奥地利专利AT515492A1 Actuator for furniture flaps

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专利摘要:
Actuator (5) for moving a movable furniture part (3), comprising: - at least one about an axis of rotation (10) pivotally mounted actuating arm (9) for moving the movable furniture part (3), - a spring device (11) for applying force to the actuating arm ( 9), - a transmission mechanism (25) for transmitting a force from the spring device (11) to the actuating arm (9), wherein the transmission mechanism (25) comprises a control element (29), a control contour (20) and one of the spring device (11) loaded pressure piece (7), wherein the pressure piece (7) during a movement of the actuating arm (9) along the control contour (20) is movable, wherein the control contour (20) at one of the control part (29 ) is formed, wherein the adjusting contour (20) of the Konturteiles (8) between the actuating part (29) and the pressure piece (7) is arranged, or that the actuating part (29) one - preferably parallel to the direction of the axis of rotation (10) - has laterally projecting web (31a), wherein the adjusting contour (20) of a curved outer surface (34) of the web (31 ') is formed.
公开号:AT515492A1
申请号:T183/2014
申请日:2014-03-14
公开日:2015-09-15
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 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.
Such an actuator is shown for example in DE 10 2006 014 493 A1. Here, a pivotally mounted actuating arm is pivotally mounted via a control arm arranged on the control contour and a voltage applied to this control contour pressure piece in the form of a rotatably mounted pressure roller. The setting contour of the actuator arm is thereby formed by the material thickness of the actuator arm and additionally arranged on both sides of the actuator arm pulley parts (disc parts 30, 31 in Fig. 4), so increased by this three-part structure, the contact surface to the pressure roller and consequently the forces occurring on an enlarged Area can be distributed. Usually, the control contours of such actuators are produced by fine blanking or fine blanking, ie by a manufacturing process in which contour-accurate workpieces with smooth and rectangular cutting surfaces can be produced in one operation. In any case, an advantage of this technology over a conventional punching method is that a high surface quality can be achieved by the smooth cut achieved thereby, which eliminates the need for elaborate post-processing of the setting contours (for example, polishing). A smooth surface of the control contour is namely a necessary condition because any unevenness of the control contour when opening and closing the movable furniture part for a user negatively noticeable. A disadvantage of fine blanking, however, lies in the fact that this manufacturing process is relatively expensive and only allows low cycle rates in mass production.
Another disadvantage of the previously known embodiments of control contours is the fact that the intended for contact with the pressure roller drainage surface of the control contour is determined by the material thickness of the control contour. Thus, relatively high material thicknesses have to be provided in order to provide a sufficiently stable contact surface for the pressure piece, which is acted upon by the spring device, in some cases with very high pretensioning forces.
Object of the present invention is to propose an actuator of the type mentioned, wherein the production of such a control contour is simplified.
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, it is thus provided that the setting contour is formed on a contour part separate from the setting part, wherein the setting contour of the contour portion is arranged between the setting part and the pressure piece, or that the setting part has a side-protruding laterally-preferably parallel to the direction of the rotation axis Has web, wherein the control contour is formed by a curved outer surface of the web.
In other words, according to a first variant of the invention, a separate from the control part contours with a control contour is provided which serves as an intermediate piece between the pressure roller and the control part. During a movement of the
Stellar, therefore, the pressure roller is not movably mounted along a contour of the motion-coupled with the actuating arm actuating member, but along a curved outer surface of the actuator separate Konturteiles.
According to one embodiment, it is provided that the movement-coupled with the actuating arm actuator is pivotally mounted about a rotation axis. The actuating part has, at the end region facing towards this axis of rotation, a circumferential surface radially spaced relative to this axis of rotation, wherein this radially spaced peripheral surface of the actuating part is covered at least in sections by the control contour of the contour element. Preferably, it is provided that the control contour of the Konturteiles a parallel with respect to the axis of rotation of the actuating element bearing surface for the pressure piece - in particular for a rotatably mounted pressure roller - forms.
According to a second variant of the invention it is provided that the actuating part has a laterally projecting web, preferably parallel to the direction of the axis of rotation, wherein the actuating contour is formed by a curved outer surface of the web. The actuating part may thus have a fastening section and a web projecting from this substantially at right angles, wherein the actuating contour is formed by a curved outer surface of this web.
