BACKGROUND OF THE INVENTION
The present invention relates to a guide system for guiding a movably-supported first furniture part, in particular a first door wing of a folding door, which is hingedly connected to at least one second furniture part, in particular a second door wing of a folding door. The guide system includes a first guide rail for guiding the furniture parts, a second guide rail for guiding the furniture parts, wherein the second guide rail, in the mounting position, extends transversely relative to the first guide rail, and a guiding device to be connected to one of the furniture parts. The guiding device is movable relative to the first and second guide rail, and can be transferred in a crossing region—seen in a top view onto the first and second guide rail in the mounting position—to and from between the first and second guide rail.
The invention further concerns an arrangement comprising two furniture parts hingedly connected to one another, in particular door wings of a folding door, and a guide system of the type to be described. The invention further concerns an item of furniture having such an arrangement or having such a guide system.
EP 0 433 726 B1 shows a rail arrangement for guiding cabinet doors which are hingedly connected to one another by a vertically extending pivoting axis in the mounting position. By the rail arrangement, the cabinet doors are movably supported between a first position, in which the cabinet doors are aligned coplanar to one another, and a second position, in which the cabinet doors are arranged parallel to one another. The cabinet doors, in the second position, are accommodated within a lateral insertion gap. The rail arrangement includes a first guide rail extending parallel to a front side of the cabinet, and a second guide rail arranged at a right angle to the first guide rail. Moreover, a carrier (reference number 5 in FIG. 1) is provided on which a first cabinet door is hingedly supported, the carrier being displaceable via guide rails in a horizontal direction in a direction parallel to an outer wall of the cabinet, so that the two cabinet doors can be pushed into the insertion gap. A guide element (reference number 7) is arranged on the second cabinet door, the guide element being configured to be displaced along the first guide rail. A drawback of this construction is the fact that the guide element, upon the right-angled transition between the first and second guide rail, can collide with the U-shaped limbs of the guide rails. As a result, the insertion movement of the guide element into the guide rails is impeded.
WO 2016/081963 A1, WO 2016/081961 A1 and DE 297 10 854 U1 disclose guide systems for door wings which are hingedly connected to one another. The door wings, in a folded-together position, can be pushed into a cabinet compartment of the furniture carcass by applying a manual pressure to the door wings. Depending on the size and on the weight of the door wings, a relatively large manual effort is required for this purpose.
It is an object of the present invention to propose a guide system mentioned in the introductory part, thereby avoiding the drawback as discussed above.
SUMMARY OF THE INVENTION
According to the invention, the guide system has a drive device with an entrainment member which is acted upon by at least one force storage member and which is configured to be releasably coupled to the guiding device. The entrainment member is locked in a parking position, and the entrainment member can be unlocked by an entry of the guiding device into the crossing region, so that the entrainment member, together with the guiding device coupled therewith, can be retracted at least over a region along the second guide rail by a force of the at least one force storage member.
By the proposed guide system, at least two furniture parts which are hingedly connected to one another by a pivoting axis, can be moved between a first position, in which the furniture parts are aligned substantially coplanar to one another, and a second position, in which the furniture parts are folded together and thereby adopt a substantially parallel position to one another. The furniture parts, upon a transition from the first guide rail to the second guide rail, can be moved by the drive device along the second guide rail, and, if appropriate, can be retracted at least over a region into a lateral insertion compartment of an item of furniture. The drive device can be configured so as to operate exclusively mechanically, i.e. without electrical drives and without other electrical components, respectively.
