• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Arrangement (1) for moving a movable furniture part (2), in particular a furniture part pivotally mounted about an axis, with at least one ejection device (3) for ejecting the movable furniture part (2) from a closed position into an open position, wherein the at least one ejection device ( 3) comprises at least one energy storage device (4), and a loading device (5) for loading the at least one energy accumulator (4) by an opening or closing movement of the movable furniture part (2), wherein between the at least one ejection device (3) and the loading device (5) at least one Bowden cable (6) for transmitting power when loading the at least one force accumulator (4) is arranged.
    公开号:AT512156A4
    申请号:T617/2012
    申请日:2012-05-25
    公开日:2013-06-15
    发明作者:
    申请人:Blum Gmbh Julius;
    IPC主号:
    专利说明:

    1 72013 31 / gb
    The invention relates to an arrangement for moving a movable furniture part, in particular a pivotally mounted about an axis furniture part, with at least one ejection device for ejecting the movable furniture part from a closed position to an open position, wherein the at least one ejection device comprises at least one energy storage, and a charging device for Loading the at least one energy storage by an opening or closing movement of the movable furniture part.
    Such arrangements are e.g. from the application A 322/2012 of the Applicant known earlier having a priority date You have relatively extensive transmission mechanisms arranged between the at least one ejection device and the loading device for transmitting power during loading of the at least one force accumulator. Thus, e.g. Intermediate floors or deflection devices required that take up a lot of space. This is also unfavorable from an aesthetic point of view.
    Object of the present invention is to avoid the disadvantages described above and to provide a comparison with the prior art improved arrangement for moving a movable furniture part.
    To solve this problem, the arrangement provides that between the at least one ejection device and the loading device is arranged at least one Bowden cable for transmitting power when loading the at least one force accumulator.
    The term Bowden cable is a fixed term, e.g. is defined by DIN 71986. A person skilled in the art understands this to mean a movable machine element for transmitting a mechanical movement or a tensile force. Essentially, a Bowden cable consists of a so-called Bowden cable core (e.g., a steel wire or wire rope) surrounded by a flexible but compression-resistant sheath. The shell acts as a mechanical guide and as
    Counter bearing for the transmitted tensile forces, so that the Bowden cable can transmit forces via bends.
    An advantage of the use of a Bowden cable in connection with the subject matter of the present invention is that it occupies relatively little space and can be laid flexibly. It is also possible to use it e.g. in a groove or the like to the outside "to hide".
    According to an advantageous embodiment of the invention, it is provided that the loading device comprises at least one adjusting body and at least one adjusting contour, wherein the at least one actuating body runs at least during one part of the opening or closing movement of the at least one adjusting contour. Due to the interaction of the at least one adjusting body and the at least one adjusting contour different kinematic conditions can be achieved. In particular, it is also possible to realize a neutral region in which the at least one adjusting body and the at least one adjusting contour move relative to one another in such a way that the at least one energy store is essentially not charged. Another great advantage, which arises from the interaction of the at least one actuating body and the at least one control contour, is the fact that the transitions between charging and non-charging of the energy accumulator can be made very gentle.
    Furthermore, it can preferably be provided that the at least one ejection device comprises at least one movable - preferably linearly movable - and by the at least one energy storage acted upon ejection element. It is advantageous if the at least one ejection device comprises at least one locking device for releasably locking the at least one ejection element against the action of the at least one energy accumulator. The locking device can in this case e.g. be realized by means of a rocker arm. An alternative embodiment of the locking device, which is not excluded from the idea of the invention, may be e.g. also based on a heart curve shaped locking contour.
    Protection is also desired for a piece of furniture with a furniture body, at least one furniture part movably mounted in or on the furniture body, and at least one arrangement according to the invention for moving the at least one furniture piece. This at least one furniture part may be both a furniture part that performs a rotary movement (this is the case with a furniture door or a furniture flap, for example) and a furniture part that is translationally movable (for example a drawer).
    The use of the arrangement according to the invention is particularly suitable for wall cabinets which have an outer support structure and an inner body that can be raised and lowered with respect to this support structure. Here, the at least one Bowden cable can be arranged with the inner body raised up substantially between the inner carcass and the furniture body, so that it is not visible to the outside.
    Further advantageous embodiments of the invention are defined in the dependent claims and together with further details and advantages of the invention in the context of the following description of the figures with reference to the figures. Showing:
    Fig. 1 is a schematically illustrated exploded view of a
    Embodiment of the arrangement according to the invention,
    Fig. 2-6 shows the sequence of several schematically illustrated side views of the embodiment of the inventive arrangement for illustrating the ejection process of a furniture flap and the subsequent charging process for loading the force accumulator of the ejection device, and
    Fig. 7a - 7e the sequence of several schematically illustrated cross-sectional views of the ejection device to illustrate their mode of action.