A particular advantage of the invention lies in the fact that the contours can be executed with the control contour or even the control part itself as a bent part or deep-drawn part. Deep drawing is a well-known method of metal forming in which a flat metal blank is reshaped to a hollow body without causing a substantial change in metal thickness. In this way, with relatively thin material thickness contour parts or actuators can be made with large and smooth surfaces, which form the control contour for the pressure piece.
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 highly movable flap in a closed position and in an open position,
2 shows a possible embodiment of an actuator in a perspective section,
Fig. 3 is a detail view of the actuator in a perspective
Cut,
4a, 4b show two different variants of the attachment of contours on the control part,
5a, 5b show an embodiment of a multi-part contour judgment,
Fig. 6a, 6b detail views of the actuator with a control contour, which is formed integrally with the control part.
Fig. 1a shows a side view of a piece of furniture 1 with a furniture body 2 and with a movable furniture part 3 in the form of a flap 4, which is mounted hochbewegbar relative to the furniture body 2. Fig. 1b shows the furniture 1 with the flap 4 in an open position, wherein the flap 4 is pivotally mounted via hinges 22 relative to a cabinet cover 23 of the furniture body 2. To move the flap 4, an actuator 5 is provided with a housing 6, which is pivotally supported on the furniture body 2 on a bearing axis 21. Furthermore, the actuator 5 comprises an actuating arm 9, which is mounted pivotably in the mounting position about a horizontally extending axis of rotation. By the actuator 5, the flap 4 between a vertical closed position (Fig. 1a) and a swung-up, the access to the furniture body 2 releasing open position (Fig. 1 b) movably mounted. The free end region of the actuating arm 9 is to be connected via a hinge axis 24 with the flap 4.
Fig. 2 shows the actuator 5 in a perspective section, wherein the actuating arm 9 is pivotally mounted about a horizontally extending in mounting position axis of rotation. The actuator 5 comprises a housing 6 to be fastened to the furniture body 2 in which a spring device 11 is accommodated. In the exemplary embodiment shown, the spring device 11 comprises at least one compression spring formed as a helical spring, but it is also possible to provide two or more helical springs, which are preferably connected in parallel. The spring device 11 is supported at one end on an abutment in the form of an adjustable nut 12 which is in threaded engagement with an adjusting screw 16. By an adjusting device 13 acting on the actuating arm 9 torque is adjustable. This adjusting device 13 comprises an adjusting wheel 14 with a receptacle 15 for an actuating tool, wherein the adjusting wheel 14 via a gear, preferably a bevel gear, cooperates with the head of the adjusting screw 16. By rotation of the receptacle 15 by means of the actuating tool, the adjusting screw 16 is rotatable, whereby the nut 12 along the thread 17 of the adjusting screw 16 is adjustable. In this way, the spring device 11 is differently compressible and consequently the force acting on the actuator arm 9 of the spring device 11 variably adjustable. In the figure shown, the nut 12 is in a position in which the spring device 11 is minimally biased, i. That the torque acting on the actuator arm 9 is the lowest.
For transmitting a force of the spring device 11 to the actuating arm 9, a transmission mechanism 25 is provided, which is a motion-coupled to the actuating arm 9 adjusting member 29 in the form of a cam portion, a setting contour 20 and a loaded by the spring device 11 pressure piece 7 (preferably in the form of a rotatably mounted Pressure roller 19), wherein the pressure piece 7 during a movement of the actuating arm 9 along the control contour 20 movable (ie either slidably supported or unrolled). The pressure piece 7 is mounted on a relative to the housing 6 movable - preferably linearly displaceable - slider 18. In the illustrated embodiment, the adjusting member 29 is integrally formed together with the actuating arm 9, so that the axis of rotation 10 of the actuating member 29 and the axis of rotation 10 of the actuating arm 9 forms. Of course, it is also possible to form the adjusting member 29 separately from the actuating arm 9, for example as a (not shown here) pivotally mounted lever of the transmission mechanism 25, which is in motion coupled with the actuating arm 9 in connection. It is therefore quite possible to arrange the adjusting member 29 at a different position in the effective power train between the spring device 11 and the actuating arm 9.
As can be clearly seen from FIG. 2, the adjusting part 29, which is mounted so as to be pivotable about the axis of rotation 10, has a circumferential surface 26 radially spaced relative to this axis of rotation 10. Thus, the pressure piece 7 is not directly on the peripheral surface 26 of the adjusting member 29, but on a setting contour 20, which is formed on a separate from the adjusting member 29 contour 8. This adjusting contour 20 of the contour 8 is arranged so that the radially spaced from the axis of rotation 10 peripheral surface 26 of the actuating member 29 is at least partially covered. The contour 8 may be formed from a cost-effective and easy to produce Biegemetallteil or Tiefziehmetallteil. The contour portion 8 forms a relative to the axis of rotation 10 of the adjusting member 29 eccentric, the movement behavior of the movable furniture part 3 in terms of power influencing control contour 20. The contour 8 is coupled in a motion-coupled manner to the actuating arm 9, with the contour 8 also being rotated during a pivoting movement of the actuating arm 9. The control contour 20 of the contour part 8 forms a different radial distance from the axis of rotation 10 of the actuating part 29. The control contour 20 of the contour 8 is designed so that the actuating arm 9 is pressed towards the end of the closing movement by the force of the spring device 11 in the full closed position. During the opening movement of the actuating arm 9, the pressure piece 7 reaches a vertex (this is that region of the setting contour 20 with the greatest radial distance from the axis of rotation 10), so that the spring device 11-after passing a dead center position-exerts a torque in the opening direction on the actuating arm 9 , To dampen the closing and / or opening movement of the actuating arm 9, a (not shown here) damper, in particular a fluid damper, are provided.
