ARRANGEMENT FOR MOVING A MOVABLE FURNITURE PART

专利摘要:
Arrangement (1) for moving a movable furniture part (2), in particular a drawer, with at least one ejection device (3) for ejecting the furniture part (2) from the closed position into an open position, wherein the at least one ejection device (3) comprises at least one energy accumulator (3). 4), and with at least one loading device (5) for loading the at least one energy store (4) by a closing movement of the furniture part (2), wherein the charging of the at least one energy store (4) via a charging path (Ax) with an end point (xf ), and wherein the at least one energy store (4) is completely charged at the end point (xf) of the charging path (Ax), the charging path (Ax) having a variable starting point (Xj), the starting point (Xj) of the charging path (Xj) Ax) is determined by the position of the furniture part (2) at the beginning of the closing movement.
公开号:AT511799A4
申请号:T1880/2011
申请日:2011-12-23
公开日:2013-03-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

i
Ml «1 2 * I *» * · Μ · · «71259 31 / hn 1
The invention relates to an arrangement for moving a movable furniture part, in particular a drawer, with at least one ejection device for ejecting the furniture part from the closed position to an open position, wherein the at least one ejection device comprises at least one energy storage, and at least one charging device for charging the at least one Force accumulator by a closing movement of the furniture part, wherein the loading of the at least one energy accumulator takes place via a charging path with an end point, and wherein the at least one energy accumulator is fully charged at the end point of the charging path.
Such arrangements for moving a movable furniture part are already known in the art and are e.g. described in DE 198 23 305 A1. In the known solutions, the end point and the starting point of the charging path are fixed. This means that when the movable furniture part is arranged in or on a furniture body, the end or starting point of the charging path is located at a fixed relative to the furniture body body. The disadvantage here is that you have to open the furniture part at least to the starting point of the charging path, this starting point can also correspond to the fully open position of the furniture part, so that the energy storage can be fully loaded by the closing movement of the furniture part. Otherwise, the ejector is only partially functional.
Object of the present invention is to avoid the disadvantages described above and to provide a comparison with the prior art improved arrangement for moving a movable furniture part.
To achieve this object, the invention provides that the charging path has a variable starting point, wherein the starting point of the charging path is determined by the position of the furniture part at the beginning of the closing movement.
It is advantageous that this variability of the starting point of the charging path ensures that the energy storage is always fully charged - independently
• ft · · · · · · «· · · · ·
3 · · »ft ···· I
Of how far the furniture part is opened (beyond the end point of the charging path). In a - regardless of Ausziehweg the movable furniture part - arranged relative to the furniture body at a fixed point end of the charging path, this means that the arrangement is designed such that the force is set to load the at least one energy storage by the starting point: Is the movable furniture part Little open, so it is a short charging distance and it must be applied a relatively large force to fully load the energy storage during the closing movement. On the other hand, if the furniture part is e.g. completely open, so there is a comparatively large charging distance and it must be spent significantly less force to fully load the energy storage.
In an advantageous embodiment of the invention, the at least one energy accumulator comprises a spring, preferably a leg spring. In this case, the fact that the charging path has a variable starting point and the starting point of the charging path is determined by the position of the furniture part at the beginning of the closing movement that, depending on the starting point of the charging path, the slope of the spring characteristic is adjusted: This is a long charging distance It is a flat, with a short charging distance around a steep spring characteristic.
Further details and advantageous embodiments of the invention, which are defined in the dependent claims are explained in more detail in the context of the following description of the figures with reference to FIGS. Showing:
1 is a schematically illustrated perspective view of three movable furniture parts in the form of drawers, which are arranged in or on a furniture body,
Fig. 2a and Fig. 2b in a schematically illustrated perspective view of a movable furniture part in the form of a drawer together with a part of the furniture body, wherein the two sub-figures differ in that it is in Fig. 2a to a view obliquely from above and in Fig. 2b is a view obliquely from below, Λ • * * 99 · * t · ♦ · * · «*» · ♦ »· | * · ♦ * ·· * • I · · m · «« «« i «· # ··
Fig. 3 is a schematic plan view from below of the in the
Fig. 4 Fig. 5 Fig. 6
FIGS. 7 to 10
