Drive device for a movable furniture part

专利摘要:
Drive device (1) for a movable furniture part (2), comprising a lockable ejection device (3), wherein the ejection device (3) comprises a powered ejection lever (4) for ejecting the movable furniture part (2) along an ejection section (A) from a closed position (SS) an open position (OS), wherein the ejection lever (4) abuts a locking element (5) in a locking position (V) in the closed position (SS), and wherein moving the movable furniture part (2) in a closing direction (SR) behind the closed position (OS) SS) the ejection device (3) is unlockable by the locking element (5) releasing a first path (W1) into the ejection section (A) for the ejection lever (4), the ejection device (3) pulling on the movable one Furniture part (2) of the closed position (SS) in a in the opening direction (OR) before the closed position (SS) lying Zug unlocking position (ZS) bring r, whereby the ejection lever (4) enters the ejection section (A) via a second path (W2) spaced from the first path (W1).
公开号:AT514064A4
申请号:T295/2013
申请日:2013-04-12
公开日:2014-10-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

• • • • • • • 73301 22 / gb
The invention relates to a Antriebsvorriehtung for a movable furniture part, with a lockable ejection device, wherein the ejection device comprises a kraftbeaufschlagten ejection lever for ejecting the movable furniture part along an ejection portion of a SchließstelJung in an open position, wherein the ejection lever rests in the closed position on a locking element in a locking position and wherein by moving the movable furniture part into a closed position behind the closed position Überdrückstellung the ejection device is unlocked by the locking element releases a first way into the ejection section for the ejection lever, Furthermore, the invention relates to a piece of furniture with such a drive device.
In the Möbelbescblägeindustrie there are already for many years so-called touch-latch mechanisms with which by pressing on the located in the closed position movable furniture part (Sch · B. drawer, furniture door, furniture flap or the like) unlocking takes place, after which the movable furniture part in Opening direction is actively ejected by the mechanism (ejector). There are different versions for the locking and the ejection.
A first generic variant is the locking of an ejection element via a lockable in a cardioid guideway Führungszapfeh. On the one hand the Verriegeiungszapfen the lock in the cardioid guideway serves, on the other hand serves a separate spring-loaded ejection element for ejecting the movable MÖbelteils after unlocking by overpressing. An example of this is WO 2012/149587. In general, there is often the desire in touch-latch mechanisms that unlocking is ensured not only by overpressing, but also by pulling on the movable furniture part. This is achieved in this generic foreign WO 2012/149587 A1, characterized in that in the region of the Rastmuide the herzkurvenlÖrmigen guideway a 2/25 spring-loaded blocking element is arranged, which is moved when pulling the movable furniture part from Verriegeluhgszapfen, whereby a second Entriegeiungskanal is released. As a result, in such a touch-latch mechanism, unlocking by overpressing as well as unlocking by pulling and subsequent active ejection are realized.
Now there is a desire also in generic touch-latch mechanisms with an ejection lever to realize such a release by pulling. Examples of previously known drive devices in which the ejection lever has a double function, namely that the ejection lever itself is both locked and ejected, are known from EP 1 921 948 A1, WO 2011/143682 A1 and the applicant's own, not prepublished Austrian A 1249 / 2012 known. In these drive devices or touch-latch mechanisms, an ejection lever engages a locking element in the firing position and is released from this locking element by overpressure in the overpressure position so that the path into an ejection section is released by the ejection lever repelling an ejection surface. Although it is possible that in these mechanisms, the movable furniture part is also opened by pulling, however, there is no active ejection by pulling an ejection force memory when opening by pulling.
The object of the present invention is therefore to realize a triggering by pulling in a generic drive device.
This is achieved by a drive device with the features of claim 1. Accordingly, it is provided that the ejection device can be brought by pulling the movable furniture part of the closed position in a lying in the opening direction before the closed position Zugentriegelungsstellung, whereby the ejection lever passes through a second path spaced from the first path in the ejection section. Thus, the ejection lever itself enters the ejection section via a second path. Thus, the locking element can not be limited to ··· «ΦΦ, Φ: Φ · 0: φ · ···· • · · · · · Φ · ·« «• · · Φ: · · · · · · · · · · · · · · · · · ······ | »« ······························································································································································································································
Once the ejection lever is in the ejection section, it is preferably provided that the main ejection surface can be moved by the force-actuated ejection lever in the opening direction.
In principle, it can be provided that the ejection lever when unlocking by pulling after driving around the locking element along the second path also abuts the main ejection surface. However, it is preferably provided that along the second path, a second discharge surface spaced from the main discharge surface is formed. It is particularly preferred for a simple construction that the second ejection surface is formed on the locking element. Of course, when unlocked by pulling, the ejection lever may also repel successively at the second ejection surface and then at the main ejection surface or only at the second ejection surface.
In a preferred embodiment it is provided that the ejection lever is rotatably mounted on a Ausstoßhebelgrundplatte, wherein an ejection force accumulator, preferably in the form of acting on a leg of the ejection lever tension spring, the force of the ejection lever. The ejection energy storage is mounted on the one hand on the ejection lever and on the other hand on the ejector base plate.
Furthermore, it can be preferably provided that the drive device has a guide track for the ejection lever, wherein the guide track has a freewheeling section, a clamping section for tensioning the ejection force accumulator, a retraction section for retracting the movable furniture part from an open position into the closed position, the first path, the second path and the ejection section, wherein the biasing section and the retracting section are different from the first path and the second path. 4.25