Fig. 3 shows a detailed view of the transmission mechanism 25 of the actuator 5. The motion-coupled to the actuator arm 9 actuator 29 has fastening means 27, which cooperate with corresponding attachment points 30 (Fig. 4b) of the contour 8. The contour element 8 has a fastening section 28 for lateral abutment on the actuating part 29 and a web 31 projecting laterally from the fastening section 28, wherein the actuating contour 20 is formed by a curved outer surface of the web 31. The width B of the web 31, which forms the setting contour 20, substantially corresponds to the width B1 of the pressure part 7, that is substantially the width of the pressure roller 19. The spring device 11 presses against the slide 18, which together with the pressure part 7 mounted thereon to the housing 6 is mounted linearly movable.
4a and 4b show two different variants of the attachment of contours 8 on the adjusting member 29. The adjusting member 29 is pivotally mounted about the axis of rotation 10 and has a radially spaced relative to the axis of rotation 10 peripheral surface 26. In Fig. 4a, a contour 8 is attached only on one side of the control part 29. The contour element 8 has a flat fastening section 28, which rests in the mounting position on a corresponding, flat side surface of the actuating part 29. The contour element 8 further comprises a web 31 projecting laterally from the attachment section 28, wherein the adjustment contour 20 for the pressure element 7 is formed by a curved outer surface 34 of the web 31. By the control contour 20 of the Konturteiles 8, the peripheral surface 26 of the actuating member 8 is covered, which does not necessarily mean that the peripheral surface 26 facing inside of the web 31 must rest directly against the peripheral surface 26 of the actuating member 29. It is preferably provided that the inside and the outside of the web 31 each form a parallel to the axis of rotation 10 extending contour. The adjusting member 29 has fastening means 27, which in the assembled state with fastening points 30 (Fig. 4b) of the contour 8 Collaboration. At least one or more attachment points 30 of the contour part 8 are arranged eccentrically relative to the axis of rotation 10 of the adjusting member 29, so that the contour portion 8 is mounted on the adjusting member 29 against rotation. The wall thickness of the at least one contour portion 8 is formed substantially constant.
Fig. 4b shows a variant in which on both sides of the actuating part 29, a contour 8 is arranged. Thus, on a first side of the setting member 29, a first contour portion 8 and on a second side of the setting member 29, a second contour portion 8 is fixed, wherein the setting contour 20 of the first Konturteiles 8 and the setting contour 20 of the second Konturteiles 8 (ie, the edge regions of the webs 31st the two contour parts 8) abut each other and at least partially cover the peripheral surface 26 of the actuating part 29.
5a shows a further exemplary embodiment of a multi-part contoured part 8, the fastening section 28 and the web 31 forming the adjusting contour 20 being designed as separate components. In a first assembly step, the two attachment portions 30 are attached to the left and right of the actuator 29, so that the two mounting portions 30 receive the control part 29 in its center. The convexly curved web 31 has a plurality of attachment points 32 in the form of tabs, which are provided for connection to the two attachment portions 28. Fig. 5b shows the embodiment of FIG. 5a in the assembled state. The attachment points 32 of the Konturteiles 8 are provided with openings which are provided for the passage of rivets, screws or the like. But it is also possible that the adjusting part 29 has a bearing point in which the web 31 can be suspended with the adjusting contour 20 and that a remote from this bearing locking device is provided, via which the web 31 with the adjusting contour 20 after pivoting on the Control part 29 with this, preferably releasably, is lockable.
Fig. 6a and Fig. 6b show detailed views of an actuator 5, wherein the adjusting contour 20 is formed integrally with the adjusting member 29. The motion-coupled to the actuator arm 9 actuator 29 has a - preferably parallel to the direction of the axis of rotation 10 - laterally projecting web 31a, wherein the actuating contour 20 of a - with respect to the axis of rotation 10 - curved outer surface 34 of the web 31a is formed. The web 31a therefore protrudes substantially at right angles from a fastening section having the axis of rotation 10 and forms a sufficiently wide actuating contour 20 for the pressure piece 7-preferably for the pressure roller 19 rotatably mounted about the hinge axis 33. The width of the outer surface 34 of the web 31a substantially corresponds to the width of the rotatably mounted pressure roller 19th
Innsbruck, on March 12, 2014

