奥地利专利AT516677A1 furniture drive

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专利摘要:
Furniture drive (7) for drawing a movably mounted furniture part (3) in a closed position relative to a furniture body (2) comprising: - a housing (9), - a driver (30) releasably coupled to the movable furniture part (3) is - a spring device (29) for applying force to the driver (30), - at least one on the housing (9) arranged or formed guideway (26) along which the driver (30) is movably mounted, wherein the guide track (26) has a first guide (27) for releasable locking of the driver (30), wherein the guide track (26) has at least one second bend (28) for releasably locking the driver (30), wherein at least one movably mounted switching element (15) with a first and is provided with a second switching position, wherein the switching element (15) in the first switching position the first bend (27) blocks, so that the driver (30) in the second bend (28) is retractable and wherein the switching element (15) in the second switching position, the first bend (27) releases, so that the driver (30) in the first bend (27) is retractable.
公开号:AT516677A1
申请号:T4/2015
申请日:2015-01-02
公开日:2016-07-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

The present invention relates to a furniture drive for drawing a movably mounted furniture part in a closed position relative to a furniture body, comprising: - a housing, - a driver, which is detachably coupled to the movable furniture part, - a spring device for applying force to the driver, - at least one arranged on the housing or trained guideway, along which the driver is movably mounted, wherein the guideway has a first turn for releasably locking the driver.
Furthermore, the invention relates to an arrangement with a furniture drive of the type to be described and with an ejection device for ejecting the movable furniture part, through which the movable furniture part is ejected, starting from the closed position into an open position. Furthermore, the invention relates to a drawer pull-out with such a furniture drive or with an arrangement of the aforementioned type. Furniture drives in the form of feeder devices (for example, as known from EP 391 221 B1) are used in particular with drawers or sliding doors, which use a majority their pull-out area are freely movable and captured only at the end of the closing movement of the catcher of the retraction device and fed by spring force in the closed end position. When the movable furniture part is opened, a user first has to apply a force against the spring resistance by applying manual pull to the movable furniture part until the driver moves into a bend in the guide track after a predetermined distance, whereby the movable furniture part is decoupled from the driver. The driver is releasably locked by the turn of the guideway in a self-locking locked parking position, wherein the spring device is in a tensioned state and thus in a ready position for the next retracting operation. The pull-in section of the movable furniture part up to the closed end position is constant.
Object of the present invention is to propose an improved furniture drive of the type mentioned, with the Einzugsstrecke the movable furniture part is variable selectable.
This is achieved by the features of claim 1. Further advantageous embodiments are specified in the dependent subclaims.
According to the invention, it is thus provided that the guide track has at least one second turn for detachable locking of the driver, wherein at least one movably mounted shift element is provided with a first and a second shift position, wherein the shift element blocks the first turn in the first shift position, so that the driver is retractable in the second turn and wherein the switching element in the second switching position releases the first turn, so that the driver is retractable in the first turn.
In other words, the guideway at least two spaced apart in the longitudinal direction of the housing bends for releasably locking the driver, wherein the retraction of the driver in these bends when opening the movable furniture part by a movably mounted switching element is selectively controllable. In a first position of the switching element, the first turn is blocked, so that the driver is retractable in the second turn. In a second position of the switching element, however, the first turn is released, so that the driver enters this first turn.
Due to the at least two bends of the driver is selectively releasably lockable to at least two different positions relative to the housing, wherein two different long collection paths of the driver or two different spring forces for retracting the movable furniture part are available through the two different locking positions of the driver.
In this way, the feed path of the driver or the force exerted on the movable furniture part of the spring device can be variably adjusted. For example, with a small drawer, a relatively short feed path is sufficient. For a large and heavily loaded drawer, however, there may be occurrence that the drawer remains in an open position due to their weight and the friction occurring already before reaching the closed end position. By extending the feed path (i.e., increasing the relative distance between the two end positions of the follower), the drawer can be retracted over a larger, more resilient, retraction path.
