Actuator for movable furniture parts

专利摘要:
Actuator (4) for moving a movable furniture part (3), comprising: - at least one about an axis of rotation (11) pivotally mounted actuating arm (10) for moving the movable furniture part (3), - a spring device (8) for applying force to the actuating arm ( 10), - a transmission mechanism (9) for transmitting a force from the spring device (8) on the actuating arm (10), wherein the transmission mechanism (9) with the actuating arm (10) motion-coupled actuating part (14), one on the adjusting part (14 ) and one of the spring device (8) loaded pressure piece (16), wherein the pressure piece (16) during a movement of the actuating arm (10) along the adjusting contour (21) is movable, wherein an adjusting device (22) is provided, through which the position of the control contour (21) relative to the control part (14) is adjustable.
公开号:AT515661A4
申请号:T842/2014
申请日:2014-11-21
公开日:2015-11-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

The present invention relates to an actuator for moving a movable furniture part, comprising: - at least one pivotally mounted about an axis pivoting arm for moving the movable furniture part, - a spring device for applying force to the actuating arm, - a transmission mechanism for transmitting a force from the spring device the actuating arm, wherein the transmission mechanism comprises a control part coupled to the actuating arm, a control contour arranged on the actuating part and a pressure piece loaded by the spring device, wherein the pressure piece can be moved along the control contour during a movement of the actuating arm.
Furthermore, the invention relates to an arrangement with a movable furniture part and with an actuator of the type to be described.
In the applicant's WO 2006/005086 A1 an actuator for moving furniture flaps is described, wherein the force of a spring device via a transmission mechanism to a pivotally mounted actuating arm is transferable. The transmission mechanism comprises a loaded by the spring device intermediate lever, which pivots the actuating arm via a pressure roller and a control contour. To adjust the spring force, an attachment point of the spring device is mounted adjustably on the intermediate lever along a threaded spindle. For this purpose, a correspondingly long adjustment is provided, which increases the space of the actuator.
Object of the present invention is to provide an actuator of the type mentioned above with a more compact design.
This is achieved by the features of claim 1. Further advantageous embodiments of the invention are specified in the dependent subclaims.
According to the invention, an adjusting device is provided, by means of which the position of the adjusting contour is adjustable relative to the adjusting part.
In other words, the actuator on a movable actuator, which moves with a movement of the actuating arm with this. At this control part a control contour is arranged or formed, wherein the control contour by a manual actuation of the adjusting device relative to the actuating part, preferably relative to a rotational axis of the actuating part, is adjustable.
The advantage of this design is initially in a reduced adjustment, as is influenced by the setting of the control contour relative to the control directly to the spring preload and / or on the torque curve of the actuator arm. In this way, for example, the arrangement of relatively long threaded spindles, by which an attachment point of the spring device to an intermediate lever is adjustable relative to the axis of rotation of this intermediate lever, be dispensed with. The required adjustment path can therefore - be reduced accordingly in the same coverage force range compared to the prior art - with particularly compact designs of the actuator are possible.
By a brought about by the adjustment - preferably stepless - change the position of the control contour relative to the control part and the force exerted on the actuator arm and thus the force exerted on the movable furniture part torque and / or the torque curve is changeable. Thus, the actuator for different weights, sizes and shapes of furniture flaps, especially for folding flaps with hinged interconnected part flaps, equally usable.
According to one embodiment, it may be provided that the spring device is mounted interchangeably on the actuator so that spring devices with different power factors are optionally to be attached to one and the same actuator. A person can therefore select in the factory or on-site from a set of spring devices that power factor, which corresponds to the weight of the furniture flap and the height of the furniture body. After the selection of the spring device, a precise adjustment of force or fine adjustment can be carried out by operating the adjusting device, which is exactly matched to the respective weight of the flap.