Fig. 2a and 2b shown combination of a part of the furniture body and a drawer, at the bottom of the arrangement according to the invention is arranged in a preferred embodiment, wherein the drawer is in the closed position, the unlocking of the drawer, the ejection process of the drawer, a cutout the preferred embodiment of the invention for illustrating the operation of the latching mechanism of the loading device, which follows the ejection operation manual opening of the drawer over several positions (Fig. 7 to 9) to the end position of the drawer (Fig. 10), in which Drawer is fully open,
11 to 13 the closing operation of the drawer from the end position shown in FIG. 10 to the closed position shown in FIG
14 and Fig. 15 the closing operation of the drawer from a middle, not fully open position.
It should be noted in advance that in Figs. 4 to 15, the same representation (schematically and in plan view from below) was selected as shown in FIG.
Fig. 1 shows a schematically illustrated perspective view of a drawer box with a furniture body 6 and three in or on the furniture body 6 movably mounted furniture parts 2 in the form of drawers. The drawers 2 are each composed of a drawer bottom 17, two side frames 15, a rear wall 16 and a front panel 14.
In Fig. 2a, a section of the furniture body 6 is shown together with a drawer 2. It can be seen that the drawer 2 via two arranged laterally on the drawer 2 pull-out 18 in conjunction with the furniture body ··· · 4 · »* *» · »·
• · * · · ··
4 (only one of the two extension guides 18 is visible in this figure). In the illustrated form, the pull-out guide 18 is comprised of three parts: a carcass rail secured to the furniture body 6, a drawer rail secured to the drawer 2, and a center rail movably mounted between the drawer rail and the carcass rail. By means of pull-out guides in this three-part form, a so-called full extension of drawers can be realized. However, other pull-out guides belonging to the prior art should not be excluded from the idea of the invention.
Fig. 2b shows a view of the combination shown in Fig. 2a of a part of the furniture body 6 and a drawer 2 obliquely from below. In this view it can be seen that a part of the arrangement 1 for moving the drawer 2 (in the preferred embodiment) is arranged on the underside of the drawer bottom 17 and another part of the arrangement 1 is arranged on the carcass rails of the two extension guides 18. the imaginary mirror axis is indicated by a dashed line The two halves each comprise an ejection device 3 for ejecting the drawer 2 from the shooting graduation into an open position, wherein the arrangement 1 consists in this embodiment of two halves which are substantially mirror-symmetrical At the same time, the arrangement 1 also comprises a damping device 13 for damping the drawing-in movement of the drawing-in device 3. The damping device 13 and the drawing-in device 3 are connected by an angle b Lech 20 connected to the body rail of the pull-out guide 18 (wherein the angle plate 20 has been omitted on the left side). This means that these parts of the assembly 1 are firmly connected to the furniture body 6 and do not change their position relative to the furniture body 6 during a movement of the drawer 2. The remaining components of the arrangement 1 (in the preferred embodiment) are arranged on the underside of the drawer bottom 17 and thus change their position relative to the furniture body 6 during a movement of the drawer 2. • * * * «« * * * * «• · · * ΜΦ φ · ** · * «·« * φφ ··· · φφφ λ
The details of the individual components and the mode of operation of the arrangement 1 will be explained in more detail below with reference to FIGS. 3 to 15. One can see in each case a plan view of the unit shown in FIGS. 2a and 2b from a part of the furniture body 6 and a drawer 2 from below, wherein the two actual angle plates 20 have been omitted and for the understanding of the operation of the arrangement 1 important components the arrangement 1, which you would not actually see because they are hidden by other components, dashed lines are shown.
Fig. 3 shows the closed position of the drawer 2. Let attention first be directed to the ejection devices 3, wherein the ejection device 3 arranged on the left pull-out guide 18 is shown enlarged. In this enlarged representation, it can be seen that the ejection device 3 comprises a mounting plate 30 on which a force accumulator 4 rotatably mounted about a rotation axis 31 is arranged, wherein the rotational movement of this force accumulator 4 is limited by the fact that a pin 21 is arranged on the force accumulator 4 is that projects into a guide track 28 in the mounting plate 30, wherein this pin 29 can move only in this guideway 28. Due to the design of the guide track 18, the force accumulator 4 can perform only a rotational movement by about 90 °.
The energy accumulator 4 comprises a spring 17, more precisely a leg spring, in which the actual energy of the energy accumulator 4 is stored. When the pin 29 of the energy accumulator 4 is located on the left upper stop of the guideway 28, the energy accumulator 4 is fully charged. If it is at the lower right stop point, it is completely unloaded.
Furthermore, a boizenförmiger driver 7 is arranged on the energy storage 4, which plays an essential role in the operation of the arrangement 1: In the closed position shown, it ensures that the ejection device 3 in the partially charged state (the pin 29 is located in a middle Position and the leg spring 27 is partially stretched) is locked and the energy storage device 4 can not discharge. This is achieved by the fact that »♦ · · 4
