• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Locking device (1) for at least one pull-out barrier (2) for withdrawable from a furniture body extracts, in particular drawers, wherein the locking device (1) has at least one locking bar (3) with at least one locking pin (4), wherein the locking pin (4) by means of Locking rod (3) between a locking position for locking a locking element (5) of the pull-out lock (2) and a release position for releasing the locking element (5) of the pull-out lock (2) is adjustable, wherein the locking device (1) in addition to the locking bar (3) at least a support rod (8).
    公开号:AT516748A4
    申请号:T109/2015
    申请日:2015-03-02
    公开日:2016-08-15
    发明作者:Wolfgang Telge
    申请人:Fulterer Gmbh;
    IPC主号:
    专利说明:

    The present invention relates to a locking device for at least one pull-out for withdrawable from a furniture body extracts, in particular drawers, wherein the locking device comprises at least one locking bar with at least one locking pin, wherein the locking pin means of the locking bar between a blocking division for blocking a locking element of the pull-out lock and a release position to release the locking element of the pull-out lock is adjustable.
    Pull-out barriers for withdrawable from a furniture body extracts, especially for drawers are known in the prior art in a variety of embodiments. They generally serve to ensure that only a predetermined number of statements, usually only an excerpt, can be pulled out of the furniture body at the same time. Is the extract or the predetermined number of statements in the pulled out of the furniture body position, so prevents the pull-out that in addition even more extracts from the furniture body can be pulled out. In addition, most known in the prior art pull-out locks can also be used to make the furniture body lockable. In the locked or locked state, the pull-out lock then holds all the pull-outs in the furniture body so that not a single pull-out can be pulled out. For lock or shut off the pull-out lock most different locking devices are known in the prior art. DE 44 16 768 C2 shows a rope-based pull-out lock, wherein the locking device has a lock pin operable by means of a lock. The AT 509 331 B1 shows a pull-out lock, in which a sequence of sliding and tilting elements is arranged in a rail of the pull-out lock. The locking device shown in this document is similar to that constructed in DE 44 16 768 C2.
    A generic locking device for a pull-out lock is disclosed in DE 296 20 152 U1. Here, the locking device on a locking bar, which locks the locking element of the pull-out lock in a blocking division with its end-mounted locking pin and releases in a release position. In this document, the locking rod between its locking division and its release position is suspended pivotally about a pivot point at a pivot point predetermining tab. This tab is attached to the furniture body.
    In other words, the technology shown in DE 296 20 152 U1 thus requires at least one additional suspension point with the pivot point or the tab, which additionally has to be fastened to the furniture carcass for the pull-out barrier.
    The object of the invention is to further improve a locking device of the type mentioned above to the effect that it manages with as few suspension points on the furniture body.
    The invention proposes for this purpose that the locking device has at least one support rod in addition to the locking bar.
    The invention makes it possible that the locking device is supported exclusively by the support rod and its suspension points, so that it is possible to dispense with additional suspension points and suspension straps, as are necessary in the cited prior art. By provided in addition to the locking rod support rod, the locking device can be attached directly to the pull-out or between two pull-out locks. It comes with two suspension points. These suspension points are preferably each integrated in a pull-out lock. The support bar may e.g. be attached with its two opposite ends in each case a pull-out lock. In particular, in such embodiments are then no additional attachment points for the locking device of need. Of course, this does not exclude that, for other reasons additional attachment or suspension points are provided for the locking device on the furniture body.
    The locking rod and the support rod can be parallel to each other. The term rod is to be interpreted broadly. It is ultimately an elongate object, e.g. can be designed as a rod, a pipe or the like. The locking device may comprise one, two or more locking bars as well as one, two or more supporting bars. Preferably, an axisymmetric configuration of the locking device is provided. In terms of a releasable and quickly realizable attachment of the locking device to the pull-out lock or other points in the furniture body preferred variants of the invention provide that the locking device on the support rod at least one locking element for, preferably releasable, locking the locking device on the pull-out lock or furniture body or another component attached to the furniture body and at least one resilient biasing element, wherein the resilient biasing element biases the detent element into a latched position. In other words, it is preferably provided that the support rod can be fastened by means of at least one latching element in the form of a latching connection in its operating position. The resilient biasing element may be a spring, such as a spring. a coil spring, torsion spring or leaf spring act. However, other elastic biasing elements such as e.g. Elastomer body or the like may be provided to realize this. The elastic biasing element and the latching element may each be formed as a separate component but also integrated into a component. Particularly preferred variants provide that the latching element in the longitudinal direction of the support rod is displaceably mounted and / or biased relative to the support rod.