According to one exemplary embodiment, the adjusting device converts a rotational movement of an adjusting wheel brought about by a person into a longitudinal movement of the adjusting contour. The adjustment device is expediently self-locking, so that therefore the adjustment made remains without further action in each position once set. The adjusting device may, for example, a worm gear, cooperating with a toothing helical link, a cooperating with a rack gear or a self-locking eccentric.
Further details and advantages of the present invention will become apparent from the embodiments shown in the figures. It shows or show:
1a, 1b a furniture with a furniture body and a relatively movable furniture part in a perspective view and the furniture body attached to the actuator in a side view, Fig. 2 shows an embodiment of an actuator in a perspective view,
3a, 3b, the control part with the adjusting contour arranged thereon in two different views,
4 shows the actuator in an exploded view,
5a-5c different views of an actuating part with the control contour according to another embodiment,
Fig. 6 shows the embodiment according to FIGS. 5a-5c in one
Exploded
7 shows a diagram of the opening force profiles with differently set layers of the setting contour plotted over the opening angle of the upper partial flap according to FIGS. 1a, 1b
Fig. 1a shows a furniture 1 with a furniture body 2 and a movable furniture part 3 in a perspective view. The movable furniture part 3 is formed in the figure shown as a two-part Hochfaltklappe with two partial flaps 3a and 3b, wherein the upper part flap 3a via first hinges 5a (Fig. 1b) pivotally connected to the cabinet cover 6 and the lower part flap 3b via second hinges 5b articulated the upper part flap 3a is connected. For moving the movable furniture part 3 at least one actuator 4 is mounted on the furniture body 2, wherein the movable furniture part 3 between a closed position (in which the two partial flaps 3a, 3b lie in a common vertical plane and thereby close the furniture body 2) and an open position ( in which the partial flaps 3 a, 3 b occupy an angular position relative to each other as shown in FIG. 1 b) is movably mounted.
Fig. 1 b shows the attached to the furniture body 2 actuator 4 in a side view, wherein the movement support of the movable furniture part 3 in a housing 7, a spring device 8 is arranged. In the illustrated figure, the spring device 8 is designed as a spring assembly with a plurality of parallel-connected coil springs, preferably compression springs. The force of the spring device 8 is transferable via a transmission mechanism 9 to an actuating arm 10, which on the one hand pivotally mounted about an axis of rotation 11 on the housing 7 and on the other hand via a hinge axis 13 pivotally connected to a lower part of the flap 3b fitting part 12 is connected. The actuator 4 but equally for one-piece furniture flaps, in particular for so-called Hochschwenklappen (the flap is pivoted over the furniture body 2 away), folding up (the flap is pivotally mounted about a horizontal axis on the furniture body 2) and high lift flaps (the Flap is raised vertically) can be used.
Fig. 2 shows an embodiment of an actuator 4 with the transmission mechanism 9 in a perspective view. For applying force to the actuating arm 10 (FIG. 1 b), a spring device 8 is provided, which is supported on the housing 7 with a first end region 27. The second end portion 28 of the spring device 8 presses on a pin 20 of a lever 17 which is pivotally mounted about a hinge axis 18 on the housing 7. For tool-free replacement of the spring device 8 with a different power factor of the second end portion 28 of the spring device 8 is pressed by manual pressure against the spring force towards the first end portion 27 so that the spring device 8 compresses and the loose connection between the second end portion 28 and the bolt 20 is releasable. The one-armed lever 17 has a pivot bearing 19 on which a pressure piece 16 - preferably a rotatably mounted pressure roller 29 - is mounted. On the housing 7 is a movable, preferably pivotable about an axis of rotation 11, the actuating member 14 is arranged, wherein the actuating member 14 is coupled to the actuating arm 10 via a coupling device 15 is coupled. Alternatively, it is also possible to form the actuating part 14 in one piece together with the actuating arm 10. On the adjusting part 14, a control contour 21 is arranged or formed, the position of which is adjustable by an adjusting device 22 relative to the actuating part 14, preferably relative to a rotational axis 11 of the actuating part 14. The pressure member 16 in the form of the pressure roller 29 is pressed by the force of the spring device 8 against the control contour 21, wherein the pressure member 16 during a movement of the actuating arm 10 and the movement-coupled adjusting member 14 along the control contour 21 displaceable, preferably unrolled.