BRIEF DESCRIPTION OF THE DRAWINGS
Further details and advantages of the present invention will be explained with the aid of the following description of figures, in which:
FIG. 1a, 1b show a guide system for moving furniture parts hingedly connected to one another, and an enlarged detail view thereof,
FIG. 2a, 2b show the guiding device located on the carrier, and an enlarged detail view thereof,
FIG. 3a, 3b are, respectively, a side view of the guide system, and an enlarged detail view thereof,
FIG. 4a-4d show the retraction process of the carrier in two subsequent positions, and enlarged detail views thereof,
FIG. 5a-5d show continued positions of the carrier starting from FIG. 4a-4d, and enlarged detail views thereof,
FIG. 6a-6d show the ejection process in two subsequent positions, and enlarged detail views thereof,
FIG. 7a, 7b show a possible embodiment for releasably locking between the carrier and the guide rail in two subsequent positions,
FIG. 8a, 8b show continued positions starting from FIG. 7a, 7b,
FIG. 9a, 9b show an item of furniture with the movable furniture parts in a first position and in a second position,
FIG. 10a, 10b show the guide system with the carrier in a first position, and an enlarged detail view thereof,
FIG. 11a, 11b show the guide system with the carrier in a second position, and an enlarged detail view thereof,
FIG. 12a, 12b show the guiding device movably-supported on the guide rail in a perspective view and in a cross-sectional view, and
FIG. 13a-13d show schematic views of the guide system and a chronological sequence of the movements performed by the furniture parts.
DETAILED DESCRIPTION OF THE INVENTION
The general basic principle of the invention will be explained with the aid of FIGS. 13a-13d which, in each case, shows a top view onto the guide system 2. The guide system 2 includes a first guide rail 9 having a longitudinal axis (L) and a second guide rail 13a for guiding at least two furniture parts 3a, 3b which are hingedly connected to one another by a vertically extending pivoting axis 5a. The second guide rail 13a extends transversely, preferably at a right angle, to the first guide rail 9. A guiding device 10 (for example, a running carriage having a plurality of running rollers) configured to be connected to the first furniture part 3a is movably supported along the first guide rail 9 in the longitudinal direction (L). In FIG. 13a, the furniture parts 3a, 3b adopt a first position in which the furniture parts 3a, 3b are aligned substantially coplanar to one another. The guide system 2 comprises a drive device 12 with a movably-supported entrainment member 20 configured to be releasably coupled to the guiding device 10. The entrainment member 20, in the parking position as shown in FIG. 13a, is pre-stressed by at least one force storage member 21. The entrainment member 20, in the shown parking position in which the force storage member 21 is loaded, is releasably locked, so that a movement of the entrainment member 20 in a direction transverse to the longitudinal direction (L) is prevented. This locking of the entrainment member 20 can be effected, for example, by a separate locking device 30 (see FIG. 7a, 7b) or also without the aid of a separate device, in particular by the geometrical provision of a guide track cooperating with the force storage member 21 in order to obtain a self-locking arrested parking position of the entrainment member 20 (for example with the aid of a curved-shaped or edge-shaped section of the guide track, as shown in EP 391 221 B1).
Starting from FIG. 13a, the furniture parts 3a, 3b can be moved about the pivoting axis 5a into an angled position relative to one another, and the guiding device 10 is moved in the longitudinal direction (L) of the first guide rail 9 (FIG. 13b). The furniture parts 3a, 3b can then be moved into a second position in which the furniture parts 3a, 3b are aligned substantially parallel to one another (FIG. 13c). The entrainment member 20 can be unlocked by an entry of the guiding device 10 in a crossing region 45, seen in a top view onto the two guide rails 9, 13a, and can be coupled to the guiding device 10, so that the entrainment member 20, together with the guiding device 10 coupled therewith, can be retracted at least over a region along the second guide rail 13a in the direction (Z) by a force of the discharging force storage member 21 (FIG. 13d). This retraction movement can be effected until reaching a predetermined end position of the furniture parts 3a, 3b or can also be configured as a partial retraction. With such a partial retraction, it is namely possible that the at least one force storage member 21 of the drive device 12, after retracting the entrainment member 20, can be again loaded by a continued manual application of force in the direction (Z) until the end position of the furniture parts 3a, 3b, so that the entrainment member 20 (and therewith the furniture parts 3a, 3b) can be driven, starting from the end position, at least over a region in a direction opposite the direction (Z).
The first guide rail 9, together with the second guide rail 13a, can have a one-piece configuration, and the first guide rail 9 and the second guide rail 13a can be connected to one another by a curved-shaped section. Alternatively, it can be provided that the first guide rail 9 and the second guide rail 13a are configured as separate components which, in the mounting position, can either adopt a same or also a different height position. The crossing region 45 results, in a top view, from that region in which the guide rails 9, 13a or notional extensions of the guide rails 9, 13a intersect with one another (i.e., a region where a longitudinal axis of the first guide rail 9 intersects a longitudinal axis of the second guide rail 13a when viewed from above in a top or plan view).