Furthermore, in a preferred embodiment of the present invention, a control plate and a controllably mounted on the control plate control element is provided, wherein the control forms at least the clamping portion and the Einziehabschnitt. Preferably, this control plate essentially forms the guideway. For this purpose, it may further be preferred that the control element is acted on by a force accumulator, which acts on the control in a direction away from the Hauptausstößfiäche direction. In this case, the power storage is attached on the one hand to the control and on the other hand to the control plate. According to one embodiment, this energy storage is designed as a tension spring.
In addition, it is preferably provided that the Verriegelüngseiement is relative to the control plate movable, preferably displaceable, is mounted, wherein particularly preferably the locking element is mounted movably on the control. In order to allow a movement of the locking element relative to the control is provided that the locking element is acted upon by a locking element in the direction of pulling pulling energy storage. Also, this energy storage is preferably designed as a tension spring, wherein this energy storage is attached on the one hand on the Verriegelüngseiement and on the other hand on the control.
Due to this design of the control element and the locking element can be provided that the first path between the locking element and the main ejection surface and the second path between the locking element and the control is arranged.
Furthermore, protection is sought for a piece of furniture with a furniture body, a movable furniture part and a drive device according to the invention. In such a furniture part is preferably provided that the movable furniture part is movably mounted on the furniture body via a pull-out, wherein the pull-out comprises at least a carcass rail and a drawer rail. 5/25 ···
In principle, the ejection lever of the ejection device can be assigned to the furniture body and actively eject the movable furniture part. According to a preferred embodiment, however, it is provided that the ejection lever is associated with the movable furniture part and thus repels the furniture body is preferably provided that the control plate of the drive device on the carcass rail and the ejector base plate on the drawer rail or on the movable furniture part, preferably on a bottom a drawer bottom, is attached.
Further details and advantages of the present invention will be explained in more detail below with reference to the description of the figures with reference to the exemplary embodiments illustrated in the drawings. Show:
1 is a furniture with pull-out guide and drive device,
2 shows the pull-out guide with the drive device,
3 shows the drive device in the freewheel befindlichem movable furniture part,
4 shows the drive device when retracting the movable furniture part, FIG. 5 shows the drive device when it reaches the closed position, FIG.
Fig. 6, the drive device in the closed position with the second open
Path,
7 shows the drive device in the overpressure position,
8 shows the drive device at the beginning of the ejection along the first path,
9 shows the drive device during ejection,
10 shows the drive device after ejection and
Fig. 11, the drive device during ejection by pulling the movable furniture part.
Fig. 1 shows the furniture 16 with movably mounted in the furniture body 17 MÖbelteifeh 2 These movable furniture parts 2 are mounted on both sides of the furniture body 17 pull-out guides 18 on the furniture body 17 movable. The pull-out guide 18 itself consists of a fixed to the furniture body 17 6/25 •································································································. · · · · 6 "'* ** *' * '*' *
Carcass rail 19, a drawer rail, not shown, and optionally a center rail. The movable furniture part 2 is in this case a drawer with a drawer container including drawer bottom 21. The drive device 1 is attached to the pull-18 and on the underside of a drawer bottom 21 of a top drawer, not shown here.
Concretely, it can be seen from FIG. 2 that the control plate 12 is mounted on the carcass rail 19. On this control plate 12, in turn, the control member 13 is mounted linearly movable, said control element 13 on the one hand, the control base 22 and the flap 23 pivotally mounted thereon. In addition, the Hauptaüsstoßfläche 6 is formed on the control plate 12. In contrast, the discharge lever base plate 8 is mounted on the underside of a drawer bottom 21. At this Ausstoßhebeigründplafte 8 of the ejection lever 4 is rotatably supported about the pivot axis X, between the ejection lever 4 and the ejection lever base plate 8 of the ejection force accumulator 9 is clamped, which is formed in this case as a tension spring. The essential components of the ejection device 3 are the ejection force accumulator 9, the ejection lever 4, the locking element 5 and the main ejection surface 6. The locking element 5 is movably supported relative to the control plate 12. In the specific case, the locking element 5 is movably mounted on the control element 13 and also indirectly mounted relative to the control plate 12 via this control element 13. In principle, the ejection lever base plate 8 can also be fastened to the drawer rail 20. It is also possible * that the control plate 12 is attached directly to the furniture body 17.
In Fig, 3, the movable furniture part 2 is in a wide open position OS, in which the control lever 4 is in a Freiiaufabschnitt the guideway 11. The guide track 11 also has the clamping section S, the Einziehabschnitt E and the ejection section A, on the ejection lever 4, the ejection roller 24 is rotatably supported via a rotary bearing 27, the ejection lever 4 is subjected to the Äußoßkraftspeicher 9 kraftbeaufschlagt.
When the movable furniture part 2, starting from the position shown in FIG. 3, is moved in the closing direction SR, the ejection lever 4 passes over the 7/25 ········ ·· ···· ·· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ···
Discharge roller 24 initially in abutment with the clamping portion S of the control element 13 (not shown). Since the spring force of the ejection force accumulator 9 is higher than the spring force of the force accumulator 14, the entire control element 13 is moved against the direction R to the main ejection surface 6, wherein the energy accumulator 14 is tensioned, as soon as the control 13 can not move further to the left and at the same time is pressed in the closing direction SR on the movable furniture part 2, the ejection force accumulator 9 is stretched by the ejection lever 4 rotates clockwise about the pivot axis X. Upon reaching the Übergangsspositioh between the clamping portion S and the Einziehabschnitt E of the ejection force memory 9 is fully stretched and then acts along the Einziehabschnittes E Einziehkraftspeicher (see Fig. 4). Since the ejection force accumulator 9 relaxes in its function as Einziehkraftspeicher, the movable furniture part 2 is actively retracted in the closing direction SR. This retraction movement can also be damped by a damping device, not shown. Due to the relatively strong mechanical contact of the ejection roller 24 with the control base 22, the control element 13 is also held during the retraction in the position in which the energy accumulator 14 remains tensioned for the control element 13.
