奥地利专利AT512509A4 Ejecting device for a movable furniture part

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专利摘要:
Lockable ejection device (1) for a movable furniture part (2), with a discharge element (3) acting on the movable furniture part (2) in the opening direction (OR), a housing (4) and a locking element (or) arranged in or on the housing (4). 5), by at least in the closed position (SS) of the movable furniture part (2) the way of the ejection element (3) in the opening direction (OR) is lockable, wherein by the locking element (5) the ejection element (3) both at overpressures of the movable furniture part (2) from a closed position (SS) in the closing direction (SR) and when pulling the movable furniture part (2) from the closed position (SS) in the opening direction (OR) is releasable, wherein the ejection element (3) both when overpressing the movable furniture part (2) and when pulling the movable furniture part (2) by a relative movement of the locking element (5) to the housing (4) can be unlocked.
公开号:AT512509A4
申请号:T768/2012
申请日:2012-07-10
公开日:2013-09-15
发明作者:
申请人:Blum Gmbh Julius；
IPC主号:

专利说明:

1 * 5Ί5Ίά22 * ΐη.
The invention relates to a lockable ejection device for a movable furniture part, with a, the movable furniture part acting in the opening direction ejection element, a housing and a housing arranged in or on the locking element, by at least in the closed position of the movable furniture part of the path of the ejection element in the opening direction is locked, wherein the ejection element can be released by the locking element both in overpressures of the movable furniture part from a closed position in the closing direction and when pulling the movable furniture part from the closed position in the opening direction. In addition, the invention relates to a piece of furniture with such a lockable ejection device.
In the field of furniture fittings discharge devices have been known for many years, by which a movable furniture part is opened automatically. The user only has to press on the movable furniture part, so that the lock is released and the movable furniture part is ejected from a power storage.
A common variant for locking the ejection device is the locking over a heart curve. In this case, a locking element connected to the ejection element is held in the closed position in a trough of a heart-shaped slide track. By pressing on the movable furniture part, the latching element is moved out of the trough, whereby the way is free in an opening portion of the heart-shaped slide track.
A problem with such lockable ejectors with heart-shaped slide track is that it can only be opened by pressing. But if pulled on the furniture part, no opening can be done because the locking element can not escape from the detent recess of the heart-shaped slide track.
To solve this problem, many devices are already known in which an unlocking is done not only by pressing but also by pulling.
From EP 2 272 400 A1, JP 2007-009 507, US 7,374,261 and JP 2008-208 684, examples are given in which parts of the heart-shaped slide track are rotated or pivoted when pulling, so that unlocking when pulling is possible on the locking element.
From WO 2007/050737 A2, a flexible, expandable channel emerges, through which the latching element can emerge in the opening direction during pulling and thus can release the unlocking.
From the an older law forming, not previously published, Austrian application A 614/2011 a displaceable "plug" emerges, which forms the detent recess of the heart-shaped slide track. When pulling on the locked locking element of this "plug" is moved against a spring and released an overload path for the locking element.
The object of the present invention is therefore to provide an alternative to the prior art lockable ejection device. In particular, it should be possible in a simple manner to unlock the ejection device both when overpressing and when pulling.
This is achieved by a lockable ejection device having the features of claim 1. Accordingly, the invention provides that the ejection element can be unlocked both by the overpressing of the movable furniture part and when pulling the movable furniture part by a relative movement of the locking element to the housing. The particular advantage of this is that when overpressing and pulling always the same movement of the locking element takes place. In the known in the prior art lockable ejection devices always the detent recess forms the locking element, but this detent recess is not moved in the normal opening movement by overpressing, only when pulling a movement of at least a portion of the detent recess is performed in the ejection devices according to the prior art.
