EP3118397B1 - Verriegelung für schiebetür - Google Patents

Verriegelung für schiebetür Download PDF

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Publication number
EP3118397B1
EP3118397B1 EP16179777.4A EP16179777A EP3118397B1 EP 3118397 B1 EP3118397 B1 EP 3118397B1 EP 16179777 A EP16179777 A EP 16179777A EP 3118397 B1 EP3118397 B1 EP 3118397B1
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EP
European Patent Office
Prior art keywords
hooking element
driving
cursor
lock
hooking
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EP16179777.4A
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English (en)
French (fr)
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EP3118397A1 (de
Inventor
Giovanni Aschieri
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BONAITI SERRATURE SpA
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BONAITI SERRATURE SpA
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Priority to PL16179777T priority Critical patent/PL3118397T3/pl
Priority to SI201630068T priority patent/SI3118397T1/sl
Priority to RS20180949A priority patent/RS57610B1/sr
Publication of EP3118397A1 publication Critical patent/EP3118397A1/de
Application granted granted Critical
Publication of EP3118397B1 publication Critical patent/EP3118397B1/de
Priority to HRP20181257TT priority patent/HRP20181257T1/hr
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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B63/00Locks or fastenings with special structural characteristics
    • E05B63/12Locks or fastenings with special structural characteristics with means carried by the bolt for interlocking with the keeper
    • E05B63/126Locks or fastenings with special structural characteristics with means carried by the bolt for interlocking with the keeper the bolt having an additional sliding bolt or movement
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B65/00Locks or fastenings for special use
    • E05B65/08Locks or fastenings for special use for sliding wings
    • E05B65/087Locks or fastenings for special use for sliding wings the bolts sliding parallel to the wings