It is not absolutely necessary that the switching element in the first switching position, the first turn completely blocked, but it is sufficient if the switching element is positioned in the first switching position so that an entrance of the driver is prevented in the first turn.
In the context of the present invention, "bends" are not only round bows, but also angular bends of the guideway.
Another advantage of the invention is when such a furniture drive is equipped with an additional ejection device for ejecting the movable furniture part from the closed position to an open position. Such an ejection device often has at least one, preferably lockable, energy storage, which can be triggered by a touch-latch mechanism. These touch-latch systems are used in particular when the movable furniture parts (for example, for aesthetic reasons) have no handle. The ejection device is unlocked by manual pressure or pulling exercise on the closed furniture part, whereupon the movably mounted furniture part is ejected by the force of the energy storage device (preferably an ejection spring) in an open position. A user can then move the slightly open furniture part by engaging behind (even without the presence of a handle) in the extension direction.
Now, if a furniture drive with a Einzugsfunktionalität and an ejector are combined with each other, so often the problem arises that the action of the catch spring and the action of the ejection spring extend in opposite directions and thereby hinder each other. By adjusting the switching element, it is now possible to shorten the Einzugsweg the driver while using a discharge device, so that the energy storage of the ejector must overcome a correspondingly shorter Einzugsweg the driver and thus a lower force of the spring device of the first furniture drive.
When using an additional ejection device but also their energy storage (ie, the ejection spring) is charged, which often takes place during the retraction movement of the movable furniture part. However, the force for charging the ejection spring counteracts the force of the retraction movement of the movable furniture part, so that a too long Einzugsweg the furniture drive could cause the movable furniture part is not retractable into full closed position. By switching the switching element in the second switching position, this problem can be solved, because in this case a shortened Einzugsweg the furniture drive is provided. Through this shortened Einzugsweg both the energy storage of the ejection device can be fully charged as well as the movable furniture part can be confiscated by the closing force of the furniture drive safely in the full closed position.
The switching element can be switched, for example, by a manual actuation or by actuation of a tool between the first and the second switching position. According to one embodiment, it is alternatively also possible that the switching element by the mounting of a - to be connected later with the housing of the furniture drive - ejection device for ejecting the movable furniture part between the first and the second switching position is switched. The switching element may alternatively comprise an electromechanical switch or an electronic switch (for example a transistor).
Further details and advantages of the present invention will be explained with reference to the following description of the figures. It shows or show:
Fig. 1 is a piece of furniture with a furniture body and movable relative thereto
Drawers in a perspective view,
2a, 2b a drawer extension guide in a perspective view and an enlarged detail illustration thereof,
3a-3c is a perspective view of the drawer extension with a furniture drive for pulling the movable furniture part in the closed position and with an ejection device to be mounted thereon, as well as two enlarged detailed representations of this assembly,
Fig. 4a-4c is a side view of the furniture drive with the driver in the
Closed position, an enlarged detail view on this as well as a view with partly hidden components,
5a-5d, the extraction process of the driver in time sequence, wherein the switching element is in the first switching position and thereby blocks the first turn of the guideway,
6a-6d, the extraction process of the driver in time sequence, wherein the switching element is in the second switching position, thereby releasing the first turn of the guideway for an entrance of the driver,
7 the furniture drive in an exploded view,
Fig. 8, the guideway for the driver and the cam for the
Tipping part of the power lowering mechanism in a schematic view,
Fig. 1 shows a perspective view of a piece of furniture 1 with a furniture body 2, wherein movable furniture parts 3 in the form of drawers 3a are movably mounted on Schubladenausziehführungen 4 relative to the furniture body 2. The drawer pull-out guide 4 has a body rail 5 to be fastened to the furniture body 2 and at least one pull-out rail 6 movably mounted relative to the carcass rail 5. By a furniture drive 7, the movable furniture part 3 is retractable in a closed position relative to the furniture body 2. Moreover, an ejection device 8 is provided, through which the movable furniture part 3 can be ejected from the closed position into an open position.