According to a preferred embodiment of the present invention, the ejection device comprises a detection device for detecting the position of the movable Möbelteüs and a transmission device for transmitting the detected by the detection device position of the movable furniture part on the locking element, wherein the locking element is movable in response to the detected position. Thus, the position of the movable furniture part is easily forwarded to the locking element.
The detection device need not be connected in any position with the locking element. Rather, it can be provided that the detection device in the closed position, in overpressed closed position and, in the closed position at least immediately upstream, open position of the movable MÖbeiteils on the movable furniture part is applied or connected to the movable furniture part.
In order to enable in a simple manner, a conversion of the pulling movement and the pressing movement in one and the same movement of the locking element, it is preferably provided that the transmission device comprises a rotary member which is durable by at least one power storage in a central position. Preferably, it may further be provided that the detection device engages via an engagement element on the rotary element, wherein both upon movement of the engagement element in the opening direction and in the closing direction, the rotary member from the central position is rotatable. In the case of a rotary element located outside the central position, the locking of the ejection element is preferably canceled. For a simple embodiment of the ejection device can be provided according to a first embodiment of the present invention, that the rotating element is also the locking element. In particular, it is provided that the locking element is connected via two brackets with two, the energy storage springs, wherein the springs are on the one hand attached to the housing and on the other hand respectively attached to one end of one of the two brackets, wherein the bracket, preferably via guide elements , in »» • · ♦ ·
Housing trained long holes are limited movable. Furthermore, this first embodiment can provide that the rotational movement of the locking element during unlocking in one direction only, preferably in a clockwise direction, is carried out, wherein the rotational movement is limited due to the guided in the two elongated holes on the guide elements bracket.
According to a second embodiment of the present invention can be provided that the locking element and the rotary member are formed separately, wherein the VerriegelungseEement is acted upon by the energy storage and rests on the rotary member. In order to enable transmission of the movement detection to the locking element, it can be provided that the locking element bears against a v-shaped region of the rotary element, wherein the rotary element is then in the central position, when the locking element rests on the drehachsnächsten point of the v-shaped area ,
In principle, it must only be guaranteed in the closed position that the path of the ejection element in the opening direction is blocked by the locking element. This can be done for example by friction or jamming. It is preferably provided that the ejection element is held in the closed position via a locking element connected to the ejection element form-locking manner on the locking element.
In order to achieve a simple release of the opening path for the ejection element, it is preferably provided that the locking element is movable transversely to the opening direction both in overpressures of the movable furniture part from a closed position in the closing direction and when pulling the movable furniture part from the closed position in the opening direction.
Protection is also desired for a piece of furniture with a movable furniture part and a lockable ejection device according to the invention for the movable furniture part.
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 to 4 Fig. 5 and 6 Fig. 7 Fig. 8 to 13 Fig. 14 Fig. 15 Fig. 16 to 20 Fig. 21 Fig. 22 Fig. 23 to Fig. 27 schematically a piece of furniture with a movable furniture part in different positions,
Exploded views of a first embodiment of a lockable ejection device, the lockable ejection device in the assembled state,
Views of the ejection device in various positions, a second embodiment of a lockable ejection device, an exploded view of Fig. 14,
Views of various positions of the ejection device according to the second embodiment, a third embodiment of a lockable
Ejector, an exploded view of Fig. 21 and