Definitions

  • the present invention relates to a lock for a sliding door according to the preamble of claim 1.
  • Locks for slidable doors comprising a containing box body, intended for being inserted into a cavity of the abutting edge of the door, and inside which a latch, or hooking element is housed that is movable and suitable for engaging with a retaining plate that is correspondingly fixed on the jamb.
  • the hooking element is movable from a first position in which it is retracted inside the box body, to permit the door to be opened, to a second position in which it exits from the box body and protrudes to engage with the retaining plate and lock the door in a closed position.
  • a mechanism that moves the hooking element from one position to the other and is driven by a rotation that is imposed by a handle or a cylinder housing a key.
  • This lock is configured with a mechanism that imposes on the hooking element a rotary movement in the passage from the retracted position to the protruding engagement position, and this implies limits in functional terms.
  • the rotary movement has the effect that in the retracted position the hooking element is flush with the front surface of the abutting edge of the door, and faces the retaining plate.
  • the hook easily interferes with the plate owing to the movement with rotation that pushes the hook to descend immediately from the start.
  • the object of the present invention is thus to provide a new and different solution for a lock for sliding doors, that meets the aforementioned constructional and functional needs.
  • the present invention thus intends to achieve the aforesaid objects and overcome the drawbacks of conventional locks for sliding doors by a solution according to claim 1.
  • a lock 1 according to the invention is disclosed below, which lock 1 is suitable for being mounted, in particular, on a sliding door 2 for indoors, but which can also be applied in furniture with doors or more in general sliding closing elements.
  • the lock 1 comprises a containing box body 3, for example made of pressed sheet metal, suitable for being housed in a cavity 4 obtained in the abutting edge 5 of the sliding door 2.
  • the containing box body 3 consists of a first part, comprising a first side wall 23, a front wall 24, a rear wall 25, an upper wall 26 and a lower wall 27, and a second part consisting of a second side wall 28 suitable for being coupled with the aforesaid first part to enclose in the space of the box body 3 the various components that will be disclosed below.
  • a closing front plate 29 is provided that, once the box body 3 is inserted inside the cavity 4 of the abutting edge 5, is applied to the front wall 24 and fixed by the screws that fix the lock to the door.
  • the lock 1 comprises a hooking element 6, suitable for engaging with a retaining unit 7 that is mounted on a jamb 8 in a position facing the abutting edge 5 of the sliding door 2.
  • the hooking element 6 is housed in the containing box body 3 and, as will be disclosed better below, is drivable to protrude outside the containing box body 3, traversing an outlet opening 18 obtained on the front wall 24 and correspondingly also on the closing front plate 29.
  • the lock 1 comprises driving means 9, 10, 11A, 11B configured for moving the hooking element 6 from a retracted position P R inside the box body 3, to a prominent engagement position Pp in which the hooking element 6 protrudes outside the box body 3.
  • the hooking element 6, in the retracted position P R shown for example in figures 1 and 5 , permits a free sliding movement of the sliding door 2 along an opening/closing direction D.
  • the driving means 9, 10, 11A, 11B is configured for giving the hooking element 6 a translational movement. More specifically, the driving means 9, 10, 11A, 11B imposes on the hooking element 6 a linear protrusion/retraction movement along a first rectilinear trajectory T1, in a direction that is parallel to the opening/closing direction D of the sliding door 2, and a linear engagement/release movement along a second rectilinear trajectory T2 that is transverse to the aforesaid opening/closing direction D.
  • the linear protrusion movement along the first rectilinear trajectory T1 and the subsequent linear engagement movement along the second rectilinear trajectory T2 occur during locking of the sliding door 2 on the retaining unit 7 located on the jamb 8.
  • the driving means comprises a first driving unit 9, configured for moving the hooking element 6 along the first trajectory T1, and a second driving unit 10 configured for moving the hooking element 6 along the second trajectory T2.
  • the first driving unit comprises a first driving cursor 9
  • the second driving unit comprises a second driving cursor 10, suitably configured for obtaining the translating motion of the hooking element 6.
  • the first 9 and second 10 driving cursors are shaped according to respective suitably shaped plate elements.
  • the first driving cursor 9 is configured for moving the hooking element 6 along the first trajectory T1 - in a horizontal direction parallel to the opening/closing direction D of the sliding door 2 - between the retracted position P R and an intermediate position P I protruding from containing box body 3.
