lever. In this case, the clamping lever can be designed as a two-armed lever, wherein a first arm, which rests with a contact surface against the holding part, and a second arm can be moved via the means for unlocking the clamping lever. By adjusting the length of the lever arms, appropriate force transmission ratios can be achieved, wherein the contact surface must be moved only slightly away from the holding part in order to unlock the clamping lever.
Preferably, the clamping lever rests on the holding part via a linear contact surface, which extends parallel to the pivot of the clamping lever. The contact surface can be edge-shaped, rounded or designed with a different contact surface to provide high clamping forces. In this clamping system, the high clamping forces are generated by a multiplication of forces by the lever effect.
Preferably, the holding part can be secured in a stepless manner to the clamping mechanism, so that the drawer is mounted on the pull-out guide during assembly and is pushed in slightly, and as soon as the holding part is fixed to the clamping mechanism, the fitter is given the certainty that the drawer is unable to inadvertently slip off the pull-out guide in the opening direction when it is pulled out. Rather, the clamping mechanism is activated as soon as the holding part is fixed on the clamping lever in the receptacle. Subsequent further insertion of the drawer for stepless adjustment is thus easily possible.
For a particularly stable fastening of the drawer, the holding part and the contact surface of the clamping lever resting on the holding part can be made of metal, for example of a steel sheet. In contrast to metal, plastic flows, so that only lower forces can be absorbed via the clamping mechanism, wherein the use of plastic materials, in particular reinforced plastics, is certainly possible.
Preferably, the pivot of the clamping lever is arranged in the insertion direction in front of a contact surface of the clamping lever on the holding part. As a result, self-locking is effected, wherein, in the mounted position, an angle between the contact surface of the clamping lever with respect to the pivot can be arranged at an angle to the longitudinal direction of the holding part between 55° and 89°, in particular 70° to 85°. Due to the angular position of the clamping lever, the freewheeling direction and the locking direction are defined in the clamping system. When the holding part is loaded in the locking direction, a self-reinforcing effect occurs, so that the clamping force also increases with rising loading of the holding part in the locking direction.
For easy assembly, the receptacle may be formed on a fastening part on which the clamping lever is rotatably mounted. Then the clamping lever can be pre-mounted with the receptacle as a unit on the rail or the drawer. Preferably, the fastening part is displaceably mounted on or in a housing. As a result, the fastening part can be moved relative to the housing via means for lateral adjustment, so that an exact alignment of the drawer is also possible in the horizontal direction perpendicular to the movement direction of the pull-out guide, wherein a height adjustment can also be provided.
Only a few mounting steps, which can be executed without the use of tools, are required for a mounting process for fixing a drawer. With a depth adjustment in conjunction with a clamping mechanism, it is possible to push the drawer into the body up to the level or depth of the adjacent panels. One can then pull out the drawer and turn the depth adjuster up to the clamping device to fix the panel position. The depth adjuster thus forms a stop for the clamping device, which prevents the drawer and/or the clamping device from being pushed further onto the holding part. Several attempts are saved in this type of adjustment possibility since the drawer is positioned in the installed position.
The invention will be explained in closer detail below with reference to an exemplary embodiment with reference to the attached drawings, wherein:
A piece of furniture 1 comprises a furniture body 2, on the side walls of which one or more pull-out guides 3 are fixed, which each have at least one movable rail 5. A drawer 4 is held displaceably on two such rails 5, wherein a device 10 or 10′ is provided on each rail 5 for fixing the drawer 4 to the rail 5, as can be seen from the bottom view of
In the detailed view of
For assembly, the drawer 4 is placed on the two rails 5 of the two pull-out guides 3 and pushed into the closed position. In this case, a respective web-shaped holding part 12 is inserted at opposite sides into the receptacle 20 of the device 10 or 10′ and fixed via a clamping mechanism that secures the holding part 12 by clamping and frictional engagement against being pulled out.
In
The clamping mechanism comprises a clamping lever 25, which is rotatably mounted on a fastening part 23 about a pivot 24. The fastening part 23 is of plate-shaped design and forms a side wall 22 of the receptacle 20, which is arranged opposite the clamping lever 25. The holding part 12 is fixed by clamping in a frictional manner between a contact surface 26 of the clamping lever 25 and the side wall 22 and secured against being pulled out. For this purpose, the pivot 24 is arranged in front of the contact surface 26, as seen in the direction of insertion of the holding part 12, so that the holding part 12, when being inserted into the receptacle 20, first passes a plane perpendicular to the insertion direction which is arranged in the pivot 24, before the holding part 12 touches the contact surface 26. As a result, the clamping lever 25 is formed in a self-locking manner and acts on the holding part 12 in the case of tensile forces, with the clamping lever 25 being pressed with the contact surface 26 even more strongly against the holding part 12.
The clamping lever 25 is designed as a two-armed lever, wherein the contact surface 26 is formed on one arm for the clamping fixing of the holding part 12, and means for unlocking the clamping lever 25 act on a second arm 27. The clamping lever 25 is designed in the form of an angle and is pretensioned into the clamping position by an integrally formed spring 30. In this case, the spring 30 is designed as a leaf spring and rests on the housing 15. The means for unlocking comprise a bolt 28, which is slidably formed in a wedge-shaped gap 29 between the arm 27 and the fastening part 23. When the bolt 28 is moved along fastening part 23 to the end of the arm 27, the arm 27 is moved by the wedge-shaped formation of the gap 29, and the clamping lever 25 rotates so that the contact surface 26 is disengaged from the holding part 12. As a result, the holding part 12 can be easily pulled out after the clamping lever 25 has been turned. The bolt 28 is guided along a side wall of the fastening part 23.
The clamping lever 25 is in this case made from a bent metal plate which engages around a portion of the plate-shaped fastening part 23 in a U-shaped manner. The bottom of the U is formed in this case on the contact surface so that a line-shaped contact surface 26 rests against the holding part.
Furthermore, the device 18 for lateral adjustment is shown, in which a threaded bolt 40 engages in a threaded bore 41. A knurled nut 19 is fixed on the threaded bolt 40, wherein one edge of the knurled nut engages in a U-shaped receptacle 35 on the fastening part 23. By rotating the knurled nut 19, the fastening part 23 can thus be displaced relative to the housing 15 in the longitudinal direction of the threaded bolt 40, i.e. in a plane parallel to the front panel 6 of the drawer 4.
In
In the exemplary embodiment shown, both the clamping lever 25 and the fastening part 23 consist of metal, in particular of a steel sheet. As a result, particularly high holding forces can be applied to the likewise metallic holding part 12.
In the exemplary embodiment shown, the clamping lever 25 is mounted with two arms around a pivot 24. It is also possible to form the clamping lever 25 with only one arm. Furthermore, other means for unlocking the clamping lever 25 can also be provided instead of the slide 17, for example a pivotable unlocking lever.
It is understood that the clamping lever 25 is merely representative of an example for a clamping element. Another clamping element, e.g. a clamping shoe or a clamping roller, is also possible for the use according to the invention.
Number | Date | Country | Kind |
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10 2015 106 852 | May 2015 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/059890 | 5/3/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/177732 | 11/10/2016 | WO | A |
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Number | Date | Country | |
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20180146782 A1 | May 2018 | US |