Views of various positions of the ejection device according to the third embodiment.
Fig. 1 shows a furniture 18, consisting of a furniture body 20 and a movably mounted therein furniture part 2, wherein the furniture part 2 is in the closed position SS. The movable furniture part 2 is connected to the carcass rail 22 via a drawer rail 21 (possibly also via a middle rail). According to this schematic illustration, the carcass rail 22 also forms the housing 4 of the lockable ejection device 1. This ejection device 1 has an ejection element 3, which is acted upon by an ejection force accumulator 24 in the opening direction OR. In Fig. 1, this ejection force memory 24 is stretched since the path of the ejection element 3 is blocked in the opening direction OR by the locking element 5. At the drawer rail 21, a driver 23 is fixed, with which the locking element 5 is at least temporarily connected via the transmission device 7. The transmission device 7 on the one hand, the detection device 6 for detecting the position of the driver 23 and thus of the movable furniture part 2 and the rotary member 8.
If, as shown in FIG. 2, the movable furniture part 2 is pressed in the closing direction SR, the movable furniture part 2 reaches the over-pressed closed position ÜS. With this movement, the driver 23 and the detection device 6 is moved in the closing direction SR, so that via the rotary member 8, the locking element 5 is moved transversely to the direction of movement of the movable furniture part 2 and releases the path for the ejection element 3 in the opening direction OR.
In substantially the same way, according to FIG. 3, an unlocking of the locking element 5 takes place when the movable furniture part 2 is pulled in the opening direction. As a result, the movable furniture part 2 reaches an open position ZS (pulling position) immediately upstream of the closed position SS in the opening direction OR.
As soon as the locking element 5 has released the ejection element 3-either by pressing (see FIG. 2) or by pulling (see FIG. 3) -the ejection force accumulator 24 can move in the opening direction OR, as shown in FIG. 4, and the movable furniture part 2 take or eject. The driver 23 can - as known per se - get by pivoting the detection device 6 in a freewheel. As a result, the movable furniture part 2 is in the open position OS.
A first embodiment of the present invention is shown in Figs. 5-13. In the exploded views of Fig. 5 and Fig. 6, the housing 4 of the ejection device 1 is shown, along the guide tracks 39, the ejection element 3 is movable. This ejection element 3 is connected via means, not shown, at least in sections with the movable furniture part 2 in connection. Between the ejection element 3 and the housing 4, the base member 25 along the guide track 31 is slidably disposed. On the base member 25 and the spring guide 34 for the ejection force accumulator 24 • • • ·· # ♦ «··· · · · · arranged. The spring bases for the ejection energy storage 24 form on the one hand the thicker end region of the spring guide 34 and on the other hand, the stop 33 on the ejection element 3. On the base member 25, the axis of rotation D is arranged for the rotary member 8 by a bolt. The rotary element 8 forms in this first embodiment simultaneously the locking element 5, wherein in the locking element 5 of the locking portion 37 for a in Fig. G. 6 illustrated locking element 17 is formed. On the locking element 5, the two brackets 11 and 12 engage. The bracket 11 engages over its bolt-shaped end in the connecting hole 29 of the locking element 5 a. In addition, the bracket 11 is slidably guided via the guide member 26 formed in the housing 4 slot 15. The bracket 11 is further supported spring-loaded on the force accumulator 9 forming spring 13 on the stop 28. This stop 28 is connected via the attachment portions 32 fixed to the housing 4. In the same way, the bracket 12 is held by its bolt-shaped front end in the connecting hole 30 of the locking element 5. Furthermore, the guide member 27 of the bracket 12 is slidably guided in the lower slot 16. In addition, this bracket 12 is spring-loaded via the force also memory 9 forming spring 14. About the connecting hole 46, the rotary member 8 and the locking member 5 is rotatably connected to the bolt-shaped axis of rotation D of the base member 25. In the exploded view of FIG. 6 it can also be seen that a guide web 36 is formed on the base element 25 and engages in the guide track 31 in the housing 4. The guide bar 36 is slightly shorter than the guide track 31, so that the base member 25 can join the overpressure movement and the pulling movement. The ejection element 3 is limitedly displaceable over the stop 33 in the spring guide track 35 of the housing 4. On the one hand, the ejection element 3 can be moved in the opening direction OR up to the stop 47 and on the other hand in the closing direction SR until the ejection force accumulator 24 is fully tensioned or until it stops against the spring guide 34.
