Abstract
A device for holding, braking or accelerating a movable furniture part includes a driver which is movable along a guide path between at least two end positions, and an activator which can be brought into engagement with the driver at a receptacle in order to hold, brake or accelerate a movable furniture part, and can be decoupled from the driver at one of the two end positions. The activator is movable through a guide in the longitudinal direction and is resiliently mounted in a direction perpendicular to the longitudinal direction via a spring element and is movable along a run-up slope on the driver in order to latch on the receptacle behind the run-up slope, wherein the activator can be pretensioned in an engagement position on the driver in the event of a force in the longitudinal direction towards the driver.
Claims
1: A device (5) for holding, braking or accelerating a movable furniture part, comprising: a driver (16) which is configured to be moved along a guide path between at least two end positions, and an activator (12) which is configured to be brought into engagement with the driver (16) at a receptacle (17) in order to hold, brake or accelerate a movable furniture part (3), and is configured to be decoupled from the driver (16) at one of the two end positions, wherein the activator (12) is movable through a guide in a longitudinal direction and is resiliently mounted in a direction perpendicular to the longitudinal direction via a spring element (13) and is movable along a run-up slope (18) on the driver (16) in order to latch on the receptacle (17) behind the run-up slope (18), wherein the activator (12) is configured to be pretensioned in an engagement position on the driver (16) in the event of a force in the longitudinal direction towards the driver (16).
2: The device according to claim 1, wherein with an increasing force in the longitudinal direction on the activator (12), the spring element (13) biases the activator (12) more strongly towards the driver (16).
3: The device according to claim 1, wherein the activator (12) is configured to be moved from an initial position with a relaxed spring element (13) perpendicular to the longitudinal direction in opposite directions.
4: The device according to claim 1, wherein the spring element (13) is designed as a leaf spring and at least one leg (14, 15) of the leaf spring extends from the activator (12) essentially in the longitudinal direction counter to the direction of action of the force in the longitudinal direction.
5: The device according to claim 4, wherein the at least one leg (14, 15) has at least one section which is aligned at an angle to the longitudinal direction.
6: The device according to claim 1, wherein the spring element (13) is web-shaped and/or U-shaped.
7: The device according to claim 4, wherein at least one stop (20, 30) is arranged on the spring element (13), which stop limits the deflection of the leg (14) carrying the activator (12) on the spring element (13).
8: The device according to claim 7, wherein the stop (20, 30) is formed integrally with the spring element (13).
9: The device according to claim 1, wherein the activator (12) and the spring element (13) are manufactured in one piece.
10: The device according to claim 1, wherein the activator (12) is produced by forming a spring sheet or a wire.
11: Closing A closing system for a piece of furniture (1) with a plurality of drawers (3), wherein at least one drawer (3) is held in a closed position by means of a device according to claim 1.
12: A piece of furniture (1) with a furniture body (2) and at least one movable furniture part, which is guided or held on the furniture body (2) via a device (5) according to claim 1.
13: The piece of furniture according to claim 12, wherein a strip (6) with several housings (7), each with a guide track for a driver (16), is fixed to the furniture body (2) and each driver (16) on a housing (7) is configured to be brought into engagement with an activator (12) on a running rail (8) of a pull-out guide (4) or a drawer (3).
Description
[0015] The invention is explained in more detail below with reference to several embodiments with reference to the accompanying drawings, whereby:
[0016] FIG. 1 shows a perspective view of a piece of furniture;
[0017] FIG. 2 shows a view of the piece of furniture in FIG. 1 without the furniture body;
[0018] FIG. 3 shows a detailed view of a part of the device for holding, braking or accelerating a movable furniture part on the piece of furniture;
[0019] FIGS. 4A and 4B show two views of a pull-out guide for mounting the drawers of FIG. 2;
[0020] FIGS. 5 to 7 show more detailed views of the device in FIG. 3 when coupling the active door to the driver;
[0021] FIGS. 8 to 11 show multiple views of the device of FIG. 3 when coupling the activator to the driver when the driver is already in the closed position;
[0022] FIGS. 12 to 14 show several views of the device of FIG. 3 when the drawer is locked in the closed position by the device and a pulling force is applied;
[0023] FIGS. 15A to 15T show several views of different embodiments of an activator with a spring element;
[0024] FIG. 16 shows a perspective view of an activator of a device mounted on the drawer, and
[0025] FIGS. 17A and 17B show two views of the activator of the device of FIG. 16.
[0026] A piece of furniture 1 comprises a furniture body 2 on which a plurality of drawers 3 are movably arranged. In FIG. 2, the piece of furniture 1 is shown without the furniture body 2, and it can be seen that the drawers 3 can each be moved via pull-out guides 4, which are fixed to the furniture body 2.