2 shows a perspective view of the drawer pull-out guide 4 with the carcass rail 5 and the pull-out rail 6, between which an extension-extending center rail 11 is movably mounted. The drawer pull-out guide 4 is in the shown figure in the closed position, so that the pull-out rail 6 can be pulled out in the opening direction 12. The pull-out rail 6 has a U-profile in cross-section, wherein a housing 9 of the furniture drive 7 is mounted on a lateral leg 14 of the pull-out rail 6 via fastening means 10, preferably in the form of screws. By the furniture drive 7, the pull-6 is retractable towards the end of the closing movement in the closed end position. The furniture drive 7 has a relative to the housing 9 movably mounted switching element 15 which is switchable (preferably displaceable or rotatable) between at least two switching positions.
By switching the switching element 15 is a driver 30 (Fig. 4a) of the furniture drive 7 retractable over at least two different lengths to the closed end position of the driver 30. In the figure shown, the switching element 15 is in the first position, in which a long feed path for the driver 30 (and thus for the pull-out rail 6) is provided.
For fastening the rear end of the drawer 3a, a hook 16 is provided on the pull-out rail 6, which protrudes in the mounted position into a hole arranged at the back of the drawer rear wall. For attachment of the front end of the drawer 3a, a manually operable clutch lever 17 is provided at the front end of the pull-6, the locking edges 18 are releasably latched by the resilient design of the coupling lever 17 automatically with a fixed to the drawer 3a support rail. The housing 9 of the furniture drive 7 is also provided with a plurality of hooks 19 which can engage in corresponding recesses of the ejection device 8. For play-free fixing at least one projection 21 is formed on the housing 9 of the furniture drive 7, which rests in the mounting position on the housing 22 of the ejection device 8. Fixed to the stationary carcass rail 5 is an ejection driver 13, which can be coupled to the ejection device 8.
3a shows the drawer pull-out guide 4 with the furniture drive 7 fastened to the pull-out rail 6. The housing 9 of the furniture drive 7 is used to releasably fix a housing 22 of the ejection device 8. The ejection device 8 has an adjusting wheel 24, by means of which the position of the drawer 3a is variably adjustable in the closed position. Moreover, the ejection device 8 has a rotatable part 25 by which a movement of the ejection device 8 can be synchronized via a synchronization rod (not shown) with a movement of a second ejection device 8 located opposite the furniture body 2.
In Fig. 3a and in the enlarged detail view of FIG. 3b, the housing 22 of the ejector 8 is prepositioned relative to the housing 9 of the furniture drive 7 via the hook 19 shown in Fig. 2a, wherein the housing 22 of the ejection device 8 a stop 23 for actuation of the switching element 15 has. Starting from the pre-position according to FIGS. 3 a and 3b, the housing 22 of the ejection device 8 can be displaced relative to the housing 9 of the furniture drive 7 by applying manual pressure in the direction of the arrow, so that the stop 23 moves the switching element 15 starting from the first switching position right shifts to the second switching position shown in FIG. 3c. In the second switching position shown in Fig. 3c a reduced compared to the first switching position Einzugsweg the driver 30 (Fig. 4a) of the furniture drive 7 is provided so that the energy storage of the ejector 8 when ejecting the drawer 3a from the closed position only a shortened collection path of the Mitnehmer 30 and a lower force of the spring device 29 must overcome.
Fig. 4a shows a side view of the furniture drive 7, wherein the housing 9, a guide track 26 with at least two spaced from each other in the longitudinal direction of the housing 9 bends 27, 28 is arranged or formed. The switching element 15 is in the first switching position, so that the first turn 27 is blocked. An acted upon by a spring device 29 driver 30 which is releasably coupled to the movable furniture part 3 is guided via at least one guide member 31 along the guide rail 26 slidably. The spring device 29, which preferably comprises at least one tension spring, is fastened to the housing 9 via a first attachment point 39a and to a spring holder 33 separate from the carrier 30 via a second attachment point 39b, the spring holder 33 being connected to the driver 30 via a coupling device 35 (FIG 4c) communicates in a coupled motion. The driver 30 has a notch 38 for releasable coupling with a attached to the pull-6 or the movable furniture part 3 coupling element (preferably a driving pin). By the two bends 27, 28 of the driver 30 is selectively releasably lockable at two different positions relative to the housing 9, wherein the spring device 29 is less tensioned in the position in which the driver 30 is releasably locked to the first bend 27, as in the position in which the driver 30 is releasably locked to the second bend 28. The first bend 27 and the second bend 28 run parallel to each other at least in sections. The switching element 15 can be pressed by a separate spring device 29 from the spring element 32 in the first, the turn 27 obstructing switching position, so for the furniture drive 7 by default, a long feed path for the driver 30 is available.