    It can be seen from the exploded view seen in FIG. 1 that the ejection device 3 of the arrangement 1 comprises a movable, more precisely a linearly displaceable, and can be acted upon by a force accumulator 4 in the form of a spring
    Ejection element 12 comprises, wherein this ejection element 12 has two over a limited distance 14 (see Fig. 7a to 7e) against each other movable parts 15 and 16, and wherein between the two parts 15 and 16 a compression spring 17 is arranged. The ejection element 12 is arranged linearly displaceable in a cuboid housing 33. Another essential component of the ejection device 3 is a locking device 18 for releasable locking of the ejection element 12 against being acted upon by the force accumulator 4, wherein this locking device 18 is a locking device that can be released by overpressures against the ejection direction. Core element of the locking device 18 is a rocker arm 19, wherein this rocker arm 19 on one arm has a latching projection 20 and on the other arm an inclined surface 21 (see Fig. 7a to 7e), and is acted upon by a compression spring 22. The exact mode of operation of the ejection device 3 will be explained in more detail with reference to FIGS. 7a to 7e.
    Essential components of the loading device 5 for loading the force accumulator 4 of the ejection device 3 are a base plate 29, on which a setting contour 8 and a two-armed lever 10 are rotatably mounted. The corresponding axes of rotation are provided with the reference numerals 30 and 32, respectively. On an arm of the lever 10, a control body 7 is provided in the form of a pressure roller, said steep body 7 runs on the control contour 8. A characteristic feature of the control contour 8 is a neutral section 9, in which the control element 7 and the control contour 8 move relative to one another such that the force accumulator 4 of the ejection device 3 is not charged (see also FIG.
    For power transmission when loading the force accumulator 4 of the ejection device 3, a Bowden cable 6 is arranged between the ejection device 3 and the loading device 5. The Bowden cable 6 comprises a Bowden cable core 34, which is movably guided in a flexible outer shell 35. A first end 11 of the Bowden cable core 34 of the Bowden cable 6 is in operative connection with that arm of the two-armed lever 10, which does not have the adjusting body 7. The second end 13 of the Bowden cable core 34 of the Bowden cable 6 is connected to the rear part 16 of the ejection element of the ejection device 3.
    Finally, the arrangement 1 comprises an actuator 23 for a furniture flap 2 (cf, for example, Fig. 2), this actuator 23 being connected to the furniture flap via an actuating arm 26 and being in operative connection with the loading device 5. For this purpose, the base plate 29 is mounted laterally on the actuator 23. About a pin 31 is a movement coupling between the actuator arm 26 of the actuator 23 - and thus the furniture flap, which is connected to the actuator arm 26 - and the control contour 8 of the charging device 5 instead. The pin 31 is guided in guide tracks 27 and 28.
    The mode of operation of the preferred exemplary embodiment of the arrangement according to the invention will now be explained in more detail with reference to the further figures:
    FIG. 2 shows a side view of a schematically illustrated piece of furniture 24, wherein this piece of furniture 24 consists of a furniture body 25 and a furniture part 2 movably mounted thereon in the form of a furniture flap 2 pivotally mounted about a horizontal axis. The furniture flap 2 is constructed of two superimposed and hinges (not shown) interconnected part flaps. The upper part flap is articulated on the one hand via hinges (not shown) to the furniture body and on the other hand connected to the Stetlarm 26 of the actuator 23. In the closed state of the furniture flap 2, the lower part flap is loosely against a contact surface of the front part 15 of the ejection element, wherein the ejection element is releasably locked in this state against the action of the force storage device 4 via the above-described locking device.
    Another great advantage of the present invention is that it is possible by means of the arrangement according to the invention to design the movable furniture part 2 without a handle. To open a user only a slight pressure on the front of the furniture part 2, in this case on the lower part of the folding flap flap exercise, whereby the ejection element of the ejection device is unlocked and the furniture part 2 so far pushes that the user the furniture flap 2 to the other Opening can comfortably reach behind. The initialization of this ejection movement is shown in FIG. By exerted on the lower part of the flap slight pressure (indicated by an arrow), the ejection element is suppressed, that is, in the direction of the action of the compression spring 4 opposite direction moves. Thereby, the rocker arm 19 of the locking device is unlocked (see Fig. 7b).
    Subsequently, as shown in Fig. 4, the stored energy in the energy storage 4 is released and thereby the ejection element of the ejection device 3 is ejected. Since the front part 15 of the ejection element bears against the folding flap, it moves it from the closed position into an open position.
    As already stated in the description of FIG. 1, the second end of the Bowden cable core 34 of the Bowden cable 6 is connected to the rear part 16 of the ejection element. This has the consequence that in the ejection movement, the Bowden cable core 34 is pulled through the flexible outer shell 35 a piece. One recognizes that e.g. because the first end 11 of the Bowden cable core 34 of the Bowden cable 6 has moved downwards.