    Preferred variants provide that at least one latching element, which is prestressed by means of an elastic pretensioning element, is arranged at one end of the support rod. In the sense of an axisymmetric arrangement, particularly preferred variants provide that a latching element, which is prestressed by means of an elastic pretensioning element, is arranged at each of the mutually opposite ends of the support rod. By one elastically prestressed or the at least two elastically prestressed locking elements, in preferred embodiments, a self-centering of the locking device can be ensured. Another advantage is that a tool-free installation is possible. In any case, a self-supporting suspension of the locking device is possible by means of the support rod according to the invention. The attachment of the support rod by means of the elastically biased locking element allows in preferred embodiments, a tolerance compensation during installation of the locking device in the furniture body or between the pull-out locks.
    In the case of locking devices according to the invention, the locking device and / or the pull-out lock can be arranged in the extension direction of the pull-outs both in the front and in the back as well as in an intermediate region in the body. The front is the side of the furniture body on which the extracts can be pulled out of the furniture body. Rear refers to the front side in the extension direction opposite back of the furniture body.
    In particular, when the locking device is arranged further back in the furniture body, the control of the locking bar or locking rods can be done via a control rod. In principle, this control can of course also be done without a control rod when the lock alone already extends to the locking device. It can be e.g. about a rotatable about its longitudinal axis control rod, which can be rotated by a conventional lock act. The transmission of the rotational movement of the control rod about its longitudinal axis to the at least one locking bar of the locking device can then preferably take place via at least one eccentric. In order to move the locking rod back and forth between its release position and its locking division, a 90 ° pivoting movement of the eccentric is generally sufficient. If you use locks with a maximum tilt angle of only 90 ° to control the
    Locking device or the eccentric, the rotational movement in the lock can be transmitted directly to the eccentric. In order to combine the locking device with other locks available on the market, which have a closing angle deviating from 90 °, freewheels or over or reductions can be provided. It can thus be provided that the locking rod and / or the locking pin by means of an eccentric of the locking device, preferably in the longitudinal direction of the locking bar, is displaceable or are.
    Preferred variants of the invention provide that the locking device at its opposite ends, preferably mirror-symmetrical to each other, each having at least one locking element and at least one elastic biasing element and / or at least one locking pin.
    Particularly preferred variants of the invention provide that the locking pin, preferably by means of the locking rod, in the longitudinal direction of the locking rod between the locking position and the release position is movable back and forth. It can be provided that the elastic biasing element for the locking element biases the locking pin elastically toward the release position. In these embodiments, the elastic biasing element thus fulfills a dual function. On the one hand it biases the locking element of the support rod in the locked position. On the other hand, it also ensures a resilient bias of the locking pin towards the release position. It can thus be provided that the elastic biasing element is supported on the one hand on the locking element and on the other hand on the locking pin or attacks.
    In terms of a construction of the locking device with the smallest possible number of individual parts preferred variants provide that on the locking pin a passage is arranged through which the support rod is passed. Preferably, it is also provided that the latching element is mounted by means of a bearing device displaceable on the locking pin. Particularly preferably, it is a non-destructively releasable and reconnectable storage facility. This simplifies in particular the assembly of the locking device.
    In addition to the locking device itself can also be provided an arrangement of at least one locking device according to the invention and at least one pullout in which the blocking element of the pullout lock is locked in the blocking division of the locking pin and adjustable in the release position of the locking pin. Particularly preferred in such arrangements is provided that they have two pull-out locks, between which the locking device is arranged. Particularly preferably, the locking device is suspended exclusively on the pull-out locks.
    Further features and details of preferred embodiments are described by way of example in the following description of the figures with reference to various embodiments. Show it:
    Fig. 1 to 16 and 18 to 21 a first embodiment of the invention for a rope-based pull-out lock;
    Fig. 17 shows a variant of this when driving the eccentric and Fig. 22 to 27, a corresponding locking device for a rail-based pull-out lock.