In Fig. 7, the ejection device 1 is shown in the assembled state, wherein the stopper 3 projects into the spring guide track 35. In addition, the two guide element 26,27 protrude into the corresponding slots 15 and 16. The entire lockable ejector 1 is in the closed position SS. • · 9 · · · I ♦ «· δ • ......... * ** ♦♦ · «« «« |
For this purpose, the lockable ejection device 1 is also shown in Fig. 8 in the closed position SS. Since the two formed as compression springs springs 13 and 14 are equally strong, is also the locking element (= rotary member 8) in the middle position M. In this case strikes the guide member 27 at the right end of the offset slightly to the left slot 16 and can not move further in opening direction OR. Since the spring 13 is equally strong, the guide member 26 remains at the left end of the further offset to the right elongated hole 15. The arranged on the ejection element 3 locking element 17 is held in the locking portion 37 of the locking element 5. The path of the locking element 17 in the opening direction OR is thus blocked by the locking element 5.
If, starting from this closed position SS, the movable furniture part 2 is pressed in the closing direction SR, the lockable ejection device 1 enters the over-pressed closed position ÜS according to FIG. 9. In this case, the position of the movable furniture part 2 is passed on via a detection device 6 (not shown) and the ejection element 3, which forms the transmission device 7 together with the engagement element 10 formed by the latching element 17, moves the locking element 5 relative to the housing 4 to the left. Since the upper bracket 11 can not move further to the left due to the left on the slot 15 abutting guide member 26, the rotary member 8 forcibly rotates clockwise until the guide member 27 of the bracket 12 against the force of the spring 14 to the left stop of Langloch's 16 moves. At the same time the axis of rotation D moves by half the distance relative to the housing 4. This rotation of the rotary member 8 also pivots the locking portion 37, whereby the locking element 17 - which has initiated the overpressure movement in the locking element 5 - released and thus no longer from Locking element 5 is locked.
The same unlocking effect is achieved even when pulling the movable furniture part 2 of FIG. 10. When pulling on the movable furniture part 2, the ejection element 3 moves and with this the latching element 17 in the opening direction OR * · 9 ································································································································· By the latching element 17, which simultaneously forms the engagement element 10, the rotary member 8 is moved to the right in the opening direction OR. The lower bracket 12 can not be moved further in the opening direction OR due to the right stop of the elongated hole 16 guide member 27. In contrast, the bracket 11 can be moved with its guide member 26 in the upper slot 15 further in the opening direction OR, which in turn causes a rotational movement of the locking element 5 and rotary member 8 about the axis of rotation D in the clockwise direction. The axis of rotation D moves approximately half as far as the connecting hole 29 relative to the housing 4 in the opening direction OR, until the guide web 36 abuts against one end of the guide track 31. By turning the locking element 5 in the clockwise direction, the locking element 17 also arrives outside the locking area 37 of the locking element 5 in this FIG.
As a result of this unlocking, according to FIG. 11, the ejection force accumulator 24 can relax and move the ejection element 3 and with it the movable furniture part 2 in the opening direction OR via a connecting device (not shown). As soon as the latching element 17 is no longer in contact with the locking element 5, in each case one of the springs 13 or 14 moves back into the starting position, so that the rotary element 8 again moves counterclockwise into the starting position or middle position M according to FIG. 11 ,
According to FIG. 12, the ejection force accumulator 24 has further relaxed and a further open position OS of the ejection device 1 or of the movable furniture part 2 has been reached.