    In the course of the ejection movement, the folding flap 2 has been moved away from the furniture body 25 (typically 5-10 cm) so that the user can now easily grasp the folding flap behind and continue to open it manually (see FIG. 5). The actuator 23, which is connected to the flap 2, serves the purpose of compensating the weight of the furniture flap 2 in each position. This means that the folding cap 2 can be held in any position without falling back.
    From a comparison of Fig. 4 with Fig. 5 it is seen that the adjusting contour 8 rotates during the pivotal movement of the folding flap 2 in the opening direction in a clockwise direction. Due to its special shape, the adjusting contour 8 forces the two-armed lever 10 to execute an evasive rotational movement in the opposite direction of rotation. As a result, the first end 11 of the Bowden cable core 34 of the Bowden cable 6 is pulled upward as a result. In addition, it should be noted that the two arms of the two-armed lever 10 have different lengths, resulting in a favorable balance of power.
    Characterized in that is pulled at the first end 11 of the Bowden cable 34 of the Bowden cable 6, the second end 13 of the Bowden cable core 34 of the Bowden cable 6 and thus the ejection element of the ejector 3 moves in the direction of the original position (see Fig. 2) back. At the same time, the compression spring 4 clamped firmly between the rear part 16 of the ejection element and the housing 33 of the ejection device 3 is charged. Overall, therefore, a part of the force applied by the user to open the folding flap 2 force is used to load the force accumulator 4 of the ejection device 3. The transmission of this partial force takes place by means of the Bowden cable. 6
    The charging of the energy accumulator 4 takes place until the ejection element has again reached its locking position. At this time, the pressure roller 7 is located at the point 36 of the control contour 8 (see Fig. 6). At the same time, the folding flap 2 assumes a middle position between the closed position (see Fig. 2) and the fully opened stiffener (see Fig. 6). In the further opening movement of the folding flap 2 of the energy storage 4 is not charged further. This is achieved by arranging on the control contour 8 a neutral section 9 which is designed in such a way that the distance of the circumferential surface from the pivot point 30 between the points 36 and 37 does not increase any further. In a further rotational movement of the control contour 8, therefore, does not change the position of the two-armed lever 10th
    When closing the folding flap 2, the control contour 8 and the lever 10 perform - in contrast to the opening of the folding flap - opposite movements. However, the first end 11 of the Bowden cable core 34 of the Bowden cable 6 remains in its position because the ejection element is locked.
    Figs. 7a to 7e show a sequence of schematically illustrated cross-sectional views of the ejection device 3. Here, in Figs. 7a and 7e, that state of the ejection device 3 can be seen, in which the ejection element is locked. FIGS. 7b to 7d show those states of the ejection device 3 which it assumes in FIGS. 3 to 5. «* * · * · • ··»
    The locking of the ejection element of the ejection device 3 takes place thereby (see Fig. 7a to 7e), that the right arm of the rear part 16 of the ejection element about the rotation axis 38 rotatably mounted rocker arm 19 via the compression spring 22 with the locking projection 20 form-fitting against a corresponding Edge 39, which is located on the housing 33 of the ejector 3, is pressed.
    The unlocking takes place (see Fig. 7b) that the front part 15 of the ejection element is moved over the distance 14 against the action of the arranged between the parts 15 and 16 compression spring 17 on the rear part 16. At the front part 15 of the ejection element, an inclined surface is arranged (see also Fig. 1), which abuts in the course of unlocking a corresponding inclined surface 21 which is disposed on the second, not the locking projection 20 having, arm of the rocker arm 19. As a result, the oblique surface 21 having arm of the rocker arm 19 down and the opposite arm is moved against the action of the compression spring 22 upwards, and indeed until the locking projection 20 has overcome the arranged on the housing 33 edge 39. Now, the ejection element can move unhindered under the released energy of the energy accumulator 4 in the ejection direction (see Fig. 7c). During the charging process (see Fig. 7a), the ejection element is pulled by the Bowden cable 6 again in the direction of its original position, namely, until the Rastvorsmpng 20 having arm of the rocker arm 19 under the action of the compression spring 22 back into the Can move locking position.
    Innsbruck, on May 24, 2012
    权利要求:
    Claims (17)
    [1]
    1. Arrangement (1) for moving a movable furniture part (2), in particular a furniture part pivotally mounted about an axis, with - at least one ejection device (3) for ejecting the movable one Furniture part (2) from a closed position to an open position, wherein the at least one ejection device (3) comprises at least one energy accumulator (4), and - a loading device (5) for loading the at least one energy accumulator (4) by an opening or closing movement of the movable furniture part (2), characterized in that between the at least one ejection device (3) and the loading device (5) at least one Bowden cable (6) for transmitting power when loading the at least one energy accumulator (4) is arranged.
