EP1083281B1 - Locking device on a door, window or similar - Google Patents

Abstract

The device has a motorised drive with one switch state, in which the drive motor (4) interacts with a locking element (29) but not with an energy storage device (22) for returning the locking element to its release position to drive the locking element into the locking position but not load the storage device, and another in which the motor interacts with the energy storage device but not with the locking device to load the storage device but not move the locking element into the locking position.

Description

The invention relates to a locking device on a Door, a window or the like, being on a fixed Frame of the door, window or the like and a relative in addition movable wing on the one hand at least one lock with at least one between a closed and an open position back and forth movable latch and on the other hand at least a bolt abutment is attached, which the bolt in engages behind the closed position and at least one controlled switchable motor drive with at least one Drive motor is provided, by means of which the bolt at Active connection of the drive motor and bolt at least in the The closed position is movable and by means of which an energy store with active connection of drive motor and energy storage is rechargeable, with energy released by the energy store moving the latch into the open position at least is supported.

Such a locking device in the form of an additional locking device is disclosed in DE 298 05 821 Ul. In the rebate of a door leaf on the closing side is sunk a lock housing that essentially has a inside consisting of an electric motor and a spindle drive contains motor drive. The electric motor is the same like a latch and the rebate side wall of the Roller bolt passing through the lock housing rigid with a snowmobile connected. To lock the door leaf on the associated fixed frame, the snowmobile is by means of of the spindle drive driven by the electric motor raised. This is associated with a corresponding movement of the the roller bolt attached to the snowmobile and the electric motor. The roller pin arrives in the course of its lifting movement in rear grip with a bolt abutment in the form of a Guide slope of a fixed frame side rising towards the outside of the room Striker plate. Because of the interaction of the management slope and the roller bolt moving upwards the door leaf is pressed against the fixed frame locked. The snowmobile including the one with this raised components, especially including the electric motor, serves as an energy store, which is generated by the locking stroke movement while increasing its potential energy is charged. The snowmobile is used to unlock the door leaf released in the direction of gravity. Together with As a result, the snowmobile falls under its attachments Release previously stored energy downwards. The one with the Snowmobile firmly connected roller bolt is in his Open position transferred.

In the case of the prior art, the electric motor has the same time locking and pressing the door leaf on the fixed one Frame as well as charging the to unlock the door leaf to use used energy storage. With one accordingly great power is the drive motor of the known Lay out locking device. This, in turn, results relatively high production and acquisition costs as well as in particular a relatively large construction volume of the currently common drive motor.

The present invention has overcome this disadvantage set the goal.

According to the invention, this object is achieved in that in the case a locking device of the type mentioned a switching state of the motor drive of the drive motor with the bolt, but not with the energy storage in operative connection stands and the bolt can be moved into the closed position, but not the energy storage is rechargeable and that at one other switching state of the motor drive the drive motor with the energy storage, but not with the bolt in operative connection stands and the energy storage is rechargeable, but not the bolt can be moved into the closed position. Due to the mentioned features takes place in the case of the invention Moving the bolt into its closed position and charging of the energy storage in two separate steps. Accordingly is a relatively low engine power sufficient, which in turn has a positive effect on the size of the drive motor as well as its manufacturing and acquisition costs effect. For moving the bolt into the closed position as well as for charging the energy store total engine power can be made available.

In the sense of the invention it is in itself possible to use the drive motor via separate gear trains on the bolt and to connect to the energy storage. In the interest of one if possible simple construction and in particular one recommends the smallest possible construction volume of the locking device but it is, at least individual components of the motor Drive both for connecting the drive motor with the bolt and for connecting the drive motor to the To use energy storage. Against this background, the invention provided that the motor drive is a gear element in the form of a gear spindle, gear worm or The like, which by their drive motor Rotation axis rotatable and by switching the motor drive is reversible in its direction of rotation, the drive motor in one direction of rotation of the gear spindle, gear worm or the like with the bolt, but not with the Energy storage and in the other direction of rotation of the gear spindle, Gear worm or the like with the energy store, but is not in operative connection with the bolt.

In a preferred development of the invention, the gear spindle meshes Gear worm or the like with an associated Counter gear element, whereby by rotating the gear spindle, Gear worm or the like in one Direction of rotation of the gear spindle, gear worm or the like on the correspondingly supported counter-tooth element movable in the axial direction and by rotating the gear spindle, Gear worm or the like in the other Direction of rotation of the counter-tooth element in the axial Direction appropriately supported gear spindle, gear worm or the like is movable and wherein the operative connection the drive motor with the bolt or the energy storage via the gear spindle, gear worm, moved in the axial direction or the like or the moving counter-tooth element is made. Also the counter gear element mentioned is accordingly both when moving the bolt in the closed position as well as when charