Abstract
A furniture drive for retracting a movably supported furniture part into a closed position relative to a furniture carcass, including a housing, an entrainment member which can be releasably coupled to the movable furniture part, a spring device for applying a force to the entrainment member, at least one guide path arranged or formed on the housing, wherein the entrainment member is displaceably arranged along the guide path, wherein the guide path includes a first bend for releasably locking the entrainment member, wherein the guide path includes at least one second bend for releasably locking the entrainment member, wherein at least one movably-supported switch element with a first and with a second switching position is provided, wherein the switch element, in the first switching position, blocks the first bend so that the entrainment member can move into the second bend and wherein the switch element, in the second switching position, unblocks the first bend so that the entrainment member can move into the first bend.
Claims
1. A furniture drive for retracting a movably supported furniture part into a closed position relative to a furniture carcass, including: a housing, an entrainment member which can be releasably coupled to the movable furniture part, a spring device for applying a force to the entrainment member, at least one guide path arranged or formed on the housing, wherein the entrainment member is displaceably arranged along the guide path, wherein the guide path includes a first bend for releasably locking the entrainment member, wherein the guide path includes at least one second bend for releasably locking the entrainment member, wherein at least one movably-supported switch element with a first and with a second switching position is provided, wherein the switch element, in the first switching position, blocks the first bend so that the entrainment member can move into the second bend and wherein the switch element, in the second switching position, unblocks the first bend so that the entrainment member can move into the first bend.
2. The furniture drive according to claim 1, wherein the switch element, in the first switching position, blocks the first bend by obstructing, so that a run-in of the entrainment member into the first bend is prevented.
3. The furniture drive according to claim 1, wherein the switch element is laterally arranged next to the guide path and, in the first switching position, deflects the entrainment member in such a way that a run-in of the entrainment member into the first bend is prevented.
4. The furniture drive according to claim 1, wherein the switch element is movably mounted to the housing.
5. The furniture drive according to claim 1, wherein a spring element which is separate from the spring device is provided by which the switch element can be pressed into the first switching position.
6. The furniture drive according to claim 1, wherein the first bend and the second bend are spaced from each other in a longitudinal direction of the housing.
7. The furniture drive according to claim 1, wherein the first bend and the second bend run parallel to each other at least over a region.
8. The furniture drive according to claim 1, wherein the spring device in a position, in which the entrainment member is releasably locked to the first bend, is tensioned less than in a position in which the entrainment member is releasably locked to the second bend.
9. The furniture drive according to claim 1, wherein the spring device can be tensioned by way of a spring holder which is separate from the entrainment member, wherein a coupling device is provided for motionally coupling between the entrainment member and the spring holder, wherein by way of the coupling device, the fastening location of the spring device on the spring holder, when the entrainment member is being pulled out, falls back relative to the position of the moving entrainment member.
10. The furniture drive according to claim 9, wherein the entrainment member is connected to a displaceable slider, wherein the coupling device includes a tilting portion which is connected to the spring holder, the tilting portion has a first tooth arrangement, the coupling device further includes a second tooth arrangement arranged on the slider, wherein the first tooth arrangement and the second tooth arrangement are connected to one another.
11. The furniture drive according to claim 10, wherein the tilting portion is guided along a control curve.
12. The furniture drive according to claim 11, wherein the control curve includes a first section and a second section which are connected to one another by an apex of the control curve.
13. The furniture drive according to claim 12, wherein the tilting portion, in the first switching position of the switch element in which the first bend is blocked, can be guided along the first section and along the second section of the control curve.
14. The furniture drive according to claim 12, wherein the tilting portion, in the second switching position of the switch element in which the first bend of the guide path is unblocked, can be guided exclusively along the first section of the control curve.
15. The furniture drive according to claim 1, wherein the switch element can be switched by a manual actuation between the first and second switching position.
16. The furniture drive according to claim 1, wherein the switch element can be switched between the first and second switching position by mounting an ejection device for ejecting the movable furniture part, wherein the ejection device is to be retrofitted to the housing of the furniture drive.