FIG. 1a shows a possible application of a guide system 2 having a rail arrangement 1 for guiding a first furniture part 3a, preferably in the form of a first door wing of a folding door. The first furniture part 3a is hingedly connected, in the mounting position, by a vertically extending axis 5a to a second furniture part 3b in the form of a second door wing. Optionally, at least two further furniture parts 4a, 4b may be provided which are also connected to one another by a vertically extending axis 5b. The guide system 2 may be used, for example, as a room partitioning system, so that in a living area, a furniture carcass 6 as shown in FIG. 1a in the form of a kitchen block, an office niche, a storage room, a shelf, etc. may entirely be covered by the furniture parts 3a, 3b; 4a, 4b and can be optically separated from the remaining space of the living area. The guide system 2 may also be used for cabinet systems, for example a walk-in closet. The functionality will be explained in the following with the aid of the furniture parts 3a and 3b, and the same applies to the furniture parts 4a, 4b.
The furniture parts 3a, 3b are movably supported by the guide system 2 between a first position, in which the furniture parts 3a, 3b are aligned substantially coplanar to one another and thereby cover the furniture carcass 6, and a second position, in which the furniture parts 3a, 3b are aligned parallel to one another. In the second position, the furniture carcass 6 is freely accessible for a person, and the two furniture parts 3a, 3b can be accommodated in a space-saving manner within an insertion compartment 7a arranged laterally besides the side wall 8a (the left insertion compartment 7b provided for the other furniture parts 4a, 4b is better visible in the drawing).
The rail arrangement 1 includes a first guide rail 9 having a longitudinal direction (L) for guiding the furniture parts 3a, 3b. For example, the guide rail 9 can be fixed to a ceiling of a room, to a wall of a room or also to a furniture carcass 6, preferably parallel to a front side of the furniture carcass 6.
FIG. 1b shows the encircled region of FIG. 1a is an enlarged view. The furniture parts 3a, 3b are connected to a guiding device 10 by which the furniture parts 3a, 3b are movably supported along the guide rail 9. Visible is a carrier 11 separate from the guide rail 9, and the carrier 11 is in the form of a displaceable slider which, in a transfer position, adjoins the guide rail 9 in a longitudinal direction (L) such that the guiding device 10 connected to the furniture part 3a can be transferred to and from between the guide rail 9 and the carrier 11. The guiding device 10 can have at least one first running wheel 15a with a vertical rotational axis for receiving lateral forces, and at least one second running wheel 15b with a horizontal rotational axis for receiving vertical forces. The running wheels 15a, 15b are configured to run along a profiled section 9a of the guide rail 9, and the profiled section 9a extends in the longitudinal direction (L). The carrier 11 also includes a profiled section 11a having a cross-section that corresponds with a form and size of the profiled section 9a in a cross-section, so that the guiding device 10 can be transferred to and from between the guide rail 9 and the carrier 11. For example, the carrier 11 can have at least two guide channels 16a, 16b extending in the longitudinal direction (L) for guiding the running wheels 15a, 15b.
The guiding device 10 configured to be linearly displaced along the guide rail 9, in the shown transfer position of the carrier 11, is still located on the guide rail 9. The carrier 11, in the transfer position, can be releasably locked to the guide rail 9 by a locking device 30 (FIG. 7a, 7b), and that locking can be released by a movement of the guiding device 10 in or on the carrier 11. After the carrier 11 has been unlocked, the carrier 11 can be moved—together with the guiding device 10 and the two furniture parts 3a, 3b—horizontally in a direction (Z) extending transversely, preferably at a right angle, to the longitudinal direction (L) of the guide rail 9 (corresponding to a direction (X)). The carrier 11 is connected to a vertically extending column 14 (i.e., a column extending in a direction (Y)) which is configured to be moved in the direction (Z) and the column 14 can be pulled at least over a region in the direction (Z) by a drive device 12. The column 14 is movably supported in the direction (Z) relative to second guide rails 13a, 13b which, in the mounted condition, are spaced from the first guide rail 9 in a height direction.