  • the second cursor 10 is configured for moving the hooking element 6 along the second rectilinear trajectory T2 - in a vertical direction orthogonally to the first rectilinear trajectory T1 - between the aforesaid intermediate position P I and the lower prominent position Pp for engaging with the retaining unit 7.
  • the second cursor 10 is configured for moving the hooking element 6 along the second rectilinear trajectory T2 - in a tilted direction with respect to the first rectilinear trajectory T1 - from the aforesaid outermost intermediate position P I to the lower prominent position P P most shifted towards the containing box body 3 to engage with the retaining unit 7.
  • This configuration during the closing and locking step, enables possible mechanical clearance to be recovered (up to about 3 mm) in a horizontal direction, ensuring a perfect engagement of the hooking element 6 with the inner surface of the retaining unit 7. The manner in which this operation is made possible is disclosed below.
  • the first driving cursor 9 is linearly movable from a first position W1, further from the front wall 24, to a second position W2, nearer the front wall 24, to translate the hooking element 6 along the first rectilinear trajectory T1 to the outside of the containing box body 3 during closure of the sliding door 2.
  • the first driving cursor 9 moves linearly from the second position W2 to the first position W1 to translate the hooking element 6 inside the containing box body 3 during opening of the sliding door 2.
  • the second driving cursor 10 is movable linearly from a third position W3 that is higher to a fourth position W4, which is lower, to translate the hooking element 6 along the second rectilinear trajectory T2 downwards to engage the hooking element 6 with the retaining unit 7 to thus achieve locking of the sliding door 2 in a closed position; vice versa, the second driving cursor 10 is movable linearly upwards from the fourth position W4 to the third position W3 to disengage the hooking element 6 from the retaining unit 7 to release the sliding door 2, permitting the opening thereof.
  • the driving means further comprises a control pushing element 11A, 11B configured for moving selectively in sequence the first driving cursor 9 and subsequently the second driving cursor 10 during the closing operation, and vice versa, for moving in sequence the second driving cursor 10 and subsequently the first driving cursor 9 during the opening operation.
  • the control pushing element in a first embodiment, (shown in figures 1 to 18 ) comprises a bit element 11A, that is part of a cylinder 12 for locks that is controllable by a key.
  • the control pushing element comprises a cam element 11B, that is mounted rotatably in the containing box body 3, and is couplable with and controllable by, a suitable handle to be inserted into the square opening 35.
  • the cam element 11B is coupled with a cylinder 13 for a lock, which is drivable by a cross-shaped key 14, shown in figures 21 to 23 .
  • the pushing element embodiment configured as a control cam element 11B has greater advantages than the embodiment configured as a bit element 11A.
  • the cam element 11B has a cam profile that extends angularly by a quantity greater than 45° and this enables the first 9' and second 10' driving cursors to be moved, imposing on the cam element 11B angular rotations that are less than those required for the bit element 11A, which on the other hand has a reduced extension contact profile.
  • the cam element 11B comprises a first pushing part 61, more radially protruding, suitable for pushing the first cursor 9', and a second pushing part 62, which is suitable for acting on the second cursor 10'.
  • all the aforesaid control pushing elements 11A, 11B share the feature of being rotatable around a rotation axis R that is transverse to the first rectilinear trajectory T1 and to the second rectilinear trajectory T2.
  • the pushing element 11A, 11B is configured for rotating in a closing direction C, by a first angular amount for pushing and transferring the first driving cursor 9 from the first position W1 to the second position W2 along a first stroke to which a horizontal translation corresponds of the hooking element 6 from the retracted position P R to the protruding intermediate position P I , and subsequently, by a second angular quantity for pushing and transferring the second driving cursor 10 from the third position W3 to the fourth position W4 along a second stroke to which a vertical translation corresponds of the hooking element 6 from th intermediate position P I to the lower prominent engagement position P P .
  • the rotation axis R of the control pushing element 11A, 11B falls substantially in a zone comprised between the median axis M of the hooking element 6, and a horizontal plane lying on the upper surface 66 of the hooking element 6 when the latter is in the retracted position P R or in the intermediate position P I .
  • the rotation axis R of the latter is in a height position corresponding horizontally to the height position of the median axis M.
  • the rotation axis R is orthogonal and incident to the aforesaid median axis M.
  • the first driving cursor 9 comprises, behind, i.e. nearer the rear wall 25, a first abutting portion 15 shaped for coming into contact with, and receiving a pushing action from the control pushing element 11A to move from the first position W1 to the second position W2 and vice versa, and in which the second driving cursor 10 comprises a second abutting portion 20 shaped for coming into contact with, and receiving a pushing action from the control pushing element 11A to move from the third position W3 to the fourth position W4 and vice versa.
