The present invention concerns an extension guide for drawers comprising a carcass rail to be fixed to a furniture carcass, a drawer rail to be fixed to the drawer and a central rail mounted movably between the carcass rail and the drawer rail. At least one running carriage is mounted displaceably between at least two rails of the extension guide, and a synchronization device for avoiding running faults of the extension guide is provided. The synchronization device has at least one synchronization wheel which co-operates on the one hand with the at least one running carriage and on the other hand with a running surface on one of the rails, and the synchronisation wheel is in the form of a gear having two pinion wheels of differing diameters.
The invention further concerns an article of furniture having at least one drawer which is mounted displaceably relative to a furniture carcass by way of an extension guide of the kind to be described.
In extension guides for drawers which are in the form of a full pull-out extension arrangement comprising a carcass rail, a drawer rail, and a central rail operative therebetween, a synchronization device is to be provided to avoid running faults in respect of the extension guide. Such running faults are both incorrect rail positions and also incorrect positions of the running carriage, which in normal use can lead to the drawer staying open. An incorrect rail position occurs, for example, if the drawer rail deviates from synchronous movement relative to the displaceable central rail, whereby the relative position of the rails in relation to each other is not correct. In contrast, running carriage faults denote incorrect positioning of the running carriage which builds up over an opening and closing movement and which are determined by the built-up difference in relation to the correct starting position. A fault of the running carriage can build up in particular due to slippage or because of elasticity in the rolling or running system during the operating movements. As from a given number of movements the carriage can be so far from its required position that it encounters an end-of-travel abutment in the rail system before the drawer is at all completely closed.
Extension guides frequently have a pull-in device with a damper which damps the pull-in movement of the drawer over the last closing range of movement of the drawer as far as the completely closed position. Those dampers, however, reduce the closing dynamics of the drawer in such a way that a running fault which has occurred during the movement of the drawer can no longer be compensated due to the lack of kinetic energy. In any additional movement in which the drawer is not completely opened, the drawer remains stopped in a further open position corresponding to the running fault, and that can be visually unattractive and also dangerous.
Numerous solutions have already been proposed for correcting or avoiding such incorrect movements of the rails and/or the running carriage. A running carriage synchronization arrangement is described, for example, in AT 360 699 B to the present applicant, wherein the running carriage which is mounted displaceably between the carcass rail and the central rail and the running carriage which is displaceable between the central rail and the drawer rail are positively controlled relative to each other by way of a gear mounted to the central rail.
A rail synchronization arrangement is described for example in AT 388 855 B, wherein the operating movements of the rails are controlled by way of a gear in engagement with tooth portions arranged on the rails.
EP 1 374 734 A proposes a drawer guide which has both a synchronization device for synchronization of the carriages and also an additional compensation device for compensating a synchronous running fault in respect of the rails.
DE 10 2005 016 418 A1 discloses a drawer extension guide having a synchronization device, wherein the synchronization wheel has two pinion wheels of differing diameters. The smaller pinion wheel controls the movement of the drawer rail relative to the carcass rail while the larger pinion wheel always controls the movement between two carriages which run between different pairs of rails. The two pinion wheels are mounted on a common shaft, but they run separately and independently of each other so that there is no synchronization between the two pinion wheels.
The object of the present invention is to propose a drawer extension guide having a synchronization device of the general kind referred to in the opening part of this specification, which has a simple structure and which substantially avoids the running faults addressed.
According to the invention, the object is attained by the features described below. Further advantageous configurations of the invention are also described.
According to the invention, therefore, that the first pinion wheel and the second pinion wheel are connected together in a torque-proof manner, wherein upon a movement of one pinion wheel the other pinion wheel also moves therewith.
In other words, the proposed synchronization device can provide a direct coupling between a movable rail and a running carriage. While in conventional solutions, the rails and the carriages were respectively controlled relative to each other, the present invention is founded on the basic concept of providing a synchronization device for at least temporary coupling between at least one rail and at least one carriage of the drawer extension guide.
In conventional rail control arrangements, toothed racks are arranged or formed on both rails. According, to the invention, however, the arrangement of a single rack at one of the rails is sufficient so that the number of components can be reduced.
The synchronization wheel can either be in the form of a pinion or gear co-operating with a corresponding running surface on a rail of the extension guide. In that case, the running surface can either be the running limb of a rail or alternatively it can be in the form of a tooth arrangement which is arranged or formed on the rails and on which the gear can run. An advantage of the rack-and-pinion arrangement is positively locking and slippage-free synchronization, while a compact arrangement on the extension guide is possible. It is also possible for the running surface of the rail—on which the synchronization wheel runs—to be formed directly in the rail material, in which case the running surface is formed in the rails (for example in the form of grooving) and extends in the pull-out direction of the rails.