descriptive loading device 5, a locking device 12 is arranged in the form of a latching nose, which is designed such that the driver 7 of the energy accumulator 4 can not move in the direction of the unloaded position when the driver 7 rests in the closed position of the drawer 2 on the latching lug. This situation can be seen more precisely in the enlarged section of the ejection device 3 arranged on the right pull-out guide 18. It should also be pointed out that, of course, other solutions known to the person skilled in the art can also be used instead of a detent nose, such as e.g. an at least partially heart-shaped trained locking and unlocking.
In Fig. 4 it is shown how this locking of the ejection device 3 can be canceled by unlocking. It is thus at the same time at the locking device 12 to an unlocking device. The unlocking is effected by the fact that the drawer 2 is pressed by the user in the direction of the rear wall of the furniture body 6. As a result, the tip of a support device 8, which is arranged on the drawer bottom 17, strikes the driver 7, as a result of which this driver 7 is pressed against the latching lug 12. It should be noted that the locking lug 12 at the end of a control rail 10, which includes the loading device 5, is arranged, said control rail 10 is rotatably mounted about an axis of rotation 26, whereby the position of the control rails 10 with respect to the drawer. 2 or the furniture body 6 is changeable. The control rail 10 is spring-loaded by a spring 24. In the closed position, there is a force equilibrium between the spring 24, which acts softly on the control rail 10, and the leg spring 27 in the energy accumulator 4, which acts on the driver 7. However, this balance of forces is affected when unlocking to the effect that the driver 7 is pressed against the locking lug 12. As a result, the detent 12 and thus the control rail 10 pivots slightly to the side, and indeed so far that the driver 7 can practice the projection of the latch 12 and slide down. The driver 7 is decoupled in this way from the control rail 10.
FIG. 5 shows the ejection process following the unlocking process, which is mediated by the ejection device 3. After unlocking the driver 7 strikes a partially curved control contour 9, which is arranged on the support device 8, and slides along this, since the leg spring 27 of the energy accumulator 4 would like to relax. The released energy is transferred to the support device 8 and thus to the drawer 2, resulting in a discharge movement of the drawer 2 from the closed in an open position. The energy transferred by the two ejection devices 3 is sufficient to eject the drawer 2 (depending on the load state) by several centimeters, at least so far that the user can reach under the front panel of the drawer 2 and subsequently open the drawer 2 manually. An essential aspect of such ejection devices is therefore to be able to use drawers on the fronts no handles must be attached to open the drawers can.
Comparing FIGS. 4 and 5, it can be seen that during the ejection movement of the drawer 2, the two control rails 10 of the loading devices 5 have moved toward the middle of the drawer and are now in abutment contours 31 and 32. The spring 24, which is arranged between the two control rails 10, has relaxed in this ejection movement.
If you look at the upper end of the control rails 10 a little closer, so it is found that there each a small tip protrudes in the direction of the rear wall of the drawer. The impression could arise that these tips could hinder the movement of the two control rails 10 from the position shown in FIG. 4 into the position shown in FIG. 5. However, if one looks at the Fig. 6, which shows an enlarged section of the area of the drawer rear wall, it can be seen that there is a respective arm of a two-armed rocker arm 22, wherein the other arm of the rocker arm 22 each by means of a spring 23 are spring loaded. If the two control rails 10 now move in the direction of the middle of the drawer, then the free arms of the rocker arms 22 abut against the edge of a latching contour 21 which is in the form of a step in some sections, as a result of which
• «• ·» M MM · I * * * * * Μ «·« # * * «* I · * · 9 4 *»
• f »· * * · 4M 8
Rocker 22 tilted to the side and clear the way for the movement of the control rails 10. After reaching the position shown in Fig. 5, the rocker arms 22 are no longer at the Verrastkontur 21, the springs 23, which were forcibly tensioned, relax again and the rocker arms 22 move under the spring action back to its original position.
In FIGS. 7 to 10, the further manual opening operation of the drawer 2 is now shown by the user. In this opening operation, only very low frictional forces occur, since in this opening process only the spring 24, but not the two torsion springs of the energy storage 4 are loaded. From the comparison of FIGS. 5 and 7 it can be seen that the drivers 7 of the energy accumulator 4 initially move into a guide track oriented in this position of the control rails 10 parallel to the drawer side walls within the control rails 10 (indicated by arrows in FIG is) - thereby re-coupling with the control rails 10 occur - and thereby each a likewise rotatable about the axis of rotation 26 mounted one-armed pivot lever 25 to the side. This situation can be seen in the enlarged section of the right-hand control rail 10 in FIG. 7.