At the end of the pull-in movement, the ejection lever 4, together with the ejection roller 24, reaches the locking position V according to FIG. 5. This corresponds to the closed position SS of the movable furniture part. Here, the ejection energy storage 9 is again relaxed in part, but still has enough residual energy for later ejections. As can be seen in FIG. 5, shortly after the pull-in movement has ended, the ejection roller 24 is only located on the locking surface 26 of the locking element 6. As a result, there is no longer any mechanical contact between the ejection roller 24 and the control base 22, whereby the energy accumulator 14 can relax and the control element 13 is moved in the direction R away from the main ejection surface 6 (see FIG. 6). However, since the ejection roller 24 still bears against the locking surface 26 of the locking element 5, this locking element 5 can not move with the control element 13 in the direction R, but the force accumulator 15 located between the control base 22 and the locking element 6 becomes English:. German: www.team-micro-arena.net/de/news.html t * · · w w # # # # # # # # # # # gesp gesp gesp gesp gesp gesp. This energy storage 15 has a low spring constant than the energy storage 14. By this relaxation of the force accumulator 14 of the second path W2 between the control element 13 and the locking element 5 is released. However, the movable furniture part 2 is still in the closed position SS, in which the ejection lever 4 is held by the locking element 5 in the locking position V.
If now starting from this position in the closing direction SR is pressed onto the movable furniture part 2, the movable furniture part 2 passes into the overpressure position ÜS shown in FIG. 7. By this movement in the closing direction SR, the ejection lever base plate 8 moves relative to the control plate 12. Since the ejection lever 4 must also move with the ejection lever base plate 8 but at the same time also abuts the main ejection surface 6, the ejection lever 4 pivots clockwise about the pivot axis X, so that the mechanical contact between the ejection roller 24 and the locking surface 26 of the locking element 5 is canceled. As a result, the locking element 5 is no longer held by the ejection lever 4 and the energy accumulator 15 can pull the locking element 5 in the direction R. Thereby, the first path W1 between the locking member 5 and the main ejection surface 6 is released.
Since the ejection section A for the ejection lever 4 and the ejection roller 24 is no longer blocked by the locking element 5, the ejection force accumulator 9 can relax, whereby the ejection roller 24 comes along the first path W1 in the ejection section A of FIG. As a result, the control plate 8 and with this the movable furniture part 2 is moved in the opening direction OR, whereby the movable furniture part 2 is already in an open position OS.
After further relaxation of the ejection force accumulator 9, the movable furniture part 2 is further opened and the ejection roller 24 is located approximately in the middle of the main ejection surface 6 and the ejection section A. 9/25 · ·, respectively, as shown in FIG. »· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · '·· ·· ··· ··· "9
As a result, the ejection roller 24 either lifts off from the main ejection surface 6 due to the momentum of the ejection device 3 or by pulling on the movable furniture part 2 and enters the position shown in FIG. 10 in which the ejection force accumulator 9 is relaxed and in which the movable furniture part 2 is freely movable. By further pulling the movable furniture part 2 in the opening direction OR, the drive device 1 returns to the position shown in FIG. 3. When moving in the opening direction OR while the flap 23 is rotated by the ejection roller 24 against the force of the torsion spring 25 in a clockwise direction, so that the ejection lever 4 can come into the position shown in FIG. 3. Thereafter, the flap 23 works again due to the spring force of the leg spring 25 counterclockwise, so that the ejection roller 24 does not return to the freewheeling section F later closing but in the formed on the flap 23 clamping section S.
If unlocking of the lockable ejection device 3 takes place not by overpressing but by pulling on the movable furniture part 2 in the opening direction OR, starting from FIG. 6, the ejection roller 24 enters the ejection section A via the second path W2. This is illustrated in FIG. Namely, when pulling on the movable furniture part 2 starting from FIG. 6, the discharge roller 24 comes out of contact with the locking surface 26 and comes into contact with the bent second discharge surface 7 formed on the locking element 5. As soon as the discharge roller 24 moves into this second path W2 resp .. comes in contact with the arcuate second ejection surface 7, the ejection force accumulator 9 can relax and pivots the ejection lever 4 about the pivot axis X with active ejection of the movable Möbelteiis 2 in the opening direction OR. Above all, the curved shape of the second ejection surface 7 serves to prevent rocking movements of the drawer (movable furniture part 2) upon unilateral release by pressing-if the structurally identical drive device 1 arranged on the other side of the movable furniture part 2 is released by pulling. By this forwardly drawn ejection contour of the ejection path along the second ejection surface 7 is extended at gleichbieibender ejection energy. As a result, the movement of the drawer is greatly improved. 10/25 • * · · ···· · · · · · · · · · · · · · · · · · · · · · · · ··· ···· 10
In principle, however, it should not be ruled out that the locking element 5 has substantially only the locking surface 26, so that immediately after unlocking by pulling the ejection roller 24 comes into contact with the main ejection surface 6. Preferably, however, it is provided that the second ejection surface 7 serves as a repelling surface when opening by pulling. Also when unlocking by pulling the ejection lever 4 and the ejection roller 24 passes through the ejection section A and the freewheeling section F in the open position OS shown in FIG. 10 subsequently.
Thus, the present invention provides an improved drive apparatus 1 in which an ejection lever 4 having a double function (locking and ejecting) can not be unlocked only by over-pressing, but is also unlocked by pulling on the movable furniture member 2 in the opening direction OR, so that the ejection lever 4 when unlocking by pulling actively the movable furniture part 2 in the opening direction OR ejects.
Innsbruck, on April 11, 2013 11/25