    In preferred embodiments of the invention, such as those shown here, the locking devices 1 are attached with their support rod 8 exclusively on two opposite in the furniture body arranged pull-out locks 2. It is a self-supporting suspension, can be dispensed with additional fixtures or suspension points of the locking device on the furniture body. The pull-out locks 2 are fastened in a known, suitable manner in the furniture body. The furniture body itself is not shown in the embodiments shown here.
    First, the first embodiment will be described. Fig. 1 shows a perspective view of the arranged between two pullout 2 locking device 1. Fig. 2 shows a frontal view of this situation. Fig. 3 shows a Fig. 1 and Fig. 2 associated view from above. 4 and 5, the locking device 1 of this embodiment of the pull-out blocks 2 is shown detached. Fig. 6 shows the attached to the pullout 2 locking device 1 in the operating position, wherein the locking pin 4 is in its blocking position in which it locks the blocking element 5 of the pullout lock or blocks. Fig. 7 shows the detail A and Fig. 8 shows the detail B of Fig. 6. In Fig. 9, the locking pin 4 is brought into its release position. The blocking element 5 of the pull-out lock 2 is released, but is still in its starting position. FIG. 10 shows the area C from FIG. 9 enlarged. Fig. 11 shows enlarged area D of Fig. 9. In Fig. 12, the locking pin 4 is still in its release position. The blocking element 5 of the pull-out lock 2 is deflected by train on the cable 16 down. Enlarged, this is shown in FIG. 13, which shows the region E from FIG. 12. Fig. 14 is an exploded view of this embodiment, in which the individual parts are better recognizable. FIG. 15 shows the area F from FIG. 14 enlarged and FIG. 16 shows the area G from FIG. 14 enlarged. Fig. 17 shows a modified variant for controlling the eccentric 11 which will be discussed below. 18 and 20 show in a partially sectioned illustration the position of the eccentric 11 in the blocking division of the locking pin 4 (FIG. 18) and in the release position of the locking pin 4 (FIG. 20). FIG. 19 shows the area H from FIG. 18 enlarged. FIG. 21 shows the region I from FIG. 20 enlarged.
    The pull-out lock 2, which is only partially shown here in this first exemplary embodiment, is a rope-based system. With regard to the question of how such pull-out locks 2 can basically be executed in detail, reference may be made to the prior art. For example, the pull-out lock 2 of this embodiment can basically be designed as the pull-out lock shown in DE 44 16 768 C2. The co-operating with the rope 16 and an extract pivot lever are not shown here in this embodiment. Regardless of how this pull-out lock 2 is now performed in detail according to the prior art, it is in any case such that no extract from the furniture body can be pulled out in these embodiments, when the locking pin 4 of the locking device 1 in its blocking position shown in FIG 1,2, 6-8 and 18 and 19 are located. In this blocking division, the respective locking pin 4 locks the respective blocking element 5 in such a way that the cable 16 fastened to the blocking element 5 can not be deflected. The locking pin 4, however, is in its release position according to FIGS. 9 to 13 and 20 and 21, the cable 16 can be deflected transversely to its longitudinal extent, whereby it is possible to extract an extract from the furniture body. By deflection of the cable 16, the blocking element 5 of the pull-out lock is moved from the position according to FIGS. 9 to 11 into the position according to FIGS. 12 and 13. The cable 16 can be deflected so far until the locking element 5 abuts the stop 32 of the bearing housing 18. The distance between the position of the blocking element 5 according to FIGS. 9 and 10 and its stops on the stop 32 according to FIGS. 12 and 13 is usually chosen so that only a single extract can be pulled out of the furniture body. Once this is in its extended position, the cable 16 is usually deflected so far that the blocking element 5 abuts the stop 32 and can not be deflected further and thus also a further deflection of the cable 16 is no longer possible. This prevents that additional extracts can be pulled out of the furniture body. Of course, it is deviating from this but also possible to design the pull-out lock 2 so that at the same time two or another predetermined larger number of extracts can be pulled out of the furniture body by the maximum possible distance for the blocking element 5 and thus the maximum possible deflection of the Seiles 16 accordingly pretends. In the embodiment shown, it is provided in any case that the cable 16 at its one end fixed to the cable storage 17 and thus fixed to the rail 33 of the pull-out lock 2 shown here is arranged. The other end of the rope 16 is fixed to the blocking element 5. The blocking element 5 is displaceably mounted in the bearing housing 18 of the pull-out lock 2 in the longitudinal direction of the cable 16. The biasing spring 23, which is supported on the one hand in the bearing housing 18 and on the other hand on the blocking element 5, biases the blocking element 5 in the direction of its starting position according to FIGS. 1, 2, 6 to 11 and 18 to 21.