FIG. 2a shows the furniture parts 3a and 3b, after having been pivoted to one another starting from FIG. 1a about the vertical axis 5a and now adopt a substantially parallel position to one another. FIG. 2b shows the encircled region of FIG. 2a in an enlarged view, in which the guiding device 10 is now located on the carrier 11 being in the transfer position. A length of the carrier 11 measured in a longitudinal direction (L) can be greater than a width of the guiding device 10 measured in the longitudinal direction (L). Preferably, the profiled section 9a of the first guide rail 9 and the profiled section 11a of the carrier 11 are configured so as to be identical in a cross section and are aligned flush to one another in the transfer position, so that the running wheels 15a, 15b of the guiding device 10 can be moved between the first guide rail 9 and the carrier 11 without a disturbing abutting edge. Starting from the positon shown in FIG. 2b, the carrier 11, together with the guiding device 10 (and therewith the furniture parts 3a, 3b) can be moved by a force of the drive device 12 at least over a region in the direction (Z).
FIG. 3a shows a side view of the carrier 11 located in the transfer position, and the carrier 11 is connected to the vertically extending column 14. The column 14, together with the carrier 11, is displaceable in the direction (Z)—for example by supporting rollers 17a, 17b—along the second guide rails 13a, 13b fixed to the side wall 8a. Arranged on the column 14 is at least one fitting portion 18 for the movable support of the furniture part 3b, and a bearing portion 24 arranged stationarily relative to the column 14. At least one, preferably a plurality of, force storage member(s) 21 of the drive device 12 for retracting the furniture parts 3a, 3b in the direction (Z) is or are anchored to the bearing portion 24. Each of the force storage members 21, in the shown figure, are configured as tension springs engaging on an entrainment member 20 pivotally mounted about a pivoting axis 19 on the column 14. A pressure roller 22 is pivotally arranged on the entrainment member 20, and the pressure roller 22 can be pressed against a concave-shaped control curve 23 of the drive device 12 and can be displaced along the control curve 23 upon a movement of the column 14 in the direction (Z). The control curve 23 includes a retraction section 23a for partially retracting the carrier 11 in the direction (Z), and a tensioning section 23b adjoining the retraction section 23a for loading the force storage members 21. In FIG. 3a, the force storage members 21 are in a tensioned condition, so that the column 14 (and therewith the carrier 11), after unlocking of the carrier 11, can be retracted starting from the first guide rail 9 along the retraction section 23a by a force of the discharging force storage members 21 towards the lowest region of the control curve 23. In this way, the furniture parts 3a, 3b are also partially retracted into the insertion compartment 7a, whereby the furniture parts 3a, 3b are advantageously prepositioned for a continued movement into the insertion compartment 7a in the direction (Z). By a subsequent manual application of pressure to the furniture parts 3a, 3b when aligned parallel to one another, in the region of the pivoting axis 5a, the column 14 (and therewith the pressure roller 22) are further moved in the direction (Z) along the tensioning section 23b of the control curve 23, whereby the force storage members 21 are again loaded. When the pressure roller 22 of the entrainment member 20 reaches the end section 23c of the control curve 23, the force storage members 21 are fully loaded, so that the furniture parts 3a, 3b can be moved starting from a position in which the furniture parts 3a, 3b are fully inserted into the insertion compartment 7a, at least partially in a direction opposite the direction (Z) by the force storage members 21 upon an exit movement. Moreover, a movably-mounted switch member 25 with a setting contour 25c is provided, the switch member 25 being configured to be tilted about a pivoting axis 25a. The pressure roller 22 can be displaced, starting from the aforesaid inserted position, along the setting contour 25c of the switch member 25 upon a movement opposite the direction (Z). As a result, it is not necessary for the pressure roller 22, pressurized by the force storage members 21, to overcome the hindering retraction section 23a of the control curve 23 upon a movement in a direction opposite the direction (Z). Instead, the retraction section 23a can be bypassed by the pressure roller 22, and a force of the force storage members 21 can be maintained over a longer displacement path. FIG. 3b shows the region encircled in FIG. 3a in an enlarged view.