In FIG. 8, the drawer 2 is opened so far that the drivers 7 have each overcome the pivot lever 25 and are now in a second section of the guideway of the control rails 10. It should be noted that the two pivot levers 25 are each spring-loaded by a (not to be seen) small spring and thereby held in a position in which the upper portions of the pivot lever 25, the first section of the guideway, the driver 7 first traverses have closed. Although it is not the small spring to see, but probably the two spring application points, between which the spring is clamped and which are arranged above the pivot point 26.
Fig. 9 shows a position of the drawer 2, in which the drawer 2 is still opened a little further. Since the ejection devices 3 are respectively connected to the carcass rail of the pull-out guides 18 and the force for charging the force accumulator 4 is greater than the force that must be applied to the two control rails 10th
A · * * · · · «ti ·« ** • ·······················································································. * ··· ········ 9 in the direction of the two drawer side walls to pivot, the drivers 7 maintain their position and force the control rails 10 to the outside, ie to pivot in the direction of the drawer side walls. The two arranged at the end of the control rails 10 rocker arm 22 (see Fig. 6) are tilted in the opposite direction in comparison to the movement described above in the opposite direction and their free arms "hop" thereby from stage to stage of Verrastkontur 21st
Fig. 10 shows the end position of the drawer 2, in which the drawer 2 is fully open. In this position, the two drivers 7 have moved out of the second section of the guideway in the two control rails 10 something. The two small rocker arms 22, which are arranged at the end of the two control rails 10, are each with their free arm on the last stage of Verrastkontur 21st
In FIGS. 11 to 13, the closing operation of the drawer 2 from the end position shown in FIG. 10 is shown. At the beginning of this closing movement, the two drivers 7 initially move back into the two guideways of the control rails 10 back. This is facilitated by the fact that the upper, second section of these guideways is slightly funnel-shaped. Subsequently, the two drivers 2 to the middle of the drawer facing edge of the tracks of the control rails 10. Now you might think that thereby move the control rails 10 back towards the middle of the drawer. However, this is not possible because the free arms of the two rocker arms 22 (see Fig. 6) still rest against the last stage of Verrastkontur 21 and only by a pivoting movement of the control rails 10 in the direction of the drawer side walls, but not in the direction of Drawer center, can move out of this position. The combination of one of the two rocker arms 22 and (one half) of the latching contour 21 in this situation thus in each case a latching mechanism 11 for the two control rails 10. By means of these Verrastmechanismen the position of the two control rails 10 with respect to the drawer 2 and of course the Möbefkorpus 6 at the beginning of the closing movement and thus also the starting point xi of the charging path Ax, via which the loading of the * · · * - - 'fr ~ Λ * *, Ί * · Ί' -Ü «+ '' '> r π p- (i 4 f ^ 4 - 1 * * * 1 fl t · s · * rr 10
Power storage 4 is done, set. Characterized in that the control rails 10 are now fixed in position, the driver 7 and thus the energy storage 4 have no choice but to dodge in the direction of the drawer side walls and against the spring force of the torsion springs. In this way, a part of the energy of the translational movement of the drawer 2 is transmitted to the energy storage 4.
Another difference between the opening and closing movement of the drawer 2 is also that the driver 7 now move along those sides of the two pivot lever 25, which faces the drawer side walls, since these pivot lever 25 yes by the two small springs described above in the direction of the middle of the drawer and thus to an edge 32 of the control rail 10 are pulled, so that the driver 7 can not move back in each case in the first section of the guideways of the control rails 10. This situation can be seen with reference to the enlarged section of FIG. 11. The end point Xf of the charging path Δχ at which the two energy accumulators 4 are fully charged is reached where the drivers 7 have reached the pivot point 26 of the two pivot levers 25 (see FIG. 10), i. that the end point Xf of the charging path Δχ - regardless of the pull-out of the drawer 2 - is located at a fixed relative to the furniture body 6 point. At this end point Xf of the charging path .DELTA.χ the leg spring of the two power storage 4 is stretched maximum. Up to this end point Xf, which is reached about 10 cm before reaching the closed position, the user must actively move the drawer 2. As soon as the end point Xf has been exceeded, the two energy accumulators 4 relax (until they reach the closed position) again slightly. Due to the released energy, the drawer 2 is now automatically pulled into the closed position. The ejection devices 3 thus simultaneously act as intake devices. Important in this context is also that the arrangement 1 in the preferred embodiment shown here in each case comprises a damping device 13 for damping the retraction movement of the intake device 3. More specifically, it is a fluid damper in the form of a linear damper with a piston-cylinder unit, said damper device 13 is in communication with the carcass rail of the extension guides 18 and the furniture body 6 and the piston