In an embodiment of the invention, the synchronization wheel is mounted rotatably to the central rail—preferably at a horizontal shaft. In this connection, it may be advantageous if the synchronization wheel passes through the central rail at an opening, wherein the synchronisation wheel on one side of the opening co-operates with the carriage and on the other side of the opening co-operates with one of the rails.
In a structurally simple configuration, the synchronization wheel is in the form of a gear which meshes on the one hand with a tooth arrangement on the carriage and on the other hand with a tooth arrangement on a rail. The gear includes two pinion wheels of differing diameters, wherein a first pinion wheel meshes with the carriage and a second pinion wheel meshes with a rail. The first pinion wheel can be mounted on one side of the central rail and the second pinion wheel can be mounted on an opposite second side of the central rail. In a development of the invention, the two pinion wheels can be mounted on a common, preferably horizontal axis. The first and second pinion wheels are non-rotatably connected together so that, upon a movement of one pinion wheel, the other pinion wheel also moves therewith.
A particular advantage of the invention lies in the possibility of providing a transmission ratio between the drawer rail and the central rail by virtue of differing diameters of the pinion wheels in order to influence the travel lengths to be covered by those rails. Thus, it is for example possible for the extension travel of the drawer rail to be set at 55% and for the extension travel of the central rail to be correspondingly set at 45%. In a possible configuration, the extension travel of the drawer rail can be selected to be between 50% and 60%, and the extension travel of the central rail can be correspondingly selected to be between 50% and 40%. In the case of a drawer extension guide, the lower region (namely the carcass rail, the central rail, and the carriage mounted between those rails) is usually considerably loaded. That loaded region is moved less by virtue of a reduction in the travel length, brought about by the transmission ratio, and that overall reduces the frictional resistance in the extension guide. In addition, due to the shorter extension length of the central rail, the running carriage which is mounted between the carcass rail and the central rail can also be of a greater longitudinal extent, thereby affording more advantageous lever ratios and more uniform force distribution.
In a preferred embodiment of the invention, the running carriage to be synchronized is mounted displaceably between the carcass rail, and the central rail and the synchronization wheel co-operates with the drawer rail. In that way, upon manual movement of the drawer, the force is applied from the drawer rail directly to the rail control arrangement, wherein the running carriage which is mounted between the carcass rail and the central rail, the central rail and the drawer rail are synchronized. By virtue of the fact that, in that design configuration, the drawer rail always assumes a defined relative position with respect to the central rail, it is even possible to dispense with synchronization of the upper running carriage (that is to say the running carriage mounted between the central rail and the carcass rail). It will be appreciated, however, that it is also possible to provide a control device known from the state of the art, for avoiding and/or correcting the running carriage faults.
The running carriage or carriages displaceable between the rails has or have at least one or more rolling bodies which are provided for transmitting the load of the drawer. The rolling body or bodies can include rollers, cones, cylindrical rolls, disks and/or balls.
The article of furniture according to the invention has at least one drawer which is mounted displaceably relative to a furniture carcass by way of an extension guide of the kind in question.
Further details and advantages of the present invention will be described by means of the specific description hereinafter. In the drawings:
The synchronization wheel (gear) 11 of the synchronization device 10 can be in the form of a gear which meshes on the one hand with the lower running carriage 8, and on the other hand with a running surface 12 which is arranged or formed on the drawer rail 7—in the present case with a toothed bar mounted to the drawer rail 7. In the illustrated embodiment, the gear 11 is in the form of a double-stage gear 11 with pinion wheels 11a and 11b which are of differing diameters. The smaller (first) pinion wheel 11a meshes with the lower running carriage 8 while the larger (second) pinion wheel 11b meshes with the running surface 12 in the form of the toothed bar. The synchronization wheel 11 is mounted rotatably to the central rail 6 and passes through the central rail 6 at an opening 13 provided on the central rail 6 so that the smaller (first) pinion wheel 11a co-operates with the running carriage 8 on one side of the opening 13 and the larger (second) pinion wheel 11b co-operates with the running surface (toothed bar) 12 of the drawer rail 7 on the other side of the opening 13. The extension guide also has a spring-assisted pull-in device 14 for pulling the drawer 3 into the closed end position and a damping device 15 which damps that pulling-in movement of the drawer 3 in the last closing region of movement towards the fully closed position.
The present invention is not limited to the illustrated embodiments but includes or extends to all variants and technical equivalents which can fall within the scope of the claims appended hereto. The positional references adopted in the description such as for example up, down, lateral and so forth are also related to the usual installation position of the components used and to the illustrated Figure and are to be appropriately transferred to the new position upon a change in position.
Number | Date | Country | Kind |
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288/2010 | Feb 2010 | AT | national |
This application is a Continuation of International Application No. PCT/AT2011/000068, filed Feb. 7, 2011, the entire disclosure of which is incorporated herein by reference.
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Number | Date | Country | |
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20130002115 A1 | Jan 2013 | US |
Number | Date | Country | |
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Parent | PCT/AT2011/000068 | Feb 2011 | US |
Child | 13593577 | US |