FIG. 4a shows a continued movement of the column 14 (and therewith of the carrier 11) in the direction (Z). Due to the reducing distance between the control curve 23 in the retraction section 23a (FIG. 3a) in relation to the bearing portion 24, the force storage members 21 are relaxed and thereby pull the column 14 and the carrier 11 in the direction (Z). FIG. 4b shows the region encircled in FIG. 4a in an enlarged view. When the pressure roller 22 reaches the lowest region of the control curve 23, the pressure roller 22 is moved onto the tensioning section 23b of the control curve 23 by applying a manual force to the furniture parts 3a, 3b, so that the force storage members 21 are again tensioned and, as a result, can be loaded. The switch member 25 configured to be tilted about the pivoting axis 25a is thereby lifted by the pressure roller 22 (FIG. 4c), so that the pressure roller 22 can pass the switch member 22 in an unhindered manner upon a movement in the direction (Z) and can further be moved along the tensioning section 23b. Due to the eccentric arrangement of the switch member 25 about the pivoting axis 25a, a two-armed lever with lever arms of different lengths is formed, so that the switch member 25 with the longer lever arm loosely rests, preferably exclusively loaded by the force of gravity, against the tensioning section 23b of the control curve 23. If appropriate, the switch member 25 can also be pressed against the control curve 23 by a spring element. FIG. 4d shows the region encircled in FIG. 4c in an enlarged view.
FIG. 5a shows the position of the column 14 right before reaching the fully inserted end position within the insertion compartment 7a. The pressure roller 22 has been moved along the tensioning section 23b of the control curve 23 and is located right before the horizontally extending end section 23c of the control curve 23, so that the column 14 is neither accelerated in the direction (Z) nor in a direction opposite the direction (Z). The force storage members 21 are thereby fully loaded. Arranged on the column 14 is a housing 29 in which a damping device 27 for dampening a closing movement of the column 14 and the carrier 11, respectively, is arranged. In the shown embodiment, the damping device 27 includes two, preferably hydraulic, linear dampers switched in a parallel relationship, and each of the linear dampers has a piston-cylinder-unit. These linear dampers, at the end of the closing movement of the column 14, are configured to hit against a stationary abutment portion 26, whereby the rams of the linear dampers are pressed-in and therewith the movement of the column 14 can be decelerated. Moreover, two ejection devices 28 are arranged in the housing 29, and each of the ejection devices 28 has a lockable energy storage member. The two rams of the ejection devices 28 cooperate with the abutment portion 26 upon a closing movement of the column 14, so that the energy storage members of the ejection devices 28 can be loaded and can be locked in a loaded condition. FIG. 5b shows the region encircled in FIG. 5a in an enlarged view.
FIG. 5c shows the end position of the column 14, and the last closing movement of the column 14 has been decelerated by the damping device 27 and the lockable energy storage members of the ejection devices 28 are in a loaded condition. By overpressing the column 14, starting from its closed position into an overpressing position located behind the closed position, the ejection devices 28 can be moved into an unlocking position. In such a position, the column 14 can be again moved by a force of the ejection devices 28 and, subsequently, by the force of the loaded force storage members 21 in a direction opposite the direction (Z). FIG. 5d shows the region encircled in FIG. 5c in an enlarged view.
FIG. 6a shows a position of the column 14, after ejection of the ejection devices 28 in a direction opposite the direction (Z) has been performed. The pressure roller 22 is thereby located in a position entering the switch member 25, and the pressure roller 22, upon a movement in a direction opposite the direction (Z), is configured to be displaced no longer along the retraction section 23a, but along the setting contour 25c arranged or formed on the switch member 25. In this way, a smoothly running ejection operation of the column 14 and of the furniture parts 3a, 3b, respectively, can be brought about, without substantial oscillations in a force of the force storage members 21, and the force of the force storage members 21 can be maintained over a longer displacement path. FIG. 6b shows the region encircled in FIG. 6a in an enlarged view, in which the pressure roller 22 moves onto the setting contour 25c of the switch member 25 upon a movement of the column 14 in a direction opposite the direction (Z), without the pressure roller 22 needs to be displaced along the trough portion of the retraction section 23a.