权利要求:
Claims (16)
[1]
73301 22 / eh • 1 '', 1 '', '1', 9 '', 9 '', 9 '', 9 '', 9 '', 9 ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' ', 9' '' for a movable furniture part (2), with a lockable ejection device (3), wherein the ejection device (3) comprises a force - actuated ejection lever (4) for ejecting the movable furniture part (2) along an ejection section (A) from a closed position (SS) into one Open position (OS), wherein the ejection lever (4) in the closed position (SS) on a locking element (5) in a locking position (V) is applied and wherein by moving the movable furniture part (2) in a closing direction (SR) behind the Closed position (SS) lying overpressure position (ÜS) the Ausstoßvorriehtung (3) is unlocked by the locking element (5) a first path (W1) in the ejection section (A) for the ejection lever (4) releases, characterized in that the Ausstoßvö Device (3) by pulling the movable furniture part (2) from the closed position (SS) in a direction of opening (OR) before the closed position (SS) lying Zugentriegelungsstellung (ZS) can be brought, whereby the ejection lever (4) via a first path (W1) spaced second path (W2) enters the ejection section (A).
[2]
2. Drive device according to claim 1, characterized in that the kraftbeaufschlagten, in the ejection section (A) located ejection lever (4) via a main ejection surface (6), the movable furniture part (2) in the opening direction (OR) is movable.
[3]
3. Drive device according to claim 1 or 2, characterized in that along the second path (W2) from the main discharge surface (6) spaced second discharge surface (7) is formed.
[4]
4. Drive device according to claim 3, characterized in that the second discharge surface (7) on the locking element (5) is formed.
[5]
5. Drive device according to one of claims 1 to 4, characterized in that the ejection lever (4) on a Ausstoßhebelgrundplatte 12/25 • · • ··: · • dm · • · · * · · · · · · · · · · Is rotatably mounted, wherein an ejection force accumulator (9), preferably a on a leg (10) of the ejection lever (4) acting on the tension spring, the ejection lever (4). الو ·ف متر 73مة من ال •لمانية with force.
[6]
6. Drive device according to one of claims 1 to 5, characterized in that the drive device (1) has a guide track (11) for the ejection lever (4), wherein the guide track (11) has a freewheeling section (F), a clamping section (S). for tensioning the ejection force accumulator (9), a retraction section (E) for drawing the movable furniture part (2) from an open position (OS) to the Schlleßstellung (SS), the first path (W1), the second path (W2) and the ejection section (A).
[7]
7. Drive device according to claim 6, characterized in that the clamping portion (S) and the Einziehabschnitt (E) from the first path (W1) and the second path (W2) are different.
[8]
8. Drive device according to claim 6 or 7, characterized by a control plate (12) and on the control plate (12) movably mounted control (13), wherein the control (13) at least the clamping portion (15) and the Einziehabschnitt (E) mitbildet ,
[9]
9. Drive device according to claim 8, characterized in that the control element (13) is acted upon by a force accumulator (14) which acts on the control element (13) in a direction away from the main ejection surface (6) direction (R).
[10]
10. Drive device according to claim 8 or 9, characterized in that the locking element (5) relative to the control plate (12) movable, preferably displaceable, is mounted.
[11]
11 .Antriebsvorrichtung according to claim 10, characterized in that the locking element (5) on the control element (13) is movably mounted. 13/25