  • the first 9 and second 10 driving cursors are slidably coupled with the containing box body 3 by respective guiding lugs 21A, 21B slidably housed in corresponding slot openings 22A, 22B obtained on the containing box body 3.
  • the hooking element 6 is coupled with the first driving cursor 9 by first engaging means 30, 31 configured for permitting a degree of freedom of movement of the hooking element 6 with respect to the first driving cursor 9 in a direction that is orthogonal to the opening/closing direction D, and such as to constrain the hooking element 6 to the first driving unit 9 in the movement along the first rectilinear linear trajectory T1.
  • the hooking element 6 is coupled with the second driving cursor 10 by second engaging means 33, 66, 67 configured for permitting a free movement of the hooking element 6 with respect to the second driving cursor 10 in a direction that is parallel to the opening/closing direction D, and such as to constrain the hooking element 6 to the second driving cursor 10 in the movement along the second rectilinear linear trajectory T2.
  • the first engaging means comprises a pin protrusion 30 provided on an inner portion 17 of the hooking element 6 and a coupling slot 31 obtained on the first driving cursor 9 and extending orthogonally to the opening/closing direction D of the sliding door 2. If it is desired to obtain the second trajectory T2 tilted, as mentioned previously, and with reference to Figure 9 , the slot 31, instead of being arranged vertically, extends correspondingly in a tilted manner, to impose on the suitably formed pin protrusion 30 the desired movement direction.
  • the second engaging means comprises an upper surface 66 and a lower surface 67 that are provided on the hooking element 6 and a channel seat 33 obtained on the second driving cursor 10 for slidably housing the aforesaid surfaces 66, 67.
  • the channel seat 33 extends in such a manner as to permit a degree of freedom of movement of the hooking element 6 parallel to the opening/closing direction D and to constrain the hooking element 6 to the second driving cursor 10 in the movement along the second rectilinear linear trajectory T2.
  • the lock 1 further comprises spring means 37, 38, that opposes a greater resistance at the start of each rotation of the control pushing element 11A or 11B, to subsequently substantially decrease in an tripped manner both during opening and closing of the lock 1 so as to provide the user with tactile feedback that is useful for indicating to the user that a complete opening or closing of the lock 1 operation has been reached.
  • the spring means comprises a first flexure spring 37, having an anchoring end 42 engaging a protruding tooth 43 of the second driving cursor 10.
  • the first flexure spring 37 comprises a blade portion having a recess zone 44, that houses a tab 45 of the first driving cursor 9 when the latter is in the retracted first position W1.
  • the blade portion further comprises a raised zone 46 that is suitable for being pressed down by the tab 45: the raised zone 46 opposes, to the forward movement of the first cursor 9, a certain resistance that is maintained only in a first initial step of the closure, this resistance dropping suddenly to generate a trip effect in the operation of locking the door 2.
  • the first flexure spring 37 opposes to the upward movement of the second cursor 10 a certain resistance that is maintained only in a first initial step of the closure, when the tab 45 acting on the raised zone 46 of the blade portion opposes a lifting movement to the latter.
  • Figures 19 to 27 refer to other lock embodiments; thus in these figures the same reference numbers have been used as in the preceding figures to indicate similar or equivalent parts.
  • figures 19 to 27 refer to the lock embodiment with a drive by a handle and to the embodiment with a cylinder with a cross-shaped key, as already referred to.
  • first driving cursor 9' and the second driving cursor 10' have small variations of geometrical shape with respect to the first cursor 9 and to the second driving cursor 10 of the first lock embodiment, which nevertheless do not entail any difference from the operational point of view.
  • the spring means arranged for supplying the tactile feedback comprises a second flexure spring 38, having a rotated "V" shape, provided with a base strip 39 resting on the lower wall 27 of the containing box body 3 and engaging in a slit 47 of the lower wall 27, and a pushing strip 48, that is in contact with and exerts a force of pressure on, an abutting profile 60 of the cam element 11B.
  • the abutting profile 60 is suitably shaped so as to define a cam with zones at a variable distance from the rotation axis R, so that the second flexure spring 38 opposes to the rotation of the cam element 11B, resistance of an intensity that is variable according to the angular position of the cam element 11B, to obtain the tactile feedback, analogously to what has been disclosed for first flexure spring 37.
  • the bit element 11A detaches from the first cursor 9, as shown in sequence in figures 14 and 15 , and reaches the second abutting portion 20, in particular the lower surface 55, of the second driving cursor 10, and starts to push the latter down, moving the latter linearly from the third position W3 to the fourth position W4, as shown in sequence in figures 16 and 17 .