FIG. 6c shows a continued movement of the column 14 in a direction opposite the direction (Z), in which the pressure roller 22 has been moved along the setting contour 25c of the switch member 25 and in which the switch member 25 has been pivoted about the pivoting axis 25a in a counterclockwise direction. By this pivoting movement of the switch member 25 about the pivoting axis 25a, the pressure roller 22 is again returned to the initial region of the retraction section 23a. After the pressure roller 22 has again abandoned the setting contour 25c of the switch member 25, the switch member 25 pivots about the pivoting axis 25a back into its initial position, i.e. in that position in which the longer lever arm of the switch member 25, in turn, rests against the control curve 23 due to its heavier weight.
FIG. 7a and FIG. 7b show a possible embodiment of a locking device 30 for locking the carrier 11, in the transfer position or in a parking position, to the first guide rail 9, and the locking device 30 is configured to be unlocked by a movement of the guiding device 10 in or on the carrier 11. The first furniture part 3a is connected to the guiding device 10 configured to be moved in the longitudinal direction (L) along the first guide rail 9. A displacement piece 33 is motionally coupled to the guiding device 10, so that upon a movement of the guiding device 10 along the first guide rail 9, the displacement piece 33 also moves therewith. The displacement piece 33 has a protrusion 33a which, upon a movement in or on the carrier 11, is configured to cooperate with a counterstop 35a of a coupling lever 35 (FIG. 7b). The coupling lever 35 is pivotally mounted about a pivoting axis 31, and a locking element 35c can be moved by the coupling lever 35. The locking element 35c engages into a corresponding recess 34 of the first guide rail 9 in the locking position and thereby locks the carrier 11 relative to the first guide rail 9. The coupling lever 35, together with the locking element 35c, can have a one-piece configuration. The coupling lever 35 can be pre-stressed in a direction of the locking position by a spring (not shown), so that the carrier 11, upon a movement of the carrier 11 in a direction opposite the direction (Z), can be automatically locked by a force of that spring to the first guide rail 9, and the guiding device 10 can be again transferred back starting from the carrier 11 to the first guide rail 9.
FIG. 8a and FIG. 8b show a continued movement of the displacement piece 33 in the longitudinal direction (L), the displacement piece being motionally coupled to the guiding device 10. The protrusion 33a of the displacement piece 33 cooperates with the counterstop 35a of the coupling lever 35, and therewith pivots the coupling lever 35 about the pivoting axis 31. As a result, the locking element 35c is moved out from the recess 34 of the first guide rail 9, and the carrier 11 is released relative to the first guide rail 9 in order for a movement in the direction (Z) to be enabled. After unlocking has been effected, the carrier 11—together with the column 14—can be retracted at least partially in the direction (Z) by a force of the force storage members 21 of the above-described first drive device 12, and a spacing roller 32 pivotally mounted to the displacement piece 33 for laterally guiding the carrier 11 in a the direction (Z) is configured to run along the side wall 8a.
FIG. 9a and FIG. 9b show an item of furniture 37 according to FIG. 1a, the item of furniture 37 comprises a furniture carcass 36 being stationary during operation and at least two furniture parts 3a, 3b, in particular door wings of a folding door, movably-mounted relative to the furniture carcass 36. The furniture parts 3a, 3b, in the mounted position, are hingedly connected to one another by a vertically extending pivoting axis 5a. The at least two furniture parts 3a, 3b are capable of being moved by the guide system 2 between a first position, in which the furniture parts 3a, 3b are aligned substantially coplanar to each other (FIG. 9b), and a second position, in which the furniture parts 3a, 3b are aligned substantially parallel to each other (FIG. 9a). The item of furniture 37 can have at least one lateral insertion compartment 7a, 7b in which the furniture parts 3a, 3b can be accommodated in the second position. In the shown figure, at least one further furniture carcass 6 is provided which is inserted into the furniture carcass 36 or which is connected to the furniture carcass 36, and the further furniture carcass 6 can be covered by the movable furniture parts 3a, 3b, 4a, 4b in the first position and is accessible in the second position. The furniture parts 3a, 3b can be displaced along the first guide rail 9 by the guiding device 10, while the furniture parts 4a, 4b are movable along the same guide rail 9 by a separate guiding device 10a.