The spring-assisted retraction movement of the driver 30 (and thus that of the movable furniture part 3) can be damped by a damping device 37, preferably a hydraulic piston-cylinder unit.
4b shows the area framed in FIG. 4a in an enlarged view. In the illustrated embodiment, the driver 30, preferably via a pivot axis 48, connected to a movable slide 47, wherein the coupling device 35 has a rotatably mounted about a pin 45 tilting part 36. The bolt 45 is arranged on the spring holder 33 and is slidably guided along a slot 46 of the slider 47. The tilting part 36 has at least one guide part 40, which is displaceably mounted along a control cam 41.
4c shows the detail view according to FIG. 4b, the slot 46 of the slider 47 being hidden. The coupling device 35 comprises the pivotable tilting part 36, wherein a first toothing 42 of the tilting part 36 cooperates with a second toothing 43 of the slider 47. By the coupling device 35, the attachment point 39b of the spring device 29 falls back on the spring holder 33 with respect to the position of the traveling in the opening direction driver 30 so that towards the end of the clamping path, the movement of the attachment point 39b of the spring device 29 is slower than the movement of the driver 30. The charging of the spring device 29 is thereby carried out with a reduced effort, the unwanted spring break and an associated, excessive acceleration of the movable furniture part 3 when uncoupling the driver 30 from the movable furniture part 3 can be prevented. The control cam 41 provided for guiding the tilting part 36 has a first section 41a and a second section 41b, which are connected to one another via an apex 44.
Fig. 5a-5d show the extraction process of the driver 30 in time sequence. Starting from the closed position according to FIGS. 4a-4c, the driver 30 is first movably mounted on the movable furniture part 3 by manual pulling movement along a linearly extending section 26a (FIG. The driver 30 is connected to the movable slide 47 via a pivot axis 48, wherein the toothing 43 of the slider 47 meshes with the toothing 42 of the tilting part 36. The tilting part 36 is pivotally connected to the spring holder 33, which is connected via the attachment point 39b with the spring device 29 in connection.
The tilting part 36 has a guide part 40 which can be guided along the control cam 41. 5a-5d, the switching element 15 is in the first switching position, that is, the first bend 27 is blocked for entry of the driver 30, so so the driver 30 guided along the longer guide track 26 and then with the second bend 28th is releasably lockable.
In Fig. 5b, the driver 30 is in a slightly extended position, wherein the guide member 40 of the tilting member 36 is at the apex 44 of the control cam 41. The attachment point 39b of the spring device 29 on the spring holder 33 initially moves at the same speed as the catch 30 traveling in the withdrawal direction.
In Fig. 5c, the driver 30 is further extended, wherein the guide member 40 of the tilting member 36 in the first switching position of the switching element 15 along the portions 41 a and 41 b of the control cam 41 is feasible. The attachment point 39b begins to slow down by the interaction of the teeth 42, 43 and by a pivoting movement of the tilting member 36 continuously, so that the spring device 29 is not stretched to the maximum spring deflection.
In Fig. 5d, the driver 30 has been pivoted by the interaction with the second bend 28 about the pivot axis 48, so that the driver 30 is releasably locked to the second bend 28 and thus is in a self-locking locked standby position. By the pivoting of the driver 30, a (not shown) coupling element of the pull-6 is released, so that the movable furniture part 3 is further moved uncoupled in the direction of the open position. Starting from the position shown in FIG. 5d, the said coupling element during the closing movement of the movable furniture part 3 again detach the driver 30 from the self-locking locked ready position, whereupon the driver 30 retractable together with the movable furniture part 3 by the force of the spring device 29 in the closed position is. By a damping device 37 with a cylinder 37a and a relatively movable piston rod 37b, the free end of the movable slide 47 is applied loosely, this spring-assisted retraction movement of the driver 30 can run attenuated.
Fig. 6a shows the furniture drive 7, wherein the relative to the housing 9 slidably mounted switching element 15 has been moved to the second switching position, that is, the first guide rail 27 is released for entry of the driver 30. The switching of the switching element 15 can be purely mechanical, preferably by the subsequent assembly of the ejection device 8 (Fig. 3b, 3c) on the housing 9 of the furniture drive 7. It can be seen that the spring element 32 is in a compressed state, so at a Disassembly of the ejector 8, the switching element 15 is automatically moved back by the force of the relaxing spring element 32 in the first switching position. In Fig. 6a, the driver 30 is in the retracted end position, wherein the spring device 29 is relaxed.