[0027] A device 5 for holding, braking or accelerating a drawer 3 is arranged in the furniture body, wherein in the illustrated embodiment example the device 5 is designed as a closing system, in which the device 5 holds the drawers 3 in the closed position as soon as one of the drawers 3 is arranged in an open position. The device 5 comprises a vertical strip 6, on which several housings 7 are arranged.
[0028] FIG. 3 shows a detailed view of a housing 7 and a drawer 3. The drawer 3 is arranged on a movable running rail 8 of a pull-out guide 4 and can be held in a closed position by the device 5.
[0029] FIGS. 4A and 4B show a pull-out guide 4 that has a stationary guide rail 9 that can be fixed to the furniture body 2 and on which the movable running rail 8 is held so that it can move. Between the guide rail 9 and the running rail 8, a pull-out extending middle rail 10 is provided, which can optionally be omitted. A hook 11 is formed on the back of the running rail 8 and serves to secure the drawer 3. Adjacent to the hook 11, an activator 12 in the form of a pin is provided, which is resiliently mounted on a spring element 13. The spring element 13 is designed as a leaf spring and comprises two legs 14 and 15, which are connected to each other in an essentially U-shape via a bend 19. The activator 12 is held on the leg 14, while the leg 15 is fixed to the running rail 8, for example by welding. Depending on the design of the spring element 13, other detachable or non-detachable joining methods or material and form-fit connections can also be used.
[0030] In FIGS. 5A and 5B, the device 5 is shown in a position in which the activator 12 is arranged on an input side of the housing 7 in order to be moved into a closed position. A guide track for a movable driver 16 is formed on the housing 7, which has a receptacle 17 for inserting the activator 12. The driver 16 is in a pivoted end position, and the activator 12 can move into the receptacle 17 in order to move the driver 16 from the end position along the guide track on the housing 7. The activator 12 is initially moved against a run-up slope 70 on the housing 7 and can thus raise the housing 7 slightly relative to the strip 6.
[0031] In FIGS. 6A and 6B, the activator 12 has been moved slightly further and is arranged in the receptacle 17 of the driver 16. The activator 12 can now pivot the driver 16 and move it to a second end position, which corresponds to the closed position.
[0032] In FIGS. 7A and 7B, the activator 12 with the driver 16 is arranged in the closed position. From this position, in the unlocked position of the device 5, the drawer 3 with the running rail 8 and the activator 12 can be moved again in the opening direction, whereby the driver 16 is then moved again into the first end position as shown in FIG. 5. If the device 5 is in a locked position because another drawer 3 is arranged in the open position, the drawer shall be held in the closed position by the device 5.
[0033] FIGS. 8A and 8B show a position in which the driver 16 is already arranged in the closed position, while the running rail 8 and the activator 12 are arranged in an open position. This can occur, for example, due to incorrect actuation or during the assembly of the drawers 3. In order to nevertheless enable the activator 12 to engage with the driver 16, a run-up slope 18 is formed on the driver 16, which is arranged at a slight angle to the longitudinal direction of the running rail 8. The activator 12 is moved further with the running rail 8 in the closing direction, as shown in FIGS. 9A and 9B, so that the activator 12 comes to rest with an end edge against the run-up slope 18 and is then moved perpendicular to the longitudinal direction against the force of the spring element 13.
[0034] As shown in FIGS. 10A and 10B, the activator 12 has been moved perpendicular to the longitudinal direction of the running rail 8, whereby the spring element 13 is moved together. As a result, the activator 12 moves towards the running rail 8 and can thus be moved along the run-up slope 18. The activator 12 then enters the receptacle 17 on the driver 16 behind the run-up slope 18, as shown in FIGS. 11A and 11B. The activator 12 can thus be engaged on the driver 16 and now move it again in the opening direction along the guide track if required.
[0035] In FIGS. 12A and 12B, the device 5 is again shown in a closed position, in which the activator 12 is inserted on the spring element 13 in the receptacle 17 of the driver 16. The device 5 shall now lock the activator 12 because another drawer 3 of the piece of furniture 1 is already arranged in an open position.
[0036] If a force is now exerted on the drawer 3 in the opening direction, i.e. in the longitudinal direction of the running rail 8 as shown by the arrow in FIG. 13A, the spring element 13 presses on the activator 12, which is prevented from opening by the driver 16. For this purpose, the housing 7 can be moved vertically along the strip 6, or a locking element can block the movement of the driver 16. If the force on the running rail 8 is increased, the position shown in FIGS. 14A and 14B is obtained. The activator 12 is pressed towards the driver 16 by the spring element 13, as the running rail 8 in FIG. 14A is pulled to the left and the spring element 13 attempts to spread open. This further increases the engagement of the activator 12 with the driver 16 and thus enables high holding forces to be provided for secure locking of the drawer 3. The leg 14, which in the relaxed position has a section parallel to the longitudinal direction and a section inclined to the longitudinal direction, for example at an angle of between 5? and 15?, is subjected to pressure and presses the activator 12 against the driver 16.