权利要求:
Claims (14)
[1]
1. Actuator (5) for moving a movable furniture part (3), comprising: - at least one about an axis of rotation (10) pivotally mounted actuating arm (9) for moving the movable furniture part (3), - a spring device (11) for applying force the actuating arm (9), - a transmission mechanism (25) for transmitting a force from the spring device (11) on the actuating arm (9), wherein the transmission mechanism (25) with the actuating arm (9) movement-coupled actuating part (29), a control contour (20) and one of the spring device (11) loaded pressure piece (7), wherein the pressure piece (7) during a movement of the actuating arm (9) along the adjusting contour (20) is movable, characterized in that the adjusting contour (20 ) is formed on one of the control part (29) separate Konturteil (8), wherein the control contour (20) of the Konturteiles (8) between the actuating part (29) and the pressure piece (7) is arranged, or - that the actuating part (29) one - Preferably parallel to the direction of the axis of rotation (10) - laterally projecting web (31a), wherein the adjusting contour (20) of a curved outer surface (34) of the web (31 ') is formed.
[2]
2. Actuator according to claim 1, characterized in that the Konturteil (8) has a fixing portion (28) for abutment with the adjusting part (29) and one of the fastening portion (28) - preferably parallel to the direction of the axis of rotation (10) - laterally projecting web ( 31), wherein the adjusting contour (20) of the curved outer surface (34) of the web (31) is formed.
[3]
3. Actuator according to claim 2, characterized in that the fastening portion (28) of the Konturteiles (8) has at least one attachment point (30) for attachment to the actuating part (29).
[4]
4. Actuator according to claim 3, characterized in that the at least one attachment point (30) is arranged eccentrically relative to the axis of rotation (10) of the actuating part (29).
[5]
5. Actuator according to one of claims 1 to 4, characterized in that the contour part (8) with the adjusting part (29) is connected coupled for movement, wherein during a movement of the actuating part (29) and the contour part (8) moves.
[6]
6. Actuator according to one of claims 1 to 5, characterized in that the adjusting part (29) about an axis of rotation (10) is pivotally mounted, wherein it is preferably provided that those axis of rotation (10) about which the adjusting part (29) rotatable is mounted, and the axis of rotation (10) of the actuating arm (9).
[7]
7. Actuator according to claim 6, characterized in that the adjusting part (29) on the axis of rotation (10) towards the end facing a relation to this axis of rotation (10) radially spaced circumferential surface (26), said peripheral surface (26) of the Control part (29) of the control contour (20) of the Konturteiles (8) is at least partially covered.
[8]
8. Actuator according to claim 7, characterized in that on a first side of the actuating part (29) has a first contour part (8) and on a second side of the actuating part (29) a second Konturteil (8) is fixed, wherein the control contour (20 ) of the first contour part (8) and the control contour (20) of the second contour part (8) bear against one another and at least partially cover the peripheral surface (26) of the control part (29).
[9]
9. Actuator according to one of claims 1 to 8, characterized in that the contour part (8) or the adjusting part (29) is made of a, preferably bent or deep-drawn, metal part.
[10]
10. Actuator according to one of claims 1 to 9, characterized in that the adjusting part (29) is arranged or formed on the actuating arm (9).
[11]
11 .Drive drive according to one of claims 1 to 10, characterized in that the spring device (11) comprises at least one, preferably designed as a compression spring, coil spring.
[12]
12. Actuator according to one of claims 1 to 11, characterized in that the axis of rotation (10) of the actuating arm (9) in the mounting position is horizontal and that the actuating arm (9) by the spring device (11) about the axis of rotation (10) in the opening direction can be acted upon.
[13]
13. Actuator according to one of claims 1 to 12, characterized in that the pressure piece (7) is designed as a rotatably mounted pressure roller (19).
[14]
14. Arrangement with a movable furniture part (3) and with an actuator (5) according to one of claims 1 to 14 for moving the movable furniture part (3). Innsbruck, on March 12, 2014