  • This movement of the second cursor 10 is matched by the vertical downward movement of the hooking element 6, which then moves from the intermediate position P I , to the engagement position P P , travelling along the second rectilinear trajectory T2 to hook up to the lower portion of the edge bounding the engagement opening 51 of the plate or retaining unit 7.
  • Figure 8 shows schematically the translational movement of the hooking element 9, with a horizontal rectilinear first portion and a vertical rectilinear second portion.
  • the first rectilinear trajectory T1 and the second rectilinear trajectory T2 are arranged reciprocally angularly at 90°.
  • Figure 9 shows on the other hand the path with the second trajectory T2 arranged in a tilted manner.
  • the bit element 11A is positioned on the tilted surface 19 located in a lower zone of the first abutting portion 15, as shown better in figures 7 , 17 and 18 .
  • this position an undesired or forced upward movement imposed from outside to the hooking element 6 is prevented owing to the contrasting action imposed by the bit element 11A.
  • the angular position adopted by the bit element 11A in this locking configuration in synergy with the particular arrangement of the tilted surface 19, means that the relative exchange of forces does not give rise to any movement of the second cursor 10 or of the bit element 11A.
  • the resultant of the pressure action exerted on the bit element 11A by the tilted surface 19 has an application straight line passing below the rotation axis R of the bit element 11A, generating in this manner anticlockwise torque in Figure 7 , which thus maintains in a stably lowered position the protrusion of the bit element 11A, preventing any movement at the lock 1, in particular at the hooking element 6.
  • the particular configuration of the second driving cursor 10 thus enables an additional safety and anti-tampering locking function to be obtained from the bit element 11A.
  • the cylinder which is a particular standard cylinder that is available on the market, must be of the standard European type, which enables the key to be extracted when the bit element is in the position as shown in Figure 7 .
  • the first pushing part 61 disengages from the first driving cursor 9', whereas the radial surface 63 of the second pushing part 62, situated lower down as shown in Figure 25 , or at least the outermost edge of this radial surface 63, engages with, and pushes, the abutting surface 53 translating the second cursor 10' from the third position W3 to the fourth position W4, with a corresponding vertical and rectilinear translation movement of the hooking element 6 downwards, as shown in Figure 26 .
  • a last rotation fraction of the cam element 11B means that part of the cylindrical surface 64, bounding the second pushing part 62, couples with the tilted surface 19, which can have a suitable concave shape to engage in a mating manner with the aforesaid cylindrical surface 64 part. Also for this embodiment, in this manner the safety and anti-tampering locking function is performed by the cam element 11B interacting with the second cursor 10' in a similar manner to what has been disclosed previously for the bit element 11A of the preceding lock 1 embodiment.
  • control pushing element 11A or 11B In order to perform the opposite operation of unlocking and opening of the lock 1, the control pushing element 11A or 11B is rotated in the opposite direction to what has been disclosed before for the closing and locking operation. In a manner that is functionally identical to what has already been seen for the closing operation, the control pushing element 11A or 11B first interacts with an upper zone 56 of the second abutting portion 20 of the second cursor 10, 10', translating the latter upwards to the position W3. At this point, the hooking element 6 is transferred from the lower engagement position Pp to the upper intermediate position P I .
  • control pushing element 11A or 11B disengaged from the second cursor 10, 10', engages with a rear zone 57 of the first abutting portion 15 of the first cursor 9, 9', translating the latter from the second position W2 to the retracted first position W1.
  • the hooking element 6 is transferred from the intermediate position P I to the retracted position P R inside the containing box body 3.
  • an auxiliary template unit 40 is also provided for operations of drilling through the jamb 8 to mount the retaining unit 7 thereupon.
  • the template unit 40 is couplable in a releasable manner with an outer end of the hooking element 6, when the latter is in an extracted position from the containing box body 3, to impose on the jamb 8 a reference mark for the aforesaid drilling.
  • the template unit 40 is hood-shaped, is provided with a tip portion 41 for marking the reference mark on the jamb 8, and is provided with elastic fins 42 to hook into a recess 16 provided on the hooking element 6.
  • the door 2 is brought near the jamb 8 in such a manner that the tip portion 41 hits the correct zone on which the drilling has to be made, thus providing assistance to an assembler of the retaining unit 7, with consequent acceleration of the installation operations.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Lock And Its Accessories (AREA)