[0037] The activator 12 can thus be moved from the relaxed position of the spring element 13 perpendicular to the longitudinal direction of the running rail 8, once to pass over the run-up slope 18 (FIG. 10A), whereby the activator 12 is then moved towards the running rail 8, and once in the opposite direction (FIG. 14A), whereby the activator 12 is then moved towards the driver 16.
[0038] FIG. 15A shows an embodiment example of an activator 12 on a spring element 13, which is designed as in the previous embodiment example, wherein the spring element 13 has a first leg 14 for fixing the activator 12 and a second leg 15 for fixing it to a running rail 8. In addition, the spring element 13 has a stop 20 to limit the movement of the activator 12 at least outwards, i.e. towards the driver 16. The stop 20 is formed on an angled web 22, which extends through an opening 21 in the leg 14. The stop 20 prevents the activator 12 from pressing too strongly against the driver 16 in the event of a strong tensile load on the running rail 8 (FIG. 14A), so that the spring element 13 could deform plastically or the driver 16 could be damaged. Furthermore, the stop 20 can prevent the leg 14 from twisting relative to the leg 15 and thus prevent the activator from deflecting upwards and/or downwards in this case. This lateral fixation becomes particularly clear in the following embodiments with double stop 30.
[0039] FIG. 15B shows a modified design of the stop 20, which is formed integrally with the leg 15 on a modified web.
[0040] In FIG. 15C, a stop 30 is provided which limits the movement of the leg 14 with the activator 12. The stop 30 is formed integrally with the leg 15 as an angle.
[0041] FIGS. 15D to 15L show different embodiments of a U-shaped curved spring element, on each of which at least one integrally formed stop is provided to limit the movement of the activator 12 on the leg 15. The skilled person can realize such a stop in different ways.
[0042] FIG. 15M shows a modified embodiment of a spring element, which is designed as a web and has a first section 14a parallel to the longitudinal direction, to which the activator 12 is fixed. A second section 14b is inclined to the longitudinal direction, and a third section 14c is aligned parallel to the longitudinal direction and fixed to the running rail 8. The section 14c is fixed closer to the rear end of the running rail 8 than the activator 12 is arranged in order to cause the activator 12 to be pressed in towards the driver 16 when the running rail 8 is subjected to a tensile load. FIGS. 15N to 15T show variants of a spring element with which this function can also be realized, i.e. with which the activator 12 is pressed against the driver 16 when a tensile load is applied to the running rail.
[0043] FIG. 16 shows a modified version of an activator 12 with a spring element 13, which is not fixed to the running rail 8 but to the drawer 3. For this purpose, a holder 40 is provided on the drawer 3, which is U-shaped and in which the U-shaped spring element 13 with the activator 12 is arranged.
[0044] FIGS. 17A and 17B show the U-shaped holder 40, in which the spring element 13 with the activator 12 is accommodated. Two dowels 41 are formed on the holder 40, which engage in openings on the drawer 3 in the mounted position. The activator 12 therefore does not have to be fixed directly to the running rail 8, but can also be held on a drawer 3. Alternatively, the spring element can also be attached directly, by gluing or latching and/or by means of other connecting elements to the movable furniture part in a detachable or non-detachable manner.
[0045] In the illustrated embodiment example, the driver 16 and the activator 12 are part of a locking system that ensures that only one of the drawers 3 can be in an open position at a time in order to prevent the piece of furniture 1 from tipping. However, it is also possible to use the activator 12 and the driver 16 with a self-closing mechanism or an ejector device. In either case, the activator 12 is resiliently mounted on a spring element 13 in order to reinforce the engagement with the driver 16 in the event of a tensile load.
LIST OF REFERENCE SYMBOLS
[0046] 1 Piece of furniture [0047] 2 Furniture body [0048] 3 Drawer [0049] 4 Pull-out guide [0050] 5 Device [0051] 6 Bar [0052] 7 Housing [0053] 8 Running rail [0054] 9 Guide rail [0055] 10 Middle rail [0056] 11 Hook [0057] 12 Activator [0058] 13 Spring element [0059] 14 Leg [0060] 14a, 146, 14c Section [0061] 15 Leg [0062] 16 Driver [0063] 17 Receptacle [0064] 18 Run-up slope [0065] 19 Bend [0066] 20 Stop [0067] 21 Opening [0068] 22 Web [0069] 30 Stop [0070] 40 Holder [0071] 41 Dowel [0072] 70 Run-up slope