FIG. 10a shows the rail arrangement 1 of the guide system 2, in which the carrier 11 can be locked to the first guide rail 9 by the described locking device 30, and the carrier 11 can be moved from the transfer position in a direction (Z) extending transversely to the longitudinal direction (L). On the side wall 8a, which can partially form the insertion compartment 7a, second guide rails 13a and 13b are fixed which are provided for the displaceable support of the column 14 connected to the carrier 11, and fixed to the side wall 8a is the drive device 12 with the switch member 25 pivotally mounted about the pivoting axis 25a.
FIG. 10b shows the region encircled in FIG. 10a in an enlarged view, in which the carrier 11 has been moved out from the transfer position and has slightly been moved in the direction (Z). For limiting a movement of the carrier 11 in a direction opposite the direction (Z), at least one abutment element 38 is provided on the carrier 11. The abutment element 38 is configured to hit against a counterstop 39 of the first guide rail 9, whereby a further movement of the carrier 11 in a direction opposite the direction (Z) can be prevented. For guiding the carrier 11 and the column 14, respectively, at least one supporting roller 17a can be provided which is configured to run along a running limb arranged or formed on the second guide rail 13a. Visible is the damping device 27 arranged on the column 14, the damping device 27 is provided for dampening a movement of the column 14 within an end position range being remote from the transfer position.
FIG. 11a shows the carrier 11 in a position remote from the first guide rail 9, the position corresponding to a position of the furniture parts 3a, 3b when fully inserted into the insertion compartment 7a. Starting from the position shown in FIG. 11a, the furniture parts 3a, 3b can be moved in a direction opposite the direction (Z) by the ejection devices 28 (not shown here). FIG. 11b shows the region encircled in FIG. 11a in an enlarged view.
FIG. 12a shows a perspective view the guiding device 10 configured to be movably supported on the first guide rail 9. The guiding device 10 can include a plurality of running wheels 15a, 15c, 15d, 15e with vertically and with horizontally extending rotational axes, and the running wheels 15a, 15c, 15d, 15e are configured to run along a profiled section 9a of the first guide rail 9. The guiding device 10 has a holding arm 40, and the fitting portion 41 to be fixed to the furniture part 3a is connected to the holding arm 40 by a vertically extending pivoting axis in the mounting position. The fitting portion 41 includes a plurality of fastening locations 42a, 42b for fixing to the furniture part 3a.
FIG. 12b shows a cross-sectional view of the guiding device 10 configured to be movably supported on the first guide rail 9. The first guide rail 9, in a cross-section, has a plurality of cavities 43 which are separated from each other by profiled limbs. The running wheels 15a, 15c, 15d, 15e are configured to run along the first guide rail 9, and the fitting portion 41 to be fixed to the furniture part 3a is pivotally connected to the holding arm 40 by the vertically extending pivoting axis 44.
LIST OF REFERENCES
1 rail arrangement
2 guide system
3
a, 3b furniture parts
4
a, 4b furniture parts
5
a, 5b vertical pivoting axes
6 furniture carcass
7
a, 7b insertion compartments
8
a, 8b side walls
9 first guide rail
9
a profiled section of first guide rail
10 guiding device
11 carrier
11
a profiled section of carrier
12 drive device
13
a, 13b second guide rails
14 column
15
a, 15b, 15c, 15d, 15e running wheels
16
a, 16b guide channels
17
a, 17b supporting rollers
18 fitting portion
19 pivoting axis of entrainment member
20 entrainment member
21 force storage member
22 pressure roller
23 control curve
23
a retraction section of control curve
23
b tensioning section of control curve
23
c end section of control curve
24 bearing portion
25 switch member
25
a pivoting axis of switch member
25
c setting contour of switch member
26 stationary abutment portion
27 damping device
28 ejection devices
29 housing
30 locking device
31 pivoting axis of coupling lever
32 spacing roller
33 displacement piece
33
a protrusion of displacement piece
34 recess of first guide rail
35 coupling lever
35
a counterstop of coupling lever
35
c locking element of coupling lever
36 furniture carcass
37 item of furniture
38 abutment element of carrier
39 counterstop of first guide rail
40 holding arm of guiding device
41 fitting portion of guiding device
42
a, 42b fastening locations of guiding device
43 cavities of first guide rail
44 pivoting axis of fitting portion
45 crossing region