权利要求:
Claims (18)
[1]
1. Arrangement (1) for moving a movable furniture part (2), * * * * * * · · · 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7. in particular a drawer, with - at least one ejection device (3) for ejecting the furniture part (2) from the closed position to an open position, wherein the at least one ejection device (3) comprises at least one energy accumulator (4), - and at least one charging device (5 ) for loading the at least one force accumulator (4) by a closing movement of the furniture part (2), the loading of the at least one energy accumulator (4) via a charging path (Δχ) with an end point (xf), and wherein the at least one energy accumulator ( 4) at the end point (xf) of the charging path (Δχ) is fully charged, characterized in that the charging path (Δχ) has a variable starting point (x,), wherein the starting point (Xj) of the charging path (Δχ) by the position of Furniture part (2) is set at the beginning of the closing movement.
[2]
2. Arrangement (1) according to claim 1, characterized in that the end point (xO the charging path (.DELTA.χ) - regardless of Ausziehweg of the movable furniture part (2) - at a relative to the furniture body (6) fixed point.
[3]
3. Arrangement (1) according to claim 1 or 2, characterized in that the end point (xf) of the charging path (Δχ) is arranged such that it is reached during the closing movement, preferably 3 cm to 10 cm, before reaching the closed position ,
[4]
4. Arrangement (1) according to one of claims 1 to 3, characterized in that the at least one energy storage device (4) comprises a spring (27), preferably a leg spring.
[5]
5. Arrangement (1) according to one of claims 1 to 4, wherein the movable furniture part (2) is arranged on or in a furniture body (6), characterized in that the at least one ejection device (3) in conjunction with the furniture body ( 6) stands.
[6]
6. Arrangement (1) according to one of claims 1 to 5, characterized in that the at least one ejection device (3) has at least one, preferably bolt-shaped, driver (7).
[7]
7. Arrangement (1) according to one of claims jl-bi € | 6, characterized in that the arrangement (1) comprises at least one supporting device (8) for supporting the at least one driver (7) of the at least one ejection device (3), wherein the at least one supporting device (8) is preferably attached to the furniture part (2). is arranged.
[8]
8. Arrangement (1) according to claim 7, characterized in that the at least one supporting device (8) comprises at least one at least partially curved control contour (9).
[9]
9. Arrangement (1) according to one of claims 1 to 8, characterized in that the at least one charging device (5) comprises at least one control rail (10), wherein the at least one control rail (10) at least partially during the opening and / or Closing movement of the furniture part (2) with the at least one driver (7) of the at least one ejection device (3) is coupled.
[10]
10. Arrangement (1) according to one of claims 1 to 9, wherein the movable furniture part (2) is arranged on or in a furniture body (6), characterized in that the position of the at least one control rail (10) with respect to the Furniture part (2) and / or the furniture body (6) is changeable.
[11]
11. Arrangement (1) according to one of claims 1 to 10, characterized in that by changing the position of the at least one control rail (10) with respect to the furniture part (2) and / or the furniture body (6) for loading the at least one force accumulator (4) expended force is adjustable.
[12]
12. Arrangement (1) according to one of claims 1 to 11, characterized in that the at least one loading device (5) at least one latching mechanism (11) for fixing the position of the at least one control rail (10) with respect to the furniture part (2) and / or the furniture body (6) at the beginning of the closing movement.
[13]
13. Arrangement (1) according to one of claims 1 to 12, characterized in that the arrangement (1) comprises at least one locking and unlocking device (12) for locking and unlocking the at least one ejection device (3).
[14]
14. Arrangement (1) according to claim 13, characterized in that the at least one locking and unlocking device (12) is arranged on the at least one loading device (5).
[15]
15. Arrangement (1) according to claim 13 or 14, characterized in that the at least one locking and unlocking device (12) has a latching nose or an at least partially heart-shaped locking locking and unlocking.
[16]
16. Arrangement (1) according to claim 15, wherein the at least one ejection device (3) has at least one, preferably bolt-shaped, driver (7), characterized in that the at least one driver (7) of the at least one ejection device (3) at least in the closed position and at least partially applied to the locking lug or on the locking and unlocking.
[17]
17. Arrangement (1) according to one of claims 1 to 16, characterized in that the at least one ejection device (3) acts as a collection device for pulling the furniture part (2) in the closed position. AΜΜΜΜ · · ··ΜΜΜΜΜΜΜ I I I I I I • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •. ··· · · · ···· 4
[18]
18. Arrangement (1) according to claim 17, characterized in that the arrangement (1) comprises at least one damping device (13) for damping the retraction movement of the collection device (3). Innsbruck, December 22, 2011