17. An arrangement having a furniture drive according to claim 1 for retracting a movably mounted furniture part into the closed end position and an ejection device for ejecting the movable furniture part, starting from a closed position, towards an open position.
18. A drawer pull-out guide comprising: a carcass rail to be mounted to a furniture carcass, at least one extension rail which is displaceably mounted relative to the carcass rail, and a furniture drive according to claim 1.
19. A drawer pull-out guide comprising: a carcass rail to be mounted to a furniture carcass, at least one extension rail which is displaceably mounted relative to the carcass rail, and an arrangement according to claim 17.
Description
[0023] Further details and advantages of the present invention will be explained with reference to following description of figures, wherein:
[0024] FIG. 1 shows a perspective view of an item of furniture having a furniture carcass and drawers being displaceable thereto,
[0025] FIG. 2a, 2b a perspective view of a drawer pull-out guide and an enlarged detail view thereof,
[0026] FIG. 3a-3c a perspective view of the drawer pull-out guide with a furniture drive for retracting a movable furniture part into the closed position, an ejection device to be mounted thereon and two enlarged detail views of said mounting,
[0027] FIG. 4a-4c s side view of the furniture drive with the entrainment member in the closed position, an enlarged detail view thereof and a view with components being partially hidden,
[0028] FIG. 5a-5d the extension process of the entrainment member in temporal sequences, wherein the switch element is located in the first switching position and thereby blocks the first bend of the guide path,
[0029] FIG. 6a-6d the extension process of the entrainment member in temporal sequences, wherein the switch element is located in the second switching position and thereby releases the first bend of the guide path so as to enable a run-in for the entrainment member,
[0030] FIG. 7 the furniture drive in an exploded view,
[0031] FIG. 8 the guide path for the entrainment member and the control curve for the rocker member of the force reduction mechanism in a schematic view,
[0032] FIG. 9a, 9b a furniture drive in a slightly modified embodiment, wherein the switch element, in the first switching position, deflects the entrainment member in such a way that a run-in of the entrainment member into the first bend is prevented,
[0033] FIG. 10a-10c partial sections according to FIG. 9a, 9b with different positions of the entrainment member in the extension direction, wherein the switch element is located in the first switching position,
[0034] FIG. 11a, 11b partial sections of the furniture drive according to FIG. 9a, 9b with two different positions of the entrainment member, wherein the switch element is located in the second switching position,
[0035] FIG. 12a-12c the mounting process of an ejection device to the furniture drive, whereby the switch element can be switched from the first switching position into the second switching position.
[0036] FIG. 1 shows a perspective view of an item of furniture 1 having a furniture carcass 2, wherein movable furniture parts 3 in the form of drawers 3a can be displaced by drawer pull-out guides 4 relative to the furniture carcass 2. The drawer pull-out guides 4 includes a carcass rail 5 to be fixed to the furniture carcass 2 and at least one extension rail 6 which is displaceably supported relative to the carcass rail 5. By way of a furniture drive 7, the movable furniture 3 can be pulled into a closed position relative to the furniture carcass 2. Moreover, an ejection device 8 is provided by which the movable furniture part 3 can be ejected, starting from a closed position, towards an open position.
[0037] FIG. 2a shows a perspective view of the drawer pull-out guide 4 with the carcass rail 5 and the extension rail 6, between which a middle rail 11 is arranged in order for the extension to be lengthened. In the shown figure, the drawer pull-out guide 4 is located in a closed position so that the extension rail 6 can be pulled towards the opening direction 12. The extension rail 6 has a U-profile in a cross-section, wherein a housing 9 of the furniture drive 7 is mounted by way of fastening means, preferably in the form of screws, to a lateral limb 14 of the extension rail 6. By way of the furniture drive 7, the extension rail 6 can be pulled into the closed end position at the end of the closing movement. The furniture drive 7 includes a switch element 15 which is movably mounted relative to the housing 9, the switch element 15 can be switched, preferably displaced or pivoted, between at least two switching positions. By switching the switch element 15, an entrainment member 30 (FIG. 4a) of the furniture drive 7 can be pulled into the closed end position of the entrainment member 30 over at least two distances having a different length. In the shown figure, the switch element 15 is in a first switching position in which a long retraction path for the entrainment member 30 (and therewith for the extension rail 6) is provided. FIG. 2b shows the encircled section of FIG. 2a in an enlarged view.