    The locking device 1 of this first embodiment is constructed axially symmetrical. It has two locking rods 3, each with a locking pin 4 and according to the invention additionally a support rod 8. At the opposite ends 14 and 15 of the locking device 1, a latching element 6 is arranged on the support rod 8, which is in each case biased by a resilient biasing member 7 in the longitudinal direction 9 of the support rod 8. This bias pushes the respective locking elements 6 away from each other away, ie in the position in which the locking elements 6 as shown in FIGS. 1 and 2 engage in the corresponding locking receptacles 21 on the respective bearing housing 18 of the respective pull-out lock 2. The locking elements 6 are thus mounted relative to the support rod 8 in the longitudinal direction 9 of the support rod 8 slidably. As an elastic biasing element 7, a helical spring 7 is provided in this embodiment in each case. By the interaction of support rod 8, elastic biasing elements 7 and locking elements 6 is a self-supporting and self-centering suspension is created for the locking device 1 when the locking elements 6 are engaged in their respective locking receptacles 21 of the respective pull-out locks 2, as e.g. is shown in Figs. 1-3. By this self-supporting suspension can be dispensed with additional mounting straps and the like, which would have to be attached to the furniture body. Of course, this does not necessarily exclude that for some other reason such additional suspensions are nevertheless realized.
    The elastic biasing elements 7 are each supported on the locking pin 4 on their respective sides facing away from the locking elements 6. In the concrete embodiment, 4 bushings 12 are provided for the support rod 8 at each locking pin. At these bushings 12, the elastic biasing elements 7 are supported. The elastic biasing element 7 is thus supported on the one hand on the locking element 6 and on the other hand on the locking pin 4. The
    Locking elements 6 are slidably mounted on the locking pin 4 in this as well as in other preferred embodiments by means of a non-destructively releasable and re-connectable bearing device 13.
    This is realized in this embodiment by means of the locking pins 22 which are fixedly arranged on the locking element 6 and are each snapped into the bearing means 13 at the bushings 12. The locking pin 22 as well as here elastic claw-shaped storage facilities 13 have in their interaction a double function. On the one hand, the locking pins 22 are mounted in the longitudinal direction 9 of the support rod 8 slidably in the storage facilities 13. On the other hand, the locking pins 22 in their interaction with the respective bearing device 13 also provide for a non-destructively releasable and reconnect attachment of the locking element 6 on the respective locking pin 4. This can be used for mounting and dismounting of the respective locking element 6 on the support rod 8.
    In the symmetrical arrangement of the locking device 1 realized here, two locking rods 3 are provided, which each carry a locking pin 4 at the ends 14 and 15 of the locking device 1. The locking pin 4 are movable by means of the locking rod 3 in each case in the longitudinal direction 10 of the locking rod 3 between the locking position and the release position back and forth. By the respective existing elastic biasing element 7 each of the locking pin 4 is biased toward the release position shown in FIG. 9 to 13. This bias counteracts an eccentric 11 in the eccentric housing 25, which is supported here in this embodiment via plugs 26 on the locking rods 3. The eccentric housing 25 is suspended in this embodiment on the support rod 8. In this context, it should be pointed out that in preferred embodiments, as realized here, the elastic biasing element 7 thus fulfills a dual function. On the one hand, each elastic biasing element 7 biases the detent element 6 in the direction of its latched position. On the other hand, it tensions elastic
    Biasing element 7 also in each case a locking pin 4 in the direction of its release position.