Claims (13)

  1. Sperre für eine Schiebetür (2), umfassend
    - einen Aufnahmebehälterkörper (3), der dazu geeignet ist, in einem Hohlraum (4) einer Anstoßkante (5) der Schiebetür (2) gelagert zu sein,
    - ein Hakenelement (6), das dazu geeignet ist, mit einer Halteeinheit (7) in Eingriff zu gehen, die auf einer Laibung (8) in einer der Anstoßkante (5) zugewandten Position angebracht ist,
    - Antriebsmittel (9, 10, 11A; 9', 10', 11B) zu dem Bewegen des Hakenelements (6) aus einer eingefahrenen Position (PR) in dem Aufnahmebehälterkörper (3) - die eine freie Schiebebewegung der Schiebetür (2) entlang einer Öffnungs-/Schließ-Richtung (D) zulässt - in eine herausragende Eingriffsposition (PP), in der das Hakenelement (6) durch eine Ausgangsöffnung (18) aus dem Aufnahmebehälterkörper (3) ragt, um an der Halteeinheit (7) einzuhaken und ein Öffnen der Schiebetür (2) zu verhindern, wobei das Antriebsmittel (9, 10, 11A; 9', 10', 11B) Folgendes umfasst:
    - einen ersten Antriebsläufer (9; 9'), der linear aus einer ersten Position (W1) in eine zweite Position (W2) bewegbar ist, um dem Hakenelement (6) eine lineare Hervorsteh-/Einfahr-Bewegung entlang eines ersten geradlinigen Bahnverlaufs (T1) zu verleihen, der parallel zu der Öffnungs-/Schließ-Richtung (D) der Schiebetür ist (2), wobei der erste Antriebsläufer (9; 9') konfiguriert ist, während des Schließvorgangs der Schiebetür (2) das Hakenelement (6) entlang des ersten geradlinigen Bahnverlaufs (T1) an die Außenseite der Aufnahmebehälterkörpers (3) und während des Öffnungsvorgangs der Schiebetür (2) aus der zweiten Position (W2) in die erste Position (W1) zu übersetzen, um das Hakenelement (6) an die Innenseite des Aufnahmebehälterkörpers (3) zu übersetzen,
    - einen zweiten Antriebsläufer (10; 10'), der linear aus einer dritten Position (W3) in eine vierte Position (W4) bewegbar ist, um dem Hakenelement (6) eine lineare Eingriffs-/Freigabe-Bewegung entlang eines zweiten geradlinigen Bahnverlaufs (T2) zu verleihen, der quer zu der Öffnungs-/Schließ-Richtung (D) ist, wobei der zweite Antriebsläufer (10; 10') konfiguriert ist, das Hakenelement (6) entlang des zweiten geradlinigen Bahnverlaufs (T2) nach unten zu übersetzen, um mit der Halteeinheit (7) in Eingriff zu gehen, um die Schiebetür (2) in einer geschlossenen Position zu sperren, und aus der vierten Position (W4) in die dritte Position (W3) zu übersetzen, um das Hakenelement (6) von der Halteeinheit (7) zu trennen, um die Schiebetür (2) freizugeben,
    dadurch gekennzeichnet, dass:
    - das Hakenelement (6) mit dem ersten Antriebsläufer (9; 9') durch ein erstes Eingriffsmittel (30, 31) gekoppelt ist, das konfiguriert ist, einen Grad der Bewegungsfreiheit des Hakenelements (6) in Bezug auf den ersten Antriebsläufer (9) in eine Richtung zuzulassen, die orthogonal zu der Öffnungs-/SchließRichtung (D) ist, und somit das Hakenelement (6) in der Bewegung entlang des ersten geradlinigen linearen Bahnverlaufs (T1) an dem ersten Antriebsläufer (9) zu befestigen,
    - das Hakenelement (6) mit dem zweiten Antriebsläufer (10; 10') durch ein zweites Eingriffsmittel (33, 66, 67) gekoppelt ist, das konfiguriert ist, einen Grad der Bewegungsfreiheit des Hakenelements (6) in Bezug auf den zweiten Antriebsläufer (10) in eine Richtung zuzulassen, die parallel zu der Öffnungs-/Schließ-Richtung (D) ist, und somit das Hakenelement (6) in der Bewegung entlang des zweiten geradlinigen linearen Bahnverlaufs (T2) an dem zweiten Antriebsläufer (10; 10') zu befestigen.
  2. Sperre nach Anspruch 1, wobei die Antriebsmittel (9, 10, 11A; 9', 10', 11B) konfiguriert sind, das Hakenelement (6) mit der Übersetzungsbewegung entlang des ersten Bahnverlaufs (T1) in eine horizontale Richtung parallel zu der Öffnungs-/SchließRichtung (D) zwischen der eingefahrenen Position (PR) und einer Zwischenposition (PI), die aus dem Aufnahmebehälterkörper (3) herausragt, und entlang des zweiten geradlinigen Bahnverlaufs (T2) in eine Richtung zu bewegen, die orthogonal vertikal zu dem ersten geradlinigen Bahnverlauf (T1) zwischen der Zwischenposition (PI) und der unteren herausragenden Position (PP) ist, um mit der Halteeinheit (7) in Eingriff zu gehen.
  3. Sperre nach Anspruch 1, wobei die Antriebsmittel (9, 10, 11A; 9', 10', 11B) konfiguriert sind, das Hakenelement (6) mit der Übersetzungsbewegung entlang des ersten Bahnverlaufs (T1) in eine horizontale Richtung parallel zu der Öffnungs-/SchließRichtung (D) zwischen der eingefahrenen Position (PR) und einer Zwischenposition (PI), die aus dem Aufnahmebehälterkörper (3) herausragt, und von der Zwischenposition (PI) in die untere herausragende Position (PP) entlang des zweiten geradlinigen Bahnverlaufs (T2) zu bewegen, der in Bezug auf den ersten Bahnverlauf (T1) so geneigt ist, dass das Hakenelement (9) bei dem Überführen von der Zwischenposition (PI) in die untere herausragende Position (PP) mit der Halteeinheit (7) durch horizontales Wiederherstellen der mechanischen Spielraums in Eingriff geht.