[0038] For fastening the rear-sided end of the drawer 3a, a hook 16 is provided on the extension rail 6 which, in the mounting position, protrudes into a bore arranged in the back side of the drawer rear wall. For fastening of the front-sided end of the drawer 3a, a coupling lever 17 to be operated manually is provided on the front-sided end of the extension rail 6, the coupling lever 17 has latching edges which, due to a resilient configuration of the coupling lever 17, can be automatically latched in a releasable manner to a carrier rail which is mounted to the drawer 3a. Moreover, the housing 9 of the furniture drive 7 has a plurality of hooks 19 which can engage in corresponding recesses of the ejection device 8. For the play-free arrangement, at least one protrusion 21 is formed on the housing 9 of the furniture drive 7, the protrusion 21 rests against the housing 22 of the ejection device 8 in the mounting position. On the stationary carcass rail 5, an ejection catch 13 is attached which can be coupled to the ejection device 8.
[0039] FIG. 3a shows the drawer pull-out guide 4 with the furniture drive 7 fixed to the extension rail 6. A housing 22 of the ejection device 8 can be releasably fixed to the housing 9 of the furniture drive 7. The ejection device 8 includes an adjusting wheel 24 by which the position of the drawer 3a, in the closed position, can be variably adjusted. Moreover, the ejection device 8 includes a rotatable portion 25 by which a movement of the ejection device 8 can be synchronized with a movement of a second ejection device 8 which is arranged on an opposing side of the furniture carcass 2.
[0040] FIG. 3a and the enlarged detail view according to FIG. 3b show that the housing 22 of the ejection device 8 is pre-positioned relative to the housing 9 of the furniture drive 7 by way of the hooks 19 shown in FIG. 2a, wherein the housing 22 of the ejection device 8 has a stop 23 for actuation of the switch element 15. Starting from the pre-position shown according to FIG. 3a and FIG. 3b, the housing 22 of the ejection device 8, by manually applying pressure in a direction of the depicted arrow, can be displaced relative to the housing 9 of the furniture drive 7, so that the stop 23 displaces the switch element 15, starting from the first switching position, to the right into the second switching position according to FIG. 3c. In the second switching position shown in FIG. 3c, a reduced retraction path of the entrainment member 30 (FIG. 4a) of the furniture drive 7—in comparison with the first switching position—is provided, so that the energy storage member of the ejection device 8, when ejecting the drawer 3a starting from the closed position, needs solely to overcome a reduced retraction path of the entrainment member 30 and a reduced force of the spring device 29, respectively.
[0041] FIG. 4a shows a side view of the furniture drive 7, wherein a guide path 26 with at least two bends 27, 28 which are spaced from each other in a longitudinal direction of the housing 9 are arranged or formed on the housing 9. The switch element 15 being movably arranged on the housing 9 is thereby located in the first switching position, so that the first bend 27 is blocked. An entrainment member 30—which is acted upon by a spring device 29 and which can be releasably coupled to the movable furniture part 3—is displaceably guided by way of at least one guiding element 31 along the guide path 26. The spring device 29 preferably includes at least one tension spring and is fixed by a first fastening location 39a to the housing 9 and by a second fastening location 39b to a spring holder 33 being separate from the entrainment member 30, wherein the spring holder 33 is motionally coupled to the entrainment member 30 by way of a coupling device 35 (FIG. 4c). The entrainment member 30 has a notch 38 for releasably coupling a coupling element (preferably an entrainment peg) being fixed to the extension rail 6 or to the movable furniture part 3. By way of the two bends 27 and 28, the entrainment member 30 can be releasably latched in an alternative manner to two different positions relative to the housing 9, wherein the spring device 29 in a position, in which the entrainment member 30 is releasably latched to the first bend 27, is tensioned to a less extent in comparison to a position in which the entrainment member 30 is releasably latched to the second bend 28. The first bend 27 and the second bend 28 run parallel to each other at least over a region. The switch element 15 can be pushed by a spring element 32 into the first switching position in which the bend 29 is blocked, wherein the spring element 32 is separate from the spring device 29. In this way, a longer retraction path for the entrainment member 30 is provided by default. The spring-assisted retraction movement of the entrainment member 30 (and therewith of the movable furniture part 3) can be dampened by a damping device 37, preferably a hydraulic piston-cylinder-unit.
