The invention concerns a drive device for a movable furniture part, in particular a drawer, comprising a first and a second lockable ejection device and a synchronizing device for synchronizing the two ejection devices, wherein the synchronizing device comprises a synchronizing rod and a first and second synchronizing element, which can be connected to the synchronizing rod, and wherein a relative movement takes place between the synchronizing elements and the ejection devices during the synchronizing operation. Moreover, the invention concerns an item of furniture comprising a furniture carcass and furniture part movably supported on the furniture carcass and such a drive device.
Generally in the furniture sector already numerous applications are known with which a synchronizing operation takes place mostly due to the reason to uniformly move the movable furniture part and to not allow a crooked position.
Examples for non-generic synchronizing operations with furniture flaps are known from the WO 2011/047396 A1 and the WO 2013/040611 A1. Accordingly, actuating devices of flap fittings are synchronized by synchronizing devices. In this cases each movement of the actuating devices are always transmitted to the other actuating device via the synchronizing rod. No relative movement occurs between the synchronizing rods and the actuating drives during the synchronizing operation. In the latter document indeed a so-called touch-latch device for ejecting movable furniture parts is mentioned, however, always the movement of the entire actuating devices are synchronized via the synchronization rods shown in this document and not these touch-latch devices are directly synchronized. Rather each synchronizing rod is stationary connected with a corresponding arm of each actuating device. No relative movement takes place between the synchronizing rod and this arm of the respective actuating device.
Further, synchronizing devices are also known with non-generic side stabilizing mechanisms. To this matter can be referred to the EP 2 515 710 B1. These side stabilizing mechanisms serve to synchronize the movements of the drawer rails per se. In this non-generic document there is no ejection device of any kind whatsoever. A similar device for side stabilization is known from the WO 2012/159136 A1. Herein it is especially about an overload safety device arranged between shaft parts of a synchronizing rod.
In contrast, the EP 2 429 339 B1 shows a generic prior art. With this arrangement for locking and ejecting a movable furniture part the synchronization is reached in that a rotary element in the form of a gear wheel is arranged at an end of a synchronizing rod which rotary element meshes with a gear rack attached to the ejection device. It is disadvantageous in this case that the rotary element has to be arranged in a complicated manner in a holding jack when attaching the synchronizing rod. In doing so, tooth errors may occur between the teeth of the rotary element and the gear rack, whereby the entire synchronizing rod could already be mounted in an undesired oblique manner. Moreover the gear rack has to be formed quite elaborate with a spring element in order to allow and adaptation of the length of the synchronizing rod to different distances between the ejection devices on both sides. This elaborate telescope configuration of the gear rack is necessary in order to allow in the first place the insertion and subsequent holding of the synchronizing rod on both ejection devices.
Another generic prior art is disclosed in the not pre-published Austrian Patent Application with the Application number A 785/2013 (AT 514 865 A1). According to this document a gear wheel arranged on the end of a gear rack meshes with a coupling element (transmission element) also forming the sliding guide track. Also in this case there are the same disadvantages during insertion and connection as in the previous document.
Therefore, the object of the present invention is to provide an improved drive device compared to the state of the art. In particular the synchronizing operation should take place as easy and uncomplicated as possible.
This is attained by a drive device with the features of claim 1. Accordingly it is provided that in an active synchronizing mode during the synchronizing operation a movement transmission takes place from the first ejection device via the first synchronizing element, the synchronizing rod and the second synchronizing element to the second ejection device and in an inactive synchronizing mode the synchronizing rod is removed and the synchronizing elements each remain in contact with one of the ejection devices. In other words, thus, the synchronizing elements are not anymore mounted together with the synchronizing rod and are not again removed, but the synchronizing elements remain associated to the respective ejection device. Hence each synchronizing element always remains in an appropriate constant contact with the ejection device, whereby no undesired skewed assembling can occur, for example with a tooth error. Again expressed differently, also in the inactive synchronizing mode the synchronizing elements always partly participate with the movements of the ejection device. Because of the missing synchronizing rods, however, no transmission of this movement takes place between the both synchronizing elements.
In the course of a relative movement between the synchronizing elements and—preferably all components of—the ejection device a motion transformation of a rotary movement into a translational movement can take place. Preferably it is provided that the motion transformation is effected from a rotary movement about a first rotary axis into a rotary movement about a differently oriented rotary axis (These axes are preferably rectangular to each other). Accordingly it can provided particularly preferred that the ejection devices each comprise a housing and a transmission element supported movably, preferably rotationally, on the housing, wherein the synchronizing elements each are movably coupled with one of the transmission elements. In this case, in principle, the motion coupling can be effected for example via friction wheels. Preferably, however, the motion coupling is reached by a form fit. Accordingly it is preferably provided that each synchronizing element comprises a gear wheel and each transmission element comprises a section in the shape of a gear rack, wherein the gear wheels each mesh with one of the sections in the shape of a gear rack. It shall not be excluded that the synchronizing elements are form in the shape of a gear rack, and are movably translational if applicable, while the transmission elements are formed as gear wheels.