The adjusting device 22 may include an adjusting wheel 23, wherein by rotation of the adjusting wheel 23 by means of actuating tool, the position of the adjusting contour 21 relative to the rotatably mounted adjusting member 14 is adjustable. Preferably, a continuous adjustment of the position of the control contour 21 is provided. But it is also possible to set the control contour 21 at two or more predetermined and divergent positions relative to the control part 14. In the illustrated embodiment, the adjusting wheel 23 cooperates with a spur gear 26 of a threaded portion 25 along which a bearing member 24 is adjustably mounted. By an adjustment of the bearing part 24 and the position of the movement-coupled adjusting contour 21 is adjustable.
Fig. 3a shows the pivotally mounted about the axis of rotation 11 actuating member 14 with the control contour arranged thereon 21. The control member 14 has in the embodiment shown two mutually parallel spaced components 14a and 14b. By a brought about by a person rotation of the adjusting wheel 23 of the bearing member 24 is moved along the threaded portion 25, whereby the position of the control contour 21 is adjustable relative to the adjusting member 14.
3b shows the adjusting member 14 according to FIG. 3a without the front component 14a, so that the interaction of the adjusting wheel 23 with the face toothing 26 of the threaded portion 25 and the interaction of the bearing member 24 with the control contour 21 can be seen. With the control contour 21, a guide element 34 is connected to a recess 36, wherein a projection 35 of the adjustable bearing part 24 engages in the recess 36 of the guide element 34. In this way, the position of the control contour 21 relative to the axis of rotation 11 of the adjusting member 14 in the direction of the arrow Y and / or in the direction of the arrow X is adjustable so that thus exerted on the actuator arm 10 torque curve and / or the bias of the spring device 8 changeable is adjustable. For play-free mounting of the threaded portion 25 a loaded by a spring element 31 wedge member 30 is provided which inhibits movement of the threaded portion 25 in the axial direction. For play-free mounting of the control contour 21, at least one further spring element 33 is provided, which presses the guide element 34 of the control contour against a guide 39 (FIG. 4) of the control part 14.
The adjusting contour 21 forms a relative to the axis of rotation 11 of the adjusting member 14 eccentric, the movement behavior of the movable furniture part 3 in terms of power influencing control curve. The control contour 21 is coupled in a motion-coupled manner to the actuating arm 10, the actuating contour 21 also being moved during a pivoting movement of the actuating arm 10. The adjusting contour 21 forms a different radial distance from the axis of rotation 11 of the adjusting member 14, so that a torque in the closing direction is exerted on the actuating arm 10 towards the end of the closing movement. During the opening movement of the actuating arm 10, the pressure piece 16 reaches a vertex (this is that region of the control contour 21 with the greatest radial distance from the axis of rotation 11), so that the spring device 8 - after passing through this dead center - exerts a torque in the opening direction on the actuating arm 10 , The torque in the opening direction can be adjusted so that the movable furniture part 3 automatically stops in any open position. To dampen the closing and / or opening movement of the actuating arm 10 may also be a (not shown here) damper, in particular a fluid damper, are used.
FIG. 4 shows the setting part 14 shown in FIGS. 3 a and 3b together with the setting contour 21 in an exploded view. The components 14a and 14b of the setting member 14 each have a guide 39 along which - by actuation of the adjusting device 22 - a corresponding guide element 34 of the adjusting contour 21 is slidably mounted. In the embodiment shown, the guides 39 have a linear course, so that therefore the setting contour 21 in the direction Y (FIG. 3b), that is transversely to the effective direction X of the spring device 8, is adjustable.
Due to the respective shape and size of the guide 39 (for example, by an arcuate course of the guide 39), the control contour 21 in the direction X and / or Y (Fig. 3b) adjustable, so that the bias of the spring device 8 and / or on the actuating arm 10 acting torque curve is changeable adjustable. The adjusting device 22 with the adjusting wheel 23 and the threaded portion 25 with the spur gear teeth 26 store between first and second holding parts 38a and 38b, the threaded portion 25 is in engagement with an internal thread 42 of the bearing member 24 and wherein the free end portion of the threaded portion 25 in an opening a third holding part 38c protrudes.
Along the threaded portion 25 of the bearing member 24 is adjustably mounted, which engages with a projection 35 in an opening 36 of the control contour 21. A loaded by a spring element 31 wedge member 30 acts on the one hand with an abutment 37, on the other hand with an end face of the threaded portion 25 together, whereby the threaded portion 25 is inhibited from undesirable displacement in the axial direction. By way of further spring elements 33 in the form of plastic clips, the guide element 34 of the setting contour 21 is pressed against the guide 39 of the components 14a, 14b, so that the setting contour 21 bears against the adjusting part 14 without play. About a sleeve 43, the adjusting member 14 is fixed together with the adjusting contour 21 on the housing 7 of the actuator 4.