FIG. 6b shows that the driver 30 is initially movable along a linearly extending section 26a (FIG. 8) of the guide track 26 by manual pulling on the movable furniture part 3. By the coupling device 35 with the tilting part 36, the toothing 42 cooperates with the toothing 43 of the movable slide 47, a Kraftabsenkmechanik is realized, wherein the attachment point 39b of the spring device 29 on the spring holder 33 when pulling out of the driver 30 relative to the position of the proceeding in the opening direction Driver 30 falls behind. The tilting part 36 has a guide part 40, which is displaceably guided along the control cam 41 (FIG. 6a).
By an asymmetric articulation of the spring device 29 at the attachment point 39 b, the guide member 30 of the driver 30 has the tendency to laterally dodge in the direction of the first bend 28, so that the Driver 30 is not moved further in the direction of the second turn 28. The first bend 27 and the second bend 28 can run parallel to each other at least in sections.
In Fig. 6d, the driver 30 is releasably locked to the first bend 27, wherein a coupling element connected to the pull-6 6 is released by the pivoting of the driver 30 about the pivot axis 48. The spring device 29 is less tensioned in the position shown in which the driver 39 is releasably locked to the first bend 27 than in the position in which the driver 30 is releasably locked to the second bend 28. Due to the at least two positions of the switching element 15 are at least two different-length intake paths of the driver 30 and at least two different retraction forces of the spring device 29 are available.
Fig. 7 shows the furniture drive 7 in an exploded view. The housing 9 comprises two housing parts 9a and 9b to be connected to each other, on which the guide track 26 for the driver 30 with the two bends 27 and 28, which are spaced apart in the longitudinal direction of the housing 9, are formed. Moreover, a cam 41 for the tilting part 36 is formed on the housing 9, which has a first portion 41 a and a second portion 41 b, which are interconnected via the apex 44. For releasably securing the damping device 37, resilient holders 50a and 50b are provided on the housing 9, on which the cylinder 37a can be snapped on. The spring device 29 is fastened to the housing 9 via a first attachment point 39a and to the spring holder 33 via a second attachment point 39b, which is displaceably guided via a bolt 45 along a slot 46 of the slider 47. With the spring holder 33, a tilting part 36 is connected to a toothing 42, which cooperates with a toothing 43 of the slide 47, not shown here. The driver 30 is connected to the slider 47 via a pivot axis 48 hingedly connected. The driver 30 has guide elements 31, by which the driver 30 along the guide rail 26 of the housing 9 slidably guided and over which the driver 30 with the two bends 27 and 28 is releasably locked. The driver 30 has a notch 38 for releasable coupling with the movable furniture part 3. The movable between two switching positions switching element 15 is disposed on a bearing element 49 and is characterized by the
Spring element 32 is pressed into the first switching position in which the first bend 27 is blocked. In this way, by default (i.e., without the attachment of the ejection device 8), a longer feed path for the driver 30 is available. The switching element 30 may also have a receptacle for a tool, wherein the switching element 15 is adjustable between the two switching positions by actuation of the tool. The switching element 15 may also be formed in two or more parts, wherein a first part to be actuated is coupled in a motion-coupled manner to a second part obstructing the bend 27.
8 shows a highly schematic representation of the course of the guide track 26, which, starting from the retracted end position 51 of the driver 30, comprises a linear travel path 26a and two bends 27 and 28, spaced apart from one another in the longitudinal direction, for releasably locking the driver 30. In a first switching position of the switching element 15, the first bend 27 is blocked, so that the driver 30 when tensioning the spring device 29 moves into the second bend 28. The control cam 41 for guiding the tilting part 36, however, comprises a first portion 41a and a second portion 41b, which are interconnected via the apex 44. If now two spaced bends 27 and 28 are provided, the control cam 41 would theoretically also have to include an additional third section 41c, which is spaced from the first section 41a in the longitudinal direction. Moreover, the entrance of the tilting part 36 in the first section 41a or alternatively in the third section 41c would be controlled by an additional switching element 15a. By the subsequent to the first portion 41 a second portion 41 b, it is possible to dispense with both the third portion 41 c and on the additional switching element 15 a, so that therefore a single switching element 15 both for the choice of bends 27, 28 and for the corresponding length of the control cam 41 is sufficient. The power reduction behaves in both travels of the driver 30 in the bends 27, 28 proportional to the path. The tilting part 36 is in the first switching position of the switching element 15, in which the first bend 27 is blocked, along the first portion 41 a and the second portion 41 b feasible. If, however, the switching element 15 is in the second switching position, in which the first
Turning 27 is released, the tilting member 36 is guided exclusively along the first portion 41 a of the control cam 41.
Innsbruck, December 30, 2014