In general the ejection device can be formed arbitrary, as long as an active ejection of the movable furniture part from a closed position into opening direction is possible. Particularly preferred it is provided that each ejection device comprises a force-actuated ejection element for ejecting the movable furniture part from a closed position into an open position and a locking device for locking the ejection element in a locking position, wherein the locking device can be unlocked by over-pressing the movable furniture part into an over-pressing position lying behind the closing position. In this case it is provided particularly preferred that the locking device comprises a locking peg and a, preferably heart curve-shaped, sliding guide track formed in the housing. Additionally it can be provided that each transmission element forms a part of each sliding guide track, preferably a latch recess of the heart curve-shaped sliding guide track. Thus, only a small part of the movement of the ejection device is synchronized by the synchronizing device, namely the part in which the transmission element is movable because of a triggering motion shortly after the over-pressing. In other words it is provided that only a section of the movements of the ejection devices can by synchronized—preferably only a first section of an opening movement of the movable furniture part which immediately follows after the over-pressing position. To this matter it can be referred content-wise to the not pre-published, Austrian Patent Application A 785/2013.
In order to enable an unproblematic holding of the synchronizing elements on the ejections devices it is preferably provided that each synchronizing element is supported—preferably in a rotating configuration and preferably axially fixed—on the housing of the ejection device via a bearing element. By the rotating support and by the axial fixation the synchronizing element can take part in each movement of the transmission device without an occurrence of a false position between these parts.
For the good movement transmission in the active synchronizing mode it is preferably provided that the synchronizing rod comprises on both end section a non-circular cross section and each synchronizing element comprises a receiving area which at least section-wise matches with the outer contour of the end sections of the synchronizing rod. With this non-circular cross section a form fit is reached between the involved parts. For example this non-circular cross section can be triangular. It is also possible that this end section is mostly formed circular and only comprises a flattened area. Particularly preferred, however, this non-circular cross section is form quadratic. This has the advantage of a simple production. In addition a distortion of the entire synchronizing rod about 90° is virtually impossible. Until now tooth errors were already possible by a small distortion. As additionally the gear wheel and the synchronizing element respectively are pre-mounted to the ejection device, such errors are now precluded.
In operating state the synchronizing element is permanently connected with the ejection device. Only the synchronizing rod is connected to or inserted into the synchronizing element in a nondestructive detachable configuration.
In principle the synchronizing rod can be formed in one piece and can comprise corresponding end sections. For example the synchronizing rod can be formed as a square shaft along the whole length. Preferably, however, it is provided that the synchronizing rod comprises a rod-shaped base part—preferably formed as a hollow profile with the same inner diameter along the entire length—and two plug in parts being mountable to the ends of the base part and forming the end sections
A particular advantage compared to previous realizations of the synchronizing rod is that that the synchronizing rod is formed unchangeable in length. This means the synchronizing rod does not have to be formed telescopically. Rather a certain tolerance in distance is reached in that the receiving area of the synchronizing element is formed elongated. Moreover, only a momentum transmission is effected via this synchronizing rod.
Protection is also sought for an item of furniture comprising a furniture carcass, a furniture part movably supported on the furniture carcass, preferably via an extension guide, and a drive device according to the invention. In this case the drive device can be arranged on the furniture carcass or can be fixed via a carcass rail. Preferably the drive device is associated to the movable furniture part, particularly preferred it is mounted to the underside of the movable furniture part.
Further details and advantages of the present invention are described more fully hereinafter by means of the specific description with reference to the embodiments illustrated in the drawings, in which:
As can be recognized in
In contrast, the drive device 1 in
As recognizable in
In
In the comparison between the
In the
In contrast, the drive device 1 according to
Compared with this, an over-pressing movement has already been carried out according to
Depending on which side the unlocking is effected first in the case of an unequal triggering, this movement is then correspondingly transmitted to the other side so that on this other side the extension 30 is as well moved because auf the synchronization. Thereby the locking peg 13 can no longer be held in the latch recess 15 and, thus, on both sides the ejection operation is effected at the same time with simultaneously or synchronously relaxing ejection force storage members (not illustrated).
In general it should be noticed that, of course, the corresponding components on the respective other side are formed mirror-symmetrically. Thus, if in the description is made reference only to a part on one side, this applies analogously also to the other side.
Number | Date | Country | Kind |
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A 475/2014 | Jun 2014 | AT | national |
Number | Date | Country | |
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Parent | PCT/AT2015/000062 | May 2015 | US |
Child | 15380368 | US |