  4. Sperre nach einem der vorstehenden Ansprüche, wobei die Antriebsmittel ein Steuerdruckelement (11A; 11B) umfassen, das konfiguriert ist, nacheinander den ersten Antriebsläufer (9; 9') und den zweiten Antriebsläufer (10; 10') und umgekehrt wahlweise zu bewegen, und konfiguriert ist, den zweiten Antriebsläufer (10; 10') in der vierten Position (W4) zu sperren, um ein unerwünschtes oder erzwungenes Anheben des Hakenelements (6) zu verhindern.
  5. Sperre nach Anspruch 4, wobei das Steuerdruckelement (11A; 11B) um eine Rotationsachse (R) quer zu dem ersten geradlinigen Bahnverlauf (T1) und zu dem zweiten geradlinigen Bahnverlauf (T2) drehbar und konfiguriert ist, sich in einer Schließrichtung (C) um einen ersten Winkelbetrag zu drehen, um den ersten Antriebsläufer (9) entlang eines ersten Hubs aus der ersten Position (W1) in die zweite Position (W2) zu drücken, was zu einem horizontalen Übersetzen des Hakenelements (6) aus der eingefahrenen Position (PR) in die vorstehende Zwischenposition (PI) führt, und danach um einen zweiten Winkelbetrag, um den zweiten Antriebsläufer (10; 10') entlang eines zweiten Hubs aus der dritten Position (W3) in die vierte Position (W4) zu drehen, was zu einer vertikalen Übersetzung des Hakenelements (6) aus der Zwischenposition (PI) in die untere herausragende Eingriffsposition (PP) führt.
  6. Sperre nach Anspruch 5, wobei das Steuerdruckelement (11A; 11B) so angeordnet ist, dass die Rotationsachse (R) sich in einer Zone befindet, die zwischen einer Mittelachse (M) des Hakenelements (6) und einer horizontalen Ebene eingefasst ist, die auf einer oberen Oberfläche (66) des Hakenelements liegt, wenn das Hakenelement (6) in der eingefahrenen Position (PR) oder in der Zwischenposition (PI) ist.
  7. Sperre nach einem der Ansprüche 4 bis 6, wobei der erste Antriebsläufer (9; 9') einen ersten Anstoßabschnitt (15) umfasst, der geformt ist, mit dem Steuerdruckelement (11A; 11B) in Kontakt zu kommen und eine Schubwirkung davon zu empfangen, um sich aus der ersten Position (W1) in die zweite Position (W2) und umgekehrt zu bewegen, und wobei der zweite Antriebsläufer (10) einen zweiten Anstoßabschnitt (20) umfasst, der geformt ist, mit dem Steuerdruckelement (11A; 11B) in Kontakt zu kommen und eine Schubwirkung davon zu empfangen, um sich aus der dritten Position (W3) in die vierte Position (W4) und umgekehrt zu bewegen, wobei der erste (9; 9') und der zweite (10; 10') Antriebsläufer jeweils durch Führungsnasen (21A, 21B), die in entsprechenden Schlitzöffnungen (22A, 22B) gelagert sind, verschiebbar mit dem Aufnahmebehälterkörper (3) gekoppelt sind.
  8. Sperre nach einem der Ansprüche 4 bis 7, wobei das Steuerdruckelement ein Bitelement (11A) umfasst, das in einem Sperrzylinder (12) enthalten ist, der durch einen Schlüssel steuerbar ist.
  9. Sperre nach einem der Ansprüche 4 bis 7, wobei das Steuerdruckelement ein Kurvenscheibenelement (11B) umfasst, das mit einem Griff koppelbar und durch diesen steuerbar ist.
  10. Sperre nach einem der Ansprüche 4 bis 7, wobei das Steuerdruckelement ein Kurvenscheibenelement (11B) umfasst, das mit einem Zylinder (13) für einen kreuzförmigen Schlüssel (14) oder für einen Schlüssel mit einer anderen Form gekoppelt ist.
  11. Sperre nach einem der vorstehenden Ansprüche, wobei das erste Eingriffsmittel einen Stiftfortsatz (30), der auf einem Innenabschnitt (17) des Hakenelements (6) bereitgestellt ist, und einen Kopplungsschlitz (31) umfasst, der auf dem ersten Antriebsläufer (9; 9') erhalten ist und sich quer zu der Öffnungs-/Schließ-Richtung (D) der Schiebetür (2) erstreckt, und wobei das zweite Eingriffsmittel eine obere Oberfläche (66) und eine untere Oberfläche (67), die auf dem Hakenelement (6) vorgesehen sind, und einen Kanalsitz (33) umfasst, der auf dem zweiten Antriebsläufer (10; 10') erhalten ist, um einen Teil des Hakenelements (6) verschiebbar zu lagern, wobei sich der Kanalsitz (33) so erstreckt, dass er einen gewissen Grad der Bewegungsfreiheit des Hakenelements (6) parallel zu der Öffnungs-/Schließ-Richtung (D) zulässt und das Hakenelement (6) in der Bewegung entlang des zweiten geradlinigen linearen Bahnverlaufs (T2) an dem zweiten Antriebsläufer (10) befestigt.
  12. Sperre nach einem der vorstehenden Ansprüche, weiter umfassend eine Matrizeneinheit (40), die mit einem Außenende des Hakenelements (6) in der unteren herausragenden Position (PP) freigebbar koppelbar ist, um für den zu dem Anpassen der Halteeinheit (7) an die Laibung (8) erforderlichen Bohrvorgang eine Referenzmarke auf die Laibung (8) aufzuprägen.
  13. Sperre nach Anspruch 12, wobei die Matrizeneinheit (40) haubenförmig ist, mit einem Spitzenabschnitt (41) bereitstellen ist, um die Referenzmarke in die Laibung (8) einzuschneiden, und mit elastischen Rippen (42) bereitstellen ist, um in eine Vertiefung (16) einzuhaken, die auf dem Hakenelement (6) vorgesehen ist.
EP16179777.4A 2015-07-17 2016-07-15 Verriegelung für schiebetür Active EP3118397B1 (de)