[0042] FIG. 4b shows the encircled region of FIG. 4a in an enlarged view. In the shown embodiment, the entrainment member 30 is connected, preferably about a pivoting axis 48, to a displaceable slider 47, wherein the coupling device 35 includes a tilting portion 36 which is pivotally supported about a bolt 45. The bolt 45 is arranged on the spring holder 33 and is glidingly supported along an elongated hole 46 of the slider 47. The tilting portion 36 has at least one guide portion 40 which is displaceably guided along a control curve 41.
[0043] FIG. 4c shows the detail view according to FIG. 4b, wherein the elongated hole 46 of the slider 47 is not depicted. The coupling device 35 includes the pivotally mounted tilting portion 36, wherein a first tooth arrangement 42 of the tilting portion 36 interengages with a second tooth arrangement 43 of the slider 47. By way of the coupling device 35, the fastening location 39b of the spring device 29 falls back relative to a position of the entrainment member 30 which is being moved towards the opening direction, so that at the end of the tensioning path, the movement of the fastening location 39b of the spring device 29 is slower than the movement of the entrainment member 30. The spring device 29 is thereby loaded with a reduced effort, the undesired spring separation force and an unduly acceleration of the movable furniture part 3 associated therewith upon decoupling the entrainment member 30 from the movable furniture part 3 can thereby be prevented. The control curve 41 for guiding the tilting portion 36 includes a first section 41a and a second section 41b which are connected to each other by an apex 44.
[0044] FIG. 5a-5d show the extension process of the entrainment member 30 in temporal sequences. Starting from the closed position according to FIG. 4a-4c, the entrainment member 30 can initially be guided along a linearly extending section 26a (FIG. 8) of the guide path 26 by manually applying a pulling force to the movable furniture part 3. The entrainment member 30 is pivotally connected to the displaceable slider 47 by a pivoting axis 48, wherein the tooth arrangement 43 of the slider 47 meshes with the tooth arrangement 42 of the tilting portion 36. The tilting portion 36 is hingedly connected to the spring holder 33 being connected via the fastening location 39b to the spring device 29. The tilting portion 36 has a guide portion 40 which can be guided along the control curve 41. In FIG. 5a-5d, the switch element 15 is in the first switching position, wherein thus the first bend 27 is blocked for a run-in of the entrainment member 30, so that thus the entrainment member 30 is guided along the longer guide path 26 and, subsequently, can be releasably locked to the second bend 28.
[0045] In FIG. 5b, the entrainment member 30 is arranged in a slightly extended position, wherein the guide portion 40 of the tilting portion 36 is located on the apex 44 of the control curve 41. The fastening location 39b of the spring device 29 on the spring holder 33 initially moves with the same speed than the entrainment member 30 which is being moved towards the extension direction.
[0046] In FIG. 5c, the entrainment member 30 is even further extended, wherein the guide portion 40 of the tilting portion 36, in the first switching position of the switch element 15, can be guided along the sections 41a and 41b of the control curve 41. The fastening location 39b, by the interengagement of the tooth arrangements 42, 43 and by a pivoting movement of the tilting portion 36, starts to continuously decelerate, so that the spring device 29 is not tensioned to the maximum spring deflection.
[0047] In FIG. 5d, the entrainment member 30 has been pivoted about the pivoting axis 48 by way of the interaction with the second bend 28, so that the entrainment member 30 is locked to the second bend 28 and is located therewith in an arrested, self-locking ready position. By the pivoting movement of the entrainment member 30, a coupling element (not shown) of the extension rail 6 is being released, so that he movable furniture part 3 can be further displaced towards the open position in an uncoupled manner. Starting from the position according to FIG. 5d, said coupling element, when the movable furniture part 3 is being closed, can again release the entrainment member 30 out of its arrested, self-locking ready position, whereupon the entrainment member 30, together with the movable furniture part 3, can be pulled into the closed position by the force of the spring device 29. By way of a damping device 37 having a cylinder 37a and a piston rod 37b which is displaceable thereto, the free end of the piston rod 37b loosely abuts the displaceable slider 47, said spring-assisted retraction movement of the entrainment member 30 can be dampened.
[0048] FIG. 6a shows the furniture drive 7, wherein the switch element 15, which is displaceably mounted relative to the housing 9, has been moved into the second switching position, wherein thus the first guide path 27 is being released for a run-in of the entrainment member 30. The switching of the switch element 15 can be effected solely mechanically, preferably by the retrofitted mounting of the ejection device 8 (FIG. 3b, 3c) to the housing 9 of the furniture drive 7. It is visible that the spring element 32 is in a compressed condition, so that when the ejection device 8 is being removed, the switch element 15 is automatically moved back into the first switching position by the force of the relaxing spring element 32. In FIG. 6a, the entrainment member 30 is located in the retracted end position, wherein the spring device 29 is in a relaxed condition.
[0049] FIG. 6b shows that the entrainment member 30, by applying a manual pulling force to the movable furniture part 3, can firstly be moved along a linear extending section 26a (FIG. 8) of the guide path 26. By way of the coupling device 35 with the tilting portion 36, the tooth arrangement 42 of which interacts with the tooth arrangement 43 of the displaceable slider 47, a force-reduction mechanism is realized, wherein the fastening location 39b of the spring device 29 on the spring holder 33, when the entrainment member 30 is pulled out, falls back to the position of the entrainment member 30 which is moving towards the opening direction. The tilting portion 36 has a guide portion 40 which can be displaceably guided along the control curve 41 (FIG. 6a).
[0050] FIG. 6c shows, in comparison to FIG. 6b, a further extended tensioning position of the entrainment member 30. By way of an asymmetric linkage of the spring device 29 on the fastening location 39b, the guide element 40 of the entrainment member 30 has the tendency to deflect laterally in a direction towards the first bend 27, so that the entrainment member 30 is not further being moved towards the second bend 28. The first bend 27 and the second bend 28 can run parallel to each other at least over a region.
[0051] In FIG. 6d, the entrainment member 30 is releasably locked to the first bend 27, wherein a coupling element being connected to the extension rail 6 is being released by the pivoting movement of the entrainment member 30 about the pivoting axis 48. The spring device 29, in the shown position in which the entrainment member 30 is locked to the first bend 27, is tensioned to a less extent as in a position in which the entrainment member 30 is releasably locked to the second bend 28. By the at least two positions of the switch element 15, at least two retraction paths having a different length are provided for the entrainment member 30 and at least two different retraction forces of the spring device 29 are available.