    [2]
    2. Arrangement (1) according to claim 1, characterized in that the loading device (5) comprises at least one adjusting body (7) and at least one adjusting contour (8), wherein the at least one adjusting body (7) at least during a part of the opening or Closing movement of the at least one control contour (8) expires.
    [3]
    3. Arrangement (1) according to claim 2, characterized in that the at least one adjusting contour (8) has at least one neutral portion (9), in which the at least one adjusting body (7) and the at least one adjusting contour (8) relative to each other move without the at least one energy storage device (4) to load.
    [4]
    4. Arrangement (1) according to claim 2 or 3, characterized in that the loading device (5) has a rotatably mounted two-armed lever (10), wherein the at least one adjusting body (7) on one arm of the lever (10) is arranged and the other arm of the lever (10) is in operative connection with a first end (11) of the at least one Bowden cable (6). * φ • · «« • · »« »2
    [5]
    5. Arrangement (1) according to one of claims 2 to 4, characterized in that the at least one adjusting body (7) is designed as a rolling element - preferably as a pressure roller - or as a sliding body.
    [6]
    6. Arrangement (1) according to one of claims 1 to 5, characterized in that the at least one energy accumulator (4) comprises at least one spring.
    [7]
    7. Arrangement (1) according to one of claims 1 to 6, characterized in that the at least one ejection device (3) comprises at least one movable - preferably linearly movable - and by the at least one energy storage (4) acted upon ejection element (12).
    [8]
    8. Arrangement (1) according to claim 7, characterized in that the second end (13) of the at least one Bowden cable (6) is connected to the at least one ejection element (12),
    [9]
    9. Arrangement (1) according to claim 7 or 8, characterized in that the at least one ejection element (12) at least two over a limited distance (14) against each other movable parts (15, 16), wherein between the two parts (15, 16), preferably at least one spring (17) is arranged.
    [10]
    10. Arrangement (1) according to claim 7 or 8, characterized in that the at least one ejection device (3) at least one locking device (18) for releasably locking the at least one ejection element (12) against the action of the at least one energy accumulator (4). includes.
    [11]
    11. Arrangement (1) according to claim 9, characterized in that it is in the at least one locking device (18) is a releasable by overpressures the ejection direction locking device. 3
    [12]
    12. Arrangement (1) according to claim 9 or 10, characterized in that the at least one locking device (18) comprises at least one rocker arm (19).
    [13]
    13. Arrangement (1) according to claim 11, characterized in that the at least one rocker arm (19) - a latching projection (20), - an inclined surface (21), and / or - by at least one spring (22) is acted upon ,
    [14]
    14. Arrangement (1) according to one of claims 1 to 12, characterized in that the arrangement (1) comprises at least one actuator (23) for the movable furniture part (2), wherein the at least actuator (23) in operative connection with the Loading device (5) is.
    [15]
    15. furniture (24) with a furniture body (25) and at least one in or on the furniture body (25) movably mounted furniture part (2), characterized in that the furniture (24) at least one arrangement (1) according to one of claims 1 to 13 for moving the at least one furniture part (2).
    [16]
    16. furniture (24) according to claim 14, characterized in that the at least one furniture part (2) about a - preferably horizontal - axis is pivotally mounted.
    [17]
    17. Furniture (24) according to claim 14 or 15, characterized in that the furniture (24) has a with respect to the furniture body (25) up and retractable inner body and the at least one Bowden cable (6) at aufgefahrenfahrenem inner body substantially between the inner body and the furniture body (25) is arranged. Innsbruck, May 24, 2012
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    法律状态:
    2020-01-15| MM01| Lapse because of not paying annual fees|Effective date: 20190525 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA617/2012A|AT512156B1|2012-05-25|2012-05-25|Arrangement for moving a movable furniture part|ATA617/2012A| AT512156B1|2012-05-25|2012-05-25|Arrangement for moving a movable furniture part|
    PCT/AT2013/000043| WO2013173853A1|2012-05-25|2013-03-08|Arrangement for moving a movable furniture part|
    EP13716159.2A| EP2855813B1|2012-05-25|2013-03-08|Arrangement for moving a movable furniture part|
    HUE13716159A| HUE030926T2|2012-05-25|2013-03-08|Arrangement for moving a movable furniture part|
    CN201380026983.XA| CN104364456B|2012-05-25|2013-03-08|For the dispensing unit making movable furniture parts move|
    JP2015512965A| JP6009656B2|2012-05-25|2013-03-08|Structure for operating movable furniture parts|
    US14/534,621| US9428950B2|2012-05-25|2014-11-06|Arrangement for moving a movable furniture part|
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