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AT517063B1|2015-07-07|2016-11-15|Blum Gmbh Julius|Drive device for a movable furniture part|

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DE202015104434U1|2015-08-21|2016-11-22|Grass Gmbh|Device for moving a movable furniture part and furniture with a device for moving a movable furniture part|

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DE202015005844U1|2015-08-21|2016-11-23|Grass Gmbh|Device for opening and closing a movable furniture part|

法律状态:
2018-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20171223 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA1880/2011A|AT511799B1|2011-12-23|2011-12-23|ARRANGEMENT FOR MOVING A MOVABLE FURNITURE PART|ATA1880/2011A| AT511799B1|2011-12-23|2011-12-23|ARRANGEMENT FOR MOVING A MOVABLE FURNITURE PART|

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ES12794161.5T| ES2546750T3|2011-12-23|2012-10-19|Device for moving a mobile furniture element|

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EP12794161.5A| EP2793655B1|2011-12-23|2012-10-19|Arrangement for moving a moveable furniture part|

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JP2014547620A| JP6050377B2|2011-12-23|2012-10-19|Structures for moving movable furniture parts|

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PCT/AT2012/000264| WO2013090950A1|2011-12-23|2012-10-19|Arrangement for moving a moveable furniture part|

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CN201280063193.4A| CN104010548B|2011-12-23|2012-10-19|For making the system of movable furniture parts motion|

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MYPI2014001432A| MY165891A|2011-12-23|2012-10-19|Arrangement for moving a moveable furniture part|

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US14/287,576| US9386851B2|2011-12-23|2014-05-27|Arrangement for moving a moveable furniture part|