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AT16333U1|2016-03-11|2019-07-15|Blum Gmbh Julius|Actuator for driving a movably mounted furniture part|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA183/2014A|AT515492B1|2014-03-14|2014-03-14|Actuator for furniture flaps|ATA183/2014A| AT515492B1|2014-03-14|2014-03-14|Actuator for furniture flaps|

PCT/AT2015/000028| WO2015135007A1|2014-03-14|2015-02-19|Adjusting drive for furniture flaps|

RU2016134729A| RU2639971C1|2014-03-14|2015-02-19|Servo drive for furniture leaves|

EP15712031.2A| EP3117061B1|2014-03-14|2015-02-19|Actuator for cabinet lids|

EP19203475.9A| EP3613932A1|2014-03-14|2015-02-19|Actuator for furniture valves|

CN201580011250.8A| CN106068356B|2014-03-14|2015-02-19|Regulation drive device and configuration component for furniture lid|

PL15712031T| PL3117061T3|2014-03-14|2015-02-19|Actuator for cabinet lids|

ES15712031T| ES2774658T3|2014-03-14|2015-02-19|Actuator for furniture covers|

JP2016547171A| JP6302078B2|2014-03-14|2015-02-19|Actuator for furniture flap door|

US15/260,931| US9903145B2|2014-03-14|2016-09-09|Adjusting drive for furniture flaps|

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