    In the embodiment of the locking device 1 realized here, the eccentric housing 25 is located with the eccentric 11 in the middle of the locking device 1. Of course, this mirror-symmetrical arrangement does not have to be so realized. It does not matter where along the support rod 8, the eccentric housing 25 and the eccentric 11 are arranged. Depending on the control of the eccentric 11, this can be adjusted accordingly.
    The control or rotation of the eccentric 11 takes place in the illustrated embodiment via a control rod 19, which is fastened by means of the control rod connection 20 on the eccentric 11. In the embodiment shown, the control rod connection is made in two parts. Its two parts can be connected to each other via latching connections. This can be clearly seen in the exploded view according to detail G in FIGS. 14 and 16. The attachment of the eccentric 11 in the eccentric housing 25 is effected in this embodiment via a latching connection by means of the latching lug 24. Of course, quite different embodiments of eccentric housing 25 and eccentric 11 can be realized. In this first embodiment, a fixed connection between control rod 19 and eccentric 11 is at least realized via the control rod connection 20, in that each rotation of the control rod 19 is converted about its longitudinal axis directly into a corresponding rotation of the eccentric 11 in the eccentric housing 25. Thus, if the control rod 19 is rotated by 90 ° about its longitudinal axis, the eccentric 11 is rotated in the first embodiment by 90 °.
    At the not shown here, the control rod terminal 20 opposite end of the control rod 19 may be arranged a conventional lock or the like, with which the control rod 19 can be rotated about its longitudinal axis. The first embodiment of the invention is designed so that this lock between its open and closed positions realized a rotation angle of 90 °, which can be transmitted so also directly on the eccentric 11. By this 90 ° rotation of the eccentric 11 between the positions shown in FIG. 18 and 19 on the one hand and the position shown in FIG. 20 and 21 on the other hand, are rotated. In the position shown in FIG. 18 and 19, the eccentric 11 pushes the two locking rods 3 apart, so that on both sides of the respective locking pin 4 is pressed against the bias of each elastic biasing member 7 in the respective blocking position for locking the locking element 5 of the pull-out lock 2. In the position of the eccentric 11 shown in FIGS. 20 and 21, the respective elastic biasing elements 7 can move the respective locking pin 4 in its release position by the locking pin 4 are pressed together with the respective locking rod 3 in the direction towards the eccentric 11. This construction thus makes it possible, via a lock, not shown here, or other control for the rotation of the control rod 19 about its longitudinal axis by means of the eccentric 11 to move the locking pin 4 back and forth between its locking division and its release position.
    Now, if the control rod 19 is rotated by a lock or other control by more than 90 ° about its longitudinal axis, so it makes sense between the eccentric 11 and the control rod 19 to provide a transmission mechanism which the maximum angle of rotation of the control rod 19 about its longitudinal direction in converts a maximum angle of rotation of 90 ° on the eccentric 11. Such a transmission device may e.g. be realized by means of a freewheel or a corresponding transmission or reduction. In FIG. 17, by way of example, deviating from FIG. 16, a variant is shown in which a freewheel by means of the freewheeling groove 27 on the control rod connection 20 and the freewheeling pin 28 on the eccentric 11 are realized. By a corresponding stops of the freewheeling pin 28 at the corresponding ends of the freewheel 27, the eccentric 11 is rotated by a maximum of 90 °. The remaining angle of rotation of the control rod 19 about its longitudinal axis is not transmitted to the eccentric 11 by a freewheeling of the freewheeling pin 28 in the freewheeling groove 27. Thereby, e.g. the control rod 19 are controlled by a lock with a closing angle of 180 ° or rotated without the remaining
    Construction of the locking device 11, apart from the now necessary freewheel, would have to be changed.
    Although here a symmetrical arrangement with movably mounted locking pin and locking elements at both ends 14 and 15 of the locking device 1 is shown, it should nevertheless be pointed out that non-symmetrical variants are conceivable. Thus, it will be sufficient to provide on one side or at one of the ends 14 or 15 a corresponding locking element and / or a corresponding locking pin 4. You would then need only a movably mounted locking rod 3. These embodiments are e.g. then makes sense if only on one side of the furniture body, a corresponding pull-out lock 2 is provided. The this pull-out lock 2 opposite end 14 or 15 of the locking device 1 could then be attached to other suitable manner in the furniture body.
    Of course, locking devices 1 according to the invention can also be applied not only to rope-based pull-out locks 2, as shown in the first exemplary embodiment. Locking devices 1 according to the invention can also be realized for pull-out locks 2 with sliding and / or tilting elements 29 and 30 displaceable along a rail 31. Such pull-out locks 2 are known in a variety of embodiments in the prior art. By way of example, reference is hereby made to the aforementioned AT 509 331 B1 and here, in the sense of a shirred representation, a general description of the function of such pull-off barriers known per se is dispensed with.
    FIGS. 22 to 27 now show a further embodiment of the invention, in which the locking device 1 for such a pull-out barrier 2 is combined with sliding and / or tilting elements 29 and 30 displaceable along the rail 31. The locking device 1 corresponds in its construction and its function to the first embodiment, so that reference is made at this point in this regard to the above descriptions. Fig. 22 shows in this second
    Embodiment, the locking division of the locking pin 4. The detail J of FIG. 22 is shown enlarged in Fig. 23. In FIGS. 24 to 27, the locking pin 4 is in the release position, in which it releases the blocking element 5 of the pull-out lock 2. FIG. 25 shows the region K from FIG. 24 enlarged. FIG. 27 shows an enlargement of the region L from FIG. 26. The sliding elements 29 and the tilting elements 30 and thus also the blocking element 5 arranged on the uppermost sliding element 29 are displaceably mounted along the rail 31. The tilting elements 30 can be tilted by pulling an extract from the furniture body from the visible in Fig. 24 position in the visible in Fig. 26 position. As a result of this tilting of one of the tilting elements 30, the uppermost sliding element 29 with the blocking element 5 is also pushed upwards, which, however, is only possible if the locking peg 4 or the locking device 1 is in its release position. In the blocking position shown in FIG. 22 and 23, the blocking element 5 can not be moved upwards accordingly, so that no extract from the furniture body can be pulled out. Again, the stop 32 prevents that more than one statement or another predetermined number of statements can be pulled out of the furniture body, even if the locking pin 4 is in the release position. For the operation of the pull-out lock 2 of this embodiment, reference is made in detail to the AT 509 331 B1.
    Key to the reference numbers: 1 locking device 18 bearing housing 2 pull-out lock 19 control rod 3 locking rod 20 control rod connection 4 locking pin 21 locking receptacle 5 locking element 25 22 locking pin 6 locking element 23 biasing spring 7 elastic biasing element 24 locking lug 8 support rod 25 eccentric 9 longitudinal direction 26 plug 10 longitudinal direction 30 27 freewheel groove 11 eccentric 28 freewheeling pin 12 passage 29 sliding element 13 bearing device 30 tilting element 14 end 31 rail 15 end 35 32 stop 16 rope 33 rail 17 rope bearing
    权利要求:
    Claims (10)
    [1]
    claims
    1. Locking device (1) for at least one pull-out stop (2) for withdrawable from a furniture body extracts, in particular drawers, wherein the locking device (1) has at least one locking bar (3) with at least one locking pin (4), wherein the locking pin (4) by means of the locking rod (3) between a locking position for locking a locking element (5) of the pull-out lock (2) and a release position for releasing the locking element (5) of the pull-out lock (2) is adjustable, characterized in that the locking device (1) in addition to Blocking rod (3) has at least one support rod (8).
    [2]
    2. Locking device (1) according to claim 1, characterized in that the locking device (1) on the support rod (8) at least one latching element (6) for, preferably releasable again, latching of the locking device (1) on the pull-out lock (2) or on the furniture body or on the furniture body attached to another component and at least one elastic biasing element (7), wherein the resilient biasing element (7) biases the detent element (6) in a locked position.
    [3]
    3. locking device (1) according to claim 2, characterized in that the latching element (6) in the longitudinal direction (9) of the support rod (8) relative to the support rod (8) is displaceably mounted.
    [4]
    4. locking device (1) according to one of claims 1 to 3, characterized in that the locking pin (4), preferably by means of the locking rod (3), in the longitudinal direction (10) of the locking bar (3) between the locking division and the release position and is movable forth.
    [5]
    5. locking device (1) according to one of claims 2 to 4, characterized in that the elastic biasing element (7) for the locking element (6) biases the locking pin (4) elastically toward the release position.
    [6]
    6. locking device (1) according to one of claims 2 to 5, characterized in that the elastic biasing element (7) on the one hand on the latching element (6) and on the other hand on the locking pin (4) is supported.
    [7]
    7. Locking device (1) according to one of claims 1 to 6, characterized in that the locking rod (3) and / or the locking pin (4) by means of an eccentric (11) of the locking device (1), preferably in the longitudinal direction (10). the locking rod (3), is displaceable.
    [8]
    8. Locking device (1) according to one of claims 1 to 7, characterized in that on the locking pin (4) has a passage (12) is arranged, through which the support rod (8) is passed.
    [9]
    9. locking device (1) according to one of claims 2 to 8, characterized in that the latching element (6) by means of a, preferably non-destructively releasable and reconnectable, bearing device (13) is slidably mounted on the locking pin (4).
    [10]
    10. Locking device (1) according to one of claims 1 to 9, characterized in that the locking device (1) at their opposite ends (14, 15), preferably mirror-symmetrical to each other, in each case at least one latching element (6) and at least one elastic biasing element (7) and / or at least one locking pin (4).
    类似技术:
    公开号 | 公开日 | 专利标题
    EP2265147B1|2014-05-07|Lockable ejector device for a furniture part movably supported in piece of furniture
    DE102012105717A1|2014-01-02|Electromotive furniture drive
    EP2390448A1|2011-11-30|Bidirectional retracting device for a middle sliding door
    EP1865808A1|2007-12-19|Telescopic guide for a furniture part that can be displaced in the body of a piece of furniture
    AT506543A1|2009-10-15|FIXING DEVICE FOR LOCKING A FURNITURE MOVED IN OR ON A FURNITURE
    DE102010037826A1|2012-03-29|Self-closing device for a movable furniture part
    DE102017113063A1|2018-12-20|DIN rail mounting
    EP2497883A2|2012-09-12|Pull-out blocking device
    EP2730734B1|2017-09-13|Bidirectional retraction device for a middle sliding door
    AT516748B1|2016-08-15|Locking device for at least one pull-out lock
    AT507186B1|2010-03-15|ROLLENAUSZIEHFÜHRUNG
    EP2694765B1|2020-06-24|Pull-in device
    EP2630320B1|2014-12-03|Drawer fitting for connecting a drawer to a central locking device
    AT518917B1|2018-08-15|fall Protection
    DE10025396C2|2003-05-08|armrest
    DE202007015990U1|2008-03-13|Shut-off bar for a shut-off device, in particular for escape animals such as horses
    AT514167A1|2014-10-15|locking device
    EP3518707B1|2021-06-23|Retraction device for a drawer pullout
    AT14959U1|2016-09-15|removal barrier
    EP3838669A1|2021-06-23|Blocking bar for assembly in a cargo area of a vehicle
    DE202013102028U1|2014-08-11|cupboards
    DE102014017771B3|2015-12-10|Air outlet device of a ventilation device of a motor vehicle
    AT516236B1|2016-11-15|pull-out
    EP3091317A1|2016-11-09|Household cooler with a bearing unit for a door having a spring element and method for moving a door
    AT518903A1|2018-02-15|Door hinge for a shower partition
    同族专利:
    公开号 | 公开日
    EP3075927A1|2016-10-05|
    AT516748B1|2016-08-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE1945065A1|1969-09-05|1971-03-11|Winter Kg|Lock and safety lock for all types of drawers|
    US3521937A|1968-07-15|1970-07-28|All Steel Equipment Inc|Lock arrangement for office furniture and the like|
    JPH05524Y2|1986-06-09|1993-01-08|
    JPH0445553Y2|1988-09-30|1992-10-27|EP3460154A1|2017-09-26|2019-03-27|FLAP Competence Center kft|Holding element for a flap or a cover of a piece of furniture|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA109/2015A|AT516748B1|2015-03-02|2015-03-02|Locking device for at least one pull-out lock|ATA109/2015A| AT516748B1|2015-03-02|2015-03-02|Locking device for at least one pull-out lock|
    EP16155154.4A| EP3075927A1|2015-03-02|2016-02-11|Locking device for at least a drawer interlock mechanism|
    [返回顶部]