[0052] FIG. 7 shows the furniture drive 7 in an exploded view. The housing 9 includes two housing portions 9a and 9b to be connected to one another, wherein the guide path 26 for the entrainment member 30 with the two bends 27, 28 which are spaced from each other in the longitudinal direction of the housing 9 are formed on the housing portions 9a, 9b. Moreover, a control curve 41 for the tilting portion 36 is formed on the housing 9, the control curve 41 includes a first section 41a and a second section 41b which are connected to each other by the apex 44. For releasably fastening the damping device 37, resilient holders 50a and 50b are provided on the housing 9, wherein the cylinder 37a can be snapped to the holders 50a, 50b. The spring device 29 is connected by a first fastening location 39a to the housing 9 and by way of a second fastening location 39b to the spring holder 33 which is displaceably guided via a bolt 45 along an elongated hole 46 of the slider 47. A tilting portion 36 having a tooth arrangement 42 is connected to the spring holder 33, the tooth arrangement 42 interacts with a tooth arrangement 43 (not shown) of the slider 47. The entrainment member 30 is hingedly connected to the slider 47 by a pivoting axis 48. The entrainment member 30 has guide elements 31 by which the entrainment member 30 can be guided along the guide path 26 of the housing 9 and by which the entrainment member 30 can be releasably locked to the two bends 27 and 28. The entrainment member 30 has a notch 38 for releasably coupling the movable furniture part 3. The switch element 15 which is movable between to switching positions is arranged on a bearing element 49 and is being pushed into the first switching position by the spring element 32 in which the first bend 27 is being blocked. In this way, a longer retraction path for the entrainment member 30 is provided by default (i.e. without the attachment of the ejection device 8). The switch element 15 being separate from the entrainment member 30 can also have a receiving means for a tool, wherein the switch element 15 can be switched between the two switching positions by an actuation of the tool. The switch element 15 can also have a two-part or a multi-part configuration, wherein a first part to be actuated is motionally coupled to a second part for blocking the bend 27.
[0053] FIG. 8 shows very schematic the progression of the guide path 26 which, starting from the retracted position 51 of the entrainment member 30, includes a linear displacement path 26a and at least two bends 27, 28 being spaced from each other in longitudinal direction for releasably locking the entrainment member 30. In the first switching position of the switch element 15, the first bend 27 is blocked so that the entrainment member 30, when the spring device 29 is being tensioned, runs into the second bend 28. The control curve 41 for guiding the tilting portion 36, on the contrary, includes a first section 41a and a second section 41b which are connected to each other by the apex 44. When now two bends 27, 28 being spaced from are provided, the control curve 41, theoretically, would need an additional third section 41c which is spaced from the second section 41a in longitudinal direction. Moreover, the run-in of the tilting portion 36 into the first section 41a or alternatively into the third section would need to be controlled by an additional switch element 15a. However, by the provision of the second section 41b adjoining the first section 41a, the third section 41c as well as the additional switch element 15a can be omitted, so that a single switch element 15 is sufficient both for the selection of the bends 27, 28 and the corresponding length of the control curve 41. With both displacement paths of the entrainment member 30 into the bends 27, 28, the force reduction is proportional to the path. In the first switching position of the switch element 15 in which the first bend 27 is blocked, the tilting portion 36 can be guided along the first section 41a and the second section 41b. On the contrary, when the switch element 15 is in the second switching position in which the first bend 27 is cleared, the tilting portion 36 can exclusively be guided along the first section 41a of the control curve 41.
[0054] FIG. 9a shows a furniture drive 7 in a slightly modified embodiment, wherein the switch element 15 is laterally arranged besides the guide path 26 and, in the first switching position, deflects the entrainment member 30 in such a way that a run-in of the entrainment member 30 into the first bend 27 is prevented. Contrary to the previous embodiment in which the switch element 15, in the first switching position, partially or fully blocks the first bend 27 in order to prevent a run-in of the entrainment member 30 into the first bend 27, the movable switch element 15, with this embodiment, is now located laterally besides or outside of the guide path 26. The switch element 15 includes a movable protrusion which, in the first switching position (FIG. 9a) protrudes from a base 53 of the housing 8 and, in the second switching position, runs substantially flush with the base 53 of the housing 9 and therewith allows a movement of the entrainment member 30 into the first bend 27. Also in this case, as already explained, it can be provided that the switch element 15 can be switched between the first switching position and the second switching position by mounting and demounting an ejection device 8 which is to be retrofitted to the housing 9 of the furniture drive 7.