When the movable furniture part 2 is closed again, the ejection force accumulator 24 is tensioned via a movement of the ejection element 3 in the closing direction SR again. In the last part of the closing portion (see FIG. 13), the locking element 17 comes into contact with the locking element 5, during further supply presses the locking element 17 on the run-on slope 38 and rotates the locking element 5 so long about the axis of rotation D against the force of
Spring 14 until the locking element 17 is snapped or locked in the locking portion 37. This then returns to the starting position {closed position SS) according to FIG. 8.
Figs. 14 to 20 show another embodiment of the present invention, wherein the rotary member 8 and the locking member 5 are designed as separate components. On the housing 4, in turn, the ejection element 3 is displaceably mounted along a guide track 39. This ejection element 3 is held by a locking end portion - which forms the locking element 17 - by the locking element 5. The locking element 5 in turn is rotatably mounted on the housing 4 about the axis of rotation X and acted upon by a force accumulator 9 supported on the housing 4. In addition, a rotary member 8 is rotatably supported on the housing 4 via the rotation axis D. Outside the fulcrum of this rotary element 8 is the engagement element 10, with which the detection device 6 is connected. The detection device 6, the engagement element 10 and the rotary element 8 together form the transmission device 7 for transmitting the position of the movable furniture part 2 on the locking element 5. Specifically, this position is passed through the V-shaped portion V of the rotary member 8 to the locking element 5.
Correspondingly, the closed position SS is shown in FIG. 16, in which the locking element 5 abuts the pivot point P of the V-shaped region V of the rotary element 8 and the rotary element 8 is thus located in the middle position M. The energy storage 9 is at least somewhat relaxed, so that the locking portion 37 of the locking element 5 blocks the path of the ejection element 3 in the opening direction OR. This is achieved by the widened end of the ejection element 3, which thus forms the latching element 17.
If, according to FIG. 17, in the closing direction SR is pressed to the right on the movable furniture part 2, the detection device 6 and with this the engagement element 10 moves to the right. Since the engagement element 10 acts eccentrically on the rotary member 8, this rotates clockwise, whereby the locking element 5 can no longer abut the drehachsnächsten point P of the V-shaped portion V and is pivoted against the force of the energy accumulator 9 counterclockwise. As a result, the locking portion 37 no longer blocks the locking element 17, as a result of which the ejection element 3 is released or unlocked.
Even when pulling on the movable furniture part 2 in the opening direction OR, the detection device 6 together with the engagement element 10 moves to the left in the opening direction OR (see FIG. 18). As a result, the rotary member 8 rotates out of its central position M counterclockwise and the locking member 5 is again no longer at the drehachsnächsten point P of the V-shaped portion V at. However, the locking element 5 is again pivoted under tensioning of the force accumulator 9 counterclockwise, which in turn the discharge element 3 is released.
As soon as the overfilled closed position ÜS (FIG. 17) or the open position ZS (FIG. 18) immediately upstream of the closed position SS is reached, the ejection force accumulator 24 not shown in this exemplary embodiment can move the ejection element 3 in the opening direction OR, as shown in FIG is shown. As soon as the movable furniture part 2 reaches the open position OS or as soon as the detection device 6 is free, the energy accumulator 9 can relax again and moved via the locking element 5, the rotary member 8 back into its center position M.
When closing the ejection force accumulator 24, not shown, again tense and the ejection element 3 in the closing direction SR shown in FIG. 20 moves. As soon as the thickest point of the ejection element 3 has been overcome, the detent element 17 of the ejection element 3 is again frictionally engaged by the locking region 37 of the locking element 5 and partially held positively. 4 · «12 4 ·« 12 • · • · • »··
* 4M