• • • • • • • * * «« «· · · · *« * · · · · · · · · · · · · · · · · · · · · 73301 22 / eh
[12]
12. Drive device according to claim 11, characterized in that the locking element (5) by a the locking element (5) in the direction of control (13) pulling force accumulator (15) is acted upon.
[13]
13. Drive device according to one of claims 10 to 12, characterized in that the first path (W1) between the locking element (5) and the main ejection surface (6) and the second path (W2) between the locking element (5) and the control ( 13) is arranged.
[14]
14. Furniture (16) with a furniture body (17), a movable furniture part (2) and a drive device (1) according to one of claims 1 to 13.
[15]
15. Furniture according to claim 14, characterized in that the movable furniture part (2) on the furniture body (17) via a pull-out guide (18) is movably mounted, wherein the pull-out guide (18) has at least one carcass rail (19) and a drawer rail.
[16]
16. Furniture according to claim 15, characterized in that the control plate (12) of the drive device (1) on the carcass rail (19) and the ejection lever base plate (8) on the drawer rail or on the movable furniture part (2), preferably on an underside of a drawer bottom (21), is attached. Innsbruck, April 11, 2013 14/25

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法律状态:
2020-12-15| MM01| Lapse because of not paying annual fees|Effective date: 20200412 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA295/2013A|AT514064B1|2013-04-12|2013-04-12|Drive device for a movable furniture part|ATA295/2013A| AT514064B1|2013-04-12|2013-04-12|Drive device for a movable furniture part|

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PCT/AT2014/000058| WO2014165876A1|2013-04-12|2014-03-26|Drive device for a movable furniture part|

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EP14723308.4A| EP2983559B1|2013-04-12|2014-03-26|Drive device for a movable furniture part|

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JP2016506719A| JP6147911B2|2013-04-12|2014-03-26|Drive unit for moving furniture parts|

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MYPI2015002254A| MY175589A|2013-04-12|2014-03-26|Drive device for a moveable furniture part|

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CN201480020588.5A| CN105101843B|2013-04-12|2014-03-26|Drive device and furniture for movable furniture parts|

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US14/865,045| US9277815B2|2013-04-12|2015-09-25|Drive device for a movable furniture part|