Priority Applications (4)

Application Number Priority Date Filing Date Title
PL16179777T PL3118397T3 (pl) 2015-07-17 2016-07-15 Zamek do przesuwnych drzwi
SI201630068T SI3118397T1 (sl) 2015-07-17 2016-07-15 Ključavnica za drsna vrata
RS20180949A RS57610B1 (sr) 2015-07-17 2016-07-15 Brava za klizna vrata
HRP20181257TT HRP20181257T1 (hr) 2015-07-17 2018-08-06 Brava za klizna vrata

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
ITUB2015A002278A ITUB20152278A1 (it) 2015-07-17 2015-07-17 Serratura per porta scorrevole.

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EP3118397A1 EP3118397A1 (de) 2017-01-18
EP3118397B1 true EP3118397B1 (de) 2018-05-16

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EP (1) EP3118397B1 (de)
ES (1) ES2689275T3 (de)
HR (1) HRP20181257T1 (de)
IT (1) ITUB20152278A1 (de)
PL (1) PL3118397T3 (de)
PT (1) PT3118397T (de)
RS (1) RS57610B1 (de)
SI (1) SI3118397T1 (de)

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE272467C (de) *
US1406437A (en) * 1920-04-06 1922-02-14 Block Alexander Lock
US1422820A (en) * 1920-09-09 1922-07-18 Block Alexander Lock
US2253496A (en) * 1941-01-15 1941-08-26 Ralph L Long Sliding door lock and finger grip
GB630379A (en) * 1947-03-18 1949-10-12 Ernest Cyril Hansor Improvements in locks
AU4997064A (en) * 1964-09-30 1967-04-06 Roth Emil Anew and improved sliding doorlock

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
None *

Also Published As

Publication number Publication date
EP3118397A1 (de) 2017-01-18
PL3118397T3 (pl) 2018-12-31
ES2689275T3 (es) 2018-11-13
HRP20181257T1 (hr) 2018-10-05
ITUB20152278A1 (it) 2017-01-17
SI3118397T1 (sl) 2018-09-28
RS57610B1 (sr) 2018-11-30
PT3118397T (pt) 2018-10-08

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