5a-5c show the setting part 14 (which is formed by the components 14a and the part 14a not visible here) with the setting contour 21 according to a further embodiment. The adjusting contour 21 is formed here by the circumferential surface of three discs 21a, 21b, 21c, which are arranged parallel to one another. The rotatable by the adjusting wheel 23 threaded portion 25 is engaged with an adjustable slide 40 in engagement. On the slide 40 ribs 41 are formed on both sides, which engage respectively in oblique slots 44 of the two outer discs 21a, 21c. By rotating the adjusting wheel 23 by means of actuating tool all three discs 21a, 21b, 21c together in the package on the ribs 41 relative to the axis of rotation 11 can be raised and lowered. 5b shows the raised position of the adjusting contour 21 forming discs 21a, 21b, 21c relative to the axis of rotation 11 of the component 14b. Fig. 5c, however, shows the lowered position of the discs 21a, 21b, 21c relative to the axis of rotation 11 of the actuating part 14. By designed as a leaf spring spring element 31 of the threaded portion 25 is set free of play in the axial direction.
Fig. 6 shows the embodiment according to FIGS. 5a-5c in an exploded view. The adjusting part 14 comprises the components 14a and 14b, which are spaced apart by a plurality of spacers 45 from each other. The adjusting contour 21 is formed by a peripheral surface of the discs 21a, 21b, 21c. The components 14a, 14b each have a guide 39 for displaceably guiding a guide element 34 of the two outer disks 21a and 21c. The middle disc 21b is coupled for movement with the outer discs 21a, 21c. The threaded portion 25 is in threaded engagement with a slider 40, wherein by turning the Verstellrades 23 of the slider 40 along the
Threaded portion 25 is adjustable and wherein the discs 21a, 21b, 21c on both sides on the slider 40 arranged ribs 41, which engage respectively in the oblique slots 44 of the discs 21a and 21c, is adjustably mounted. For low-friction guidance of the ribs 41 along the slots 44 plastic profiles 46 may be provided. By trained as a leaf spring spring element 31 of the threaded portion 25 and the slider 40 is fixed without play on the slots 44, the other spring element 33 presses the guide elements 34 of the discs 21a, 21c backlash against the guides 39 of the parts 14a, 14b. To support the adjusting wheel 23 on the component 14b, two bearing parts 47 are provided which each engage in an annular groove 48 formed between the adjusting wheel 23 and the threaded portion 25, so that the threaded portion 25 on the component 14b is rotatably mounted, but axially immovable. According to the embodiment shown, the adjusting wheel 23 is formed integrally with the threaded portion 25. If appropriate, additional gear elements can be arranged between the adjusting wheel 23 and the threaded portion 25. The threaded portion 25 preferably has a thread with a small pitch, so that the self-locking of the slider 40 on the threaded portion 25 can be improved.
FIG. 7 shows a possible progression of the opening force, force F in Newton [N], of the upper part flap 3a (FIG. 1) plotted over the opening angle, in degrees [deg], with different settings of the setting contour 21 relative to the setting part 14 Curve A represents the (theoretical) ideal course, wherein when opening the partial flap 3a starting from 0 ° opening angle, the required force for opening drops immediately and then goes to zero at about 35 ° opening angle. The curve B represents the maximum setting of the adjusting device 22, that is, the torque exerted on the actuating arm 10 is highest (ie for heavy furniture flaps), wherein the force required for opening initially increases over a small opening angle range and then at about 35 ° opening angle also goes to zero. The curve C shows the average setting (ie for medium-weight furniture flaps) with a reduced relative to the curve B torque. Finally, the curve D shows the minimum setting (ie for lightweight furniture flaps), wherein the torque exerted in the closed position on the actuating arm 10 in comparison to the curves B and C is the lowest. Even if the locking forces of the curves B, C, D at 0 ° opening angle of the upper part of the flap 3a differ slightly, so it is clear from the diagram shown that regardless of the set position of the control contour 21 relative to the control part 14 of the opening force curve of the curves B, C, D is approximately equal.
Under "change in position" of the control contour 21 is also the measure understood that only a portion of the control contour 21 is adjustable by the adjustment device 22, which overall changes the position of the control contour 21 relative to the control part 14. This section of the control contour 21 can for example be movably mounted on a carrier and be mounted pivotably and / or linearly adjustable by the adjusting device 22 relative to this carrier.
Innsbruck, on November 19, 2014