[0055] FIG. 9b shows the furniture drive 7 with the switch element 15 in the second switching position, so that the entrainment member 30, upon an extension movement towards the opening direction, runs into the second bend 27. As in the previous embodiments, the entrainment member 30, upon an extension movement towards the opening direction 12, runs into the first bend 27 (when the switch element 15 is in the second switching position), because the entrainment member 30 is being pressed by the force of the spring device 29 against the side wall 54 of the guide path 26 with a force running transverse to the opening direction 12.
[0056] FIG. 10a-10c show a partial section of the furniture drive 7 with different positions of the entrainment member 30 along the extension direction 12. According to FIG. 10a, the switch element 15, which is movably arranged on the housing 9, is in the first switching position in which a run-in of the entrainment member 30 into the first bend 27 is prevented. The movable switch element 15 is thereby arranged laterally besides the guide path 29 and deflects, in the first switching position, the entrainment member 30 such that a run-in of the entrainment member 30 is not possible upon an extension towards the extension direction 12. Thus, the entrainment member 30—as shown in FIG. 10b—is diverted past the first bend 27, whereupon the guide element 31 of the entrainment member 30 runs into the second bend 28 and thereby pivots the entrainment member 30 about the pivoting axis 48. By the pivoting movement of the entrainment member 30 about the pivoting axis 48, the movable furniture part 3 is being decoupled from the entrainment member 30 and can be moved further towards the extension direction 12. When the movable furniture part 3 is again being closed, the entrainment member 30 is released from the locked position relative to the second bend 28 and is being pulled, together with the movable furniture part 3, into the closed position by the force of the spring device 29.
[0057] FIGS. 11a and FIG. 11b each show a partial section of the furniture drive 7, wherein the switch element 15 being movably mounted to the housing 9 is located in the second switching position. In the second switching position, the switch element 15 is countersunk so far that the switch element 15 does not hinder a movement of the entrainment member 30. As the two guide elements 31 of the entrainment member 30 are being pressed against the side wall 54 of the guide path 26 by the force of the spring device 29, the entrainment member 30 runs into the first bend 27 upon a movement towards the extension direction 12. By a run-in of the guide elements 41 into the first bend 27, the entrainment member 30 is being pivoted about the pivoting axis 48 and releases the movable furniture part 3. FIG. 11b shows the entrainment member 30 being releasably locked to the first bend 27. By the two guide elements 31 protruding transversely from the entrainment member 30, the entrainment member 30 can be guided between two housing portions 9a, 9b (FIG. 7) of the housing 9 on both sides, whereby an undesired tilting of the entrainment member 30 between the two housing portions 9a, 9b of the housing 9 is prevented.
[0058] FIG. 12a-12c show the mounting of the ejection device 8 to the furniture drive 7, whereby by way of said mounting, the switch element 15 can be switched, starting from the first switching position, into the second switching position. The switch element 15 is movably mounted to the housing 9 and, in the shown embodiment, is configured as a rocker which is pivotally mounted about a vertical extending axis 55 in the mounting position. The switch element 15 is held by a predetermined force of the spring element 32 (for example in the form of a leaf spring) in the first switching position, so that the entrainment member 30, when the ejection device 8 is not mounted, can be locked to the second bend 28 of the guide path 26, wherein a longer retraction path for the entrainment member 30 with a greater retraction force of the spring device 29 can be provided. The housing 9 of the furniture drive 7 has at least one guide 56 extending in the longitudinal direction of the housing 9 in which a limb 59 of the ejection device 8 can be inserted. The ejection device 8 is thus pushed into the guide 56 by way of the limb 59, wherein the switch element 15 is being pivoted about the vertically extending axis 55 and therewith switched into the second switching position, so that the entrainment member 30 runs into the first bend 27. In this way, a shorter retraction path of the entrainment member 30 with a reduced retraction force of the spring device 29 is available. When the limb 59 is fully pushed into the guide 56, then at least one latching element 57 (preferably a knob) of the housing 9 of the furniture drive 7 can be releasably latched to a corresponding recess 58 of the limb 58 of the ejection device 8. In this way, the ejection device 8 is fixed with a predetermined holding force in a longitudinal direction of the housing 9.