权利要求:
Claims (15)
[1]
claims
1. furniture drive (7) for drawing a movably mounted furniture part (3) in a closed position relative to a furniture body (2), comprising: - a housing (9), - a driver (30) connected to the movable furniture part (3) detachably coupled, - a spring device (29) for applying force to the driver (30), - at least one on the housing (9) arranged or formed guideway (26) along which the driver (30) is movably mounted, wherein the guide track (26 ) has a first bend (27) for releasable locking of the driver (30), characterized in that the guide track (26) has at least one second bend (28) for releasably locking the driver (30), wherein at least one movably mounted switching element (30) 15) is provided with a first and a second switching position, wherein the switching element (15) in the first switching position, the first turn (27) blocks, so that the driver (30) in the second Abbiegu ng (28) is retractable and wherein the switching element (15) in the second switching position, the first bend (27) releases, so that the driver (30) in the first bend (27) is retractable.
[2]
2. Furniture drive according to claim 1, characterized in that one of the spring device (29) separate spring element (32) is provided, through which the switching element (29) can be pressed into the first switching position.
[3]
3. Furniture drive according to claim 1 or 2, characterized in that the first bend (27) and the second bend (28) in the longitudinal direction of the housing (9) are spaced from each other.
[4]
4. Furniture drive according to one of claims 1 to 3, characterized in that the first bend (27) and the second bend (28) at least partially parallel to each other.
[5]
5. Furniture drive according to one of claims 1 to 4, characterized in that the spring device (29) in the position in which the driver (30) with the first bend (27) is releasably locked, is less tensioned than in that position, in which the driver (30) with the second bend (28) is releasably locked.
[6]
6. Furniture drive according to one of claims 1 to 5, characterized in that the spring device (29) via a driver (30) separate spring holder (33) can be tensioned, wherein a coupling device (35) for movement coupling between the driver (30) and spring holder (33) is provided, wherein by the coupling device (35) the attachment point (39b) of the spring device (29) on the spring holder (33) upon withdrawal of the driver (30) relative to the position of the traversing driver (30) falls back.
[7]
7. Furniture drive according to claim 6, characterized in that the driver (30) with a movable slide (47) is connected, wherein the coupling device (35) connected to the spring holder (33) tilting part (36) having a first toothing (42 ) and a slide (47) arranged second toothing (43), wherein the first toothing (42) and second toothing (42, 43) communicate with each other.
[8]
8. Furniture drive according to claim 7, characterized in that the tilting part (36) is guided along a control cam (41).
[9]
9. Furniture drive according to claim 8, characterized in that the control cam (41) has a first portion (41 a) and a second portion (41 b) which are interconnected via a vertex (44) of the control cam (41).
[10]
10. Furniture drive according to claim 9, characterized in that the tilting part (36) in the first switching position of the switching element (15) in which the first bend (27) of the guide track (26) is blocked, along the first portion (41 a) and the second portion (41b) of the control cam (41) is feasible.
[11]
11. Furniture drive according to claim 9 or 10, characterized in that the tilting part (36) in the second switching position of the switching element (15) in which the first bend (27) of the guide track (26) is released, only along the first section (41 a) of the control cam (41) is feasible.
[12]
12. Furniture drive according to one of claims 1 to 11, characterized in that the switching element (15) is switchable by a manual operation between the first and the second switching position.
[13]
13. Furniture drive according to one of claims 1 to 11, characterized in that the switching element (15) by mounting a - subsequently to the housing (9) of the furniture drive (7) to be connected - ejection device (8) for ejecting the movable furniture part ( 3) is switchable between the first and the second switching position.
[14]
14. Arrangement with a furniture drive (7) according to one of claims 1 to 13 for drawing a movably mounted furniture part (3) in the closed end position and with an ejection device (8) for ejecting the movable furniture part (3) starting from the closed end position in an open position.
[15]
15. drawer pull-out (4) with a on a furniture body (2) to be fastened cabinet rail (5), at least one relative to the carcass rail (5) movably mounted pull-out rail (6) and with a furniture drive (7) according to one of claims 1 to 13 or with an arrangement according to claim 14. Innsbruck, 30 December 2014