权利要求:
Claims (14)
[1]
1. actuator (4) for moving a movable furniture part (3), comprising: - at least one about an axis of rotation (11) pivotally mounted actuating arm (10) for moving the movable furniture part (3), - a spring device (8) for applying force the actuating arm (10), - a transmission mechanism (9) for transmitting a force from the spring device (8) on the actuating arm (10), wherein the transmission mechanism (9) with the actuating arm (10) motion-coupled actuating part (14), an am Adjusting part (14) arranged adjusting contour (21) and one of the spring device (8) loaded pressure piece (16), wherein the pressure piece (16) during a movement of the actuating arm (10) along the adjusting contour (21) is movable, characterized an adjustment device (22) is provided, by means of which the position of the setting contour (21) relative to the setting part (14) can be adjusted.
[2]
2. Actuator according to claim 1, characterized in that the adjusting device (22) is self-locking.
[3]
3. Actuator according to claim 1 or 2, characterized in that the position of the adjusting contour (21) by the adjusting device (22) is infinitely adjustable.
[4]
4. Actuator according to one of claims 1 to 3, characterized in that the adjusting device (22) converts a person induced by a rotational movement of a Verstellrades (23) in a longitudinal movement of the control contour (21).
[5]
5. Actuator according to claim 4, characterized in that by rotation of the adjusting wheel (23) a bearing part (24) can be driven, which is adjustably mounted along a threaded portion (25), wherein the adjusting contour (21) with the bearing part (24) coupled in motion connected is.
[6]
6. Actuator according to claim 5, characterized in that the threaded portion (25) in the axial direction by a by a spring element (31) loaded wedge element (30) is determined without play.
[7]
7. Actuator according to one of claims 1 to 6, characterized in that the adjusting part (14) has a guide (39), along which the adjusting contour (21) is adjustably mounted, wherein a with the adjusting contour (21) connected to the guide element (34 ) is adjustably mounted along this guide (39).
[8]
8. Actuator according to claim 7, characterized in that at least one further spring element (33) is provided, which presses the guide element (34) of the adjusting contour (21) against the guide (39) of the actuating part (14).
[9]
9. Actuator according to one of claims 1 to 8, characterized in that by an operation of the adjusting device (22), the bias of the spring device (8) and / or on the actuating arm (10) acting torque curve is changeably adjustable.
[10]
10. Actuator according to one of claims 1 to 9, characterized in that the spring device (8) comprises at least one, preferably designed as a compression spring, coil spring.
[11]
11. Actuator according to one of claims 1 to 10, characterized in that the pressure piece (16) is designed as a rotatably mounted pressure roller (29).
[12]
12. Actuator according to one of claims 1 to 11, characterized in that the actuating part (14) has two or more interconnected components (14a, 14b).
[13]
13. Actuator according to one of claims 1 to 12, characterized in that the adjusting contour (21) has two or more interconnected discs (21a, 21b, 21c).
[14]
14. Arrangement with a movable furniture part (3) and with an actuator (4) according to one of claims 1 to 13 for moving the movable furniture part (3). Innsbruck, on November 19, 2014

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA842/2014A|AT515661B1|2014-11-21|2014-11-21|Actuator for movable furniture parts|ATA842/2014A| AT515661B1|2014-11-21|2014-11-21|Actuator for movable furniture parts|

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HUE15781288A| HUE037752T2|2014-11-21|2015-09-28|Actuator for movable furniture parts|

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JP2017522864A| JP6423093B2|2014-11-21|2015-09-28|Drive unit for movable furniture parts|

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CN201580056115.5A| CN107075892B|2014-11-21|2015-09-28|Drive device for movable furniture parts|

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PCT/AT2015/000124| WO2016077851A1|2014-11-21|2015-09-28|Actuator for movable furniture parts|

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EP15781288.4A| EP3221538B1|2014-11-21|2015-09-28|Actuator for movable furniture parts|

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TR2018/07674T| TR201807674T4|2014-11-21|2015-09-28|Drive for moving furniture parts.|

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US15/474,452| US10487554B2|2014-11-21|2017-03-30|Actuator for movable furniture parts|