A third embodiment of a lockable ejection device 1 is shown in Figs. 21 to 27. According to FIGS. 21 and 22, this ejection device 1 has a housing 4, the ejection element 3 being displaceably mounted in a guide track 39 of the housing 4. Between the spring base 40 formed on the housing 4 and the spring base 41 formed on the ejection element 3, the ejection force accumulator 24 designed as a tension spring is clamped. A widened end of the ejection element 3 in turn forms the latching element 17. The locking element 5 is not rotatable but slidably mounted in a web 48 of the housing 4 in this third embodiment. At the end of this path 48, the locking element 5 by a force accumulator 9 (compression spring) acted upon. The locking element 5 has a slot 45. At the end of the locking element 5 pointing in the direction of the guide track 39, the locking area 37 is arranged. In the housing 4, a bolt receptacle 43 is formed for the bolt 42, said bolt 42 simultaneously forms the axis of rotation D for the rotary member 8 and projects through the slot 45 therethrough. The bolt 42 is connected via the bolt receptacle 44 with the rotary member 8. The rotary element 8 additionally has a V-shaped region V, against which the rear end of the locking element 5 rests. In addition, a recess is eccentrically provided in the rotary member 8, which forms the engagement element 10 for a transmission device 7 not shown in detail in this third embodiment.
According to FIG. 23, the lockable ejection device 1 is in the closed position SS. The force accumulator 9 is essentially relaxed, and the locking region 37 of the locking element 35 blocks the ejection element 3 in the opening direction OR. Trained as a tension spring ejection force memory 24 is stretched. The rotary element 8 is located in the middle position M, wherein the rear end of the locking element 5 abuts against the next-axis point P of the V-shaped region V of the rotary element 8.
As soon as upon pressing the movable furniture part 2 in the closing direction SR in the overpressed closed position ÜS the engagement element 10 is moved via the not shown transfer device 7 in the closing direction SR, the rotary member 8 rotates clockwise about the rotation axis D, whereby the rear end of the locking element. 5 is moved backwards against the force of the energy accumulator 9 (see Fig. 24). This is achieved in that the rotary element 8 is moved out of the central position M and thus the rear end of the locking element 5 is no longer abutting the point of rotation P next point. At the same time, the locking area 37 moves back and releases the path for the locking element 17 and the ejection element 3 in the opening direction OR.
Even when pulling on the movable furniture part 2 in the opening direction OR, the engagement element 10 moves in the opening direction OR with and thereby rotates the rotary member 8 in this case counterclockwise (see Fig. 25). As a result, in turn, the locking element 5 is displaced against the force of the force accumulator 9, whereby the locking portion 37, the Rastefement 17 and thus the ejection element 3 releases.
As a result of this release or unlocking, the ejection force accumulator 24 can relax and move the ejection element 3 in the opening direction OR into the open position OS according to FIG. 26. As soon as there is no more force acting on the engagement element 10, the energy accumulator 9 can relax again and the rotary element 8 gets into the middle position M.
When closing the movable furniture part 2, the ejection element 3 again moves past the locking region 37 of the locking element 5 via the starting bevel 38, after which the ejection element 3 is again held partially positively and partially frictionally engaged on the locking region 37. The friction between the ejection element 3 and the locking region 37 due to the ejection force memory 24 must be greater than the spring force of the energy accumulator. 9
Thus, by the present invention an alternative to the previous lockable ejection devices 1 embodiment of the locking element 5 is shown, wherein the ejection element 3 both in overpressing the movable 14 • · · *
Furniture part 2 and when pulling the movable furniture part 2 by a relative movement of the locking element 5 to the housing 4 can be unlocked.
In principle, of course, adaptations to the entire device while maintaining the basic idea are possible. Thus, e.g. the entire ejection device 1 may also be arranged on the movable furniture part 2 and repel on a carrier 23 fixed to the body.
In principle, it is also possible that, in addition to the ejection element 3, a preferably damped retraction device is also provided, with which the furniture part 2 is pulled in gently in the closing pitch SS. This can be structurally integrated into the entire construction or be designed separately. The housing 4 need not be understood as housing, but rather may be formed as a pure mounting plate on which the essential components of the lockable ejection device 1 are arranged.
Innsbruck, on 09.07.2012