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同族专利:

公开号 | 公开日

JP2018500139A|2018-01-11|

KR20170089909A|2017-08-04|

JP6393429B2|2018-09-19|

ES2689124T3|2018-11-08|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US20080231156A1|2005-04-28|2008-09-25|Kaoru Hoshide|Slide Rail Unit With Retaining Function|

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法律状态:
2021-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20210102 |

优先权:

申请号 | 申请日 | 专利标题

ATA4/2015A|AT516677B1|2015-01-02|2015-01-02|furniture drive|ATA4/2015A| AT516677B1|2015-01-02|2015-01-02|furniture drive|

CN201580071609.0A| CN107105896B|2015-01-02|2015-11-23|Furniture drive|

KR1020177017735A| KR102012573B1|2015-01-02|2015-11-23|Furniture drive|

JP2017535046A| JP6393429B2|2015-01-02|2015-11-23|Furniture drive|

ES15817050.6T| ES2689124T3|2015-01-02|2015-11-23|Furniture drive|

PCT/AT2015/000148| WO2016106434A1|2015-01-02|2015-11-23|Furniture drive|

EP15817050.6A| EP3244775B1|2015-01-02|2015-11-23|Furniture drive|

US15/616,285| US10172461B2|2015-01-02|2017-06-07|Furniture drive|

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