权利要求:
Claims (14)
[1]
* J15.U5 22 & h 1 * * * ♦ • ♦ «· · · #« ·· ··· «1. A lockable ejection device (1) for a movable furniture part (2), with * - one, the movable furniture part (2) in the opening direction (OR) acted upon ejection element (3), - a housing (4) and - a in or on the housing (4) arranged locking element (5), by at least in the closed position (SS) of the movable furniture part (2) the path of the ejection element (3) in the opening direction (OR) is lockable, wherein by the locking element (5) the ejection element (3) both at overpressures of the movable furniture part (2) from a closed position (SS) in the closing direction (SR) and at Pulling the movable furniture part (2) from the closed position (SS) in the opening direction (OR) is releasable, characterized in that the ejection element (3) both when overpressing the movable furniture part (2) and when pulling the movable furniture part (2) one e relative movement of the Vemegelungselements (5) to the housing (4) can be unlocked.
[2]
2. Ejecting device according to claim 1, characterized by - a detection device (6) for detecting the position of the movable furniture part (2) and - a transmission device (7) for transmitting the detected by the detection device (6) position of the movable furniture part (2) the locking element (5), wherein the locking element (5) is movable in response to the detected position.
[3]
3. Ejecting device according to claim 2, characterized in that the detection device (6) in the closed position (SS), in overpressed closed position (ÜS) and, the closed position (SS) at least immediately upstream, open position (ZS) of the movable furniture part (2) on the movable furniture part (2) rests or is connected to the movable furniture part (2). .71515 22 / eh 2 4 • «* · * · •» «« • »« · • 4 · * ♦ *
[4]
4. Ejecting device according to claim 2 or 3, characterized in that the transmission device (7) has a rotary element (8) which is durable by at least one energy storage device (9) in a central position (M).
[5]
5, ejection device according to claim 4, characterized in that the detection device (6) via an engagement element (10) on Dreheiement (8) engages, both during movement of the engagement element (10) in the opening direction (OR) and in the closing direction (SR) the rotary element (8) is rotatable from the central position (M).
[6]
6. ejection device according to 4 or 5, characterized in that at outside of the central position (M) befindlichem rotary member (8), the locking of the ejection element (3) is canceled.
[7]
7. ejection device according to one of claims 4 to 6, characterized in that the rotary element (8) at the same time the locking element (5).
[8]
8. Ejecting device according to claim 7, characterized in that the locking element (5) via two brackets (11,12) with two, the energy storage device (9) forming springs (13,14) is connected, wherein the springs (13,14) on the one hand on the housing (4) are fastened and on the other hand in each case at one end of one of the two brackets (11,12) are fixed, wherein the brackets (11,12) in the housing (4) formed oblong holes (15,16) are limitedly movable ,
[9]
9. Ejecting device according to claim 8, characterized in that the rotational movement of the locking element (5) when unlocking in one direction, preferably in a clockwise direction, takes place, wherein the rotational movement due to the in the two slots (15,16) via guide elements (26, 27) guided bracket (11,12) is limited. 7J5J§22fch • ♦ * * • # »« * * «» »· · · ►» 9 · «·» t · · ··· * · · · · * * «· ♦ ··
[10]
10. Ejecting device according to one of claims 4 to 6, characterized in that the locking element (5) and the rotary member (8) are formed separately, wherein the locking element (5) from the energy storage device (9) is acted upon and on the rotary element (8) ,
[11]
11. Ejecting device according to claim 10, characterized in that the locking element (5) on a V-shaped portion (V) of the rotary member (8) is located, wherein the rotary member (8) is then in the center position (M) when the Locking element (5) at the drehachsnächsten point (P) of the V-shaped portion (V) is applied.
[12]
12. Ejecting device according to one of claims 1 to 11, characterized in that the ejection element (3) in the closed position (SS) via a latching element (17), preferably a form-fitting manner, is held on the locking element (5).
[13]
13. Ejecting device according to one of claims 1 to 12, characterized in that the Verriegelungseiement (5) both at overpressures of the movable furniture part (2) from a closed position (SS) in the closing direction (SR) and when pulling the movable furniture part (2) from the closed position (SS) in the opening direction (OR) transverse to the opening direction (OR) is movable.
[14]
14. Furniture (18) with a movable furniture part (2) and a lockable ejection device (1) according to one of claims 1 to 13 for the movable furniture part (2). Innsbruck, on 09.07.2012

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同族专利:

公开号 | 公开日

US20150091427A1|2015-04-02|

AT512509B1|2013-09-15|

EP2872002B1|2016-11-02|

JP2015521923A|2015-08-03|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US7374261B1|2006-12-08|2008-05-20|Dynaslide Corporation|Push-open type slide structure|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA768/2012A|AT512509B1|2012-07-10|2012-07-10|Ejecting device for a movable furniture part|ATA768/2012A| AT512509B1|2012-07-10|2012-07-10|Ejecting device for a movable furniture part|

JP2015520765A| JP5973663B2|2012-07-10|2013-05-17|Ejector for movable furniture parts and furniture including it|

CN201380036578.6A| CN104684440B|2012-07-10|2013-05-17|Ejecting mechanism for displaceable furniture parts|

EP13731252.6A| EP2872002B1|2012-07-10|2013-05-17|Ejection device for a movable furniture part|

PCT/AT2013/000089| WO2014008520A1|2012-07-10|2013-05-17|Ejection device for a movable furniture part|

US14/563,160| US9375083B2|2012-07-10|2014-12-08|Ejection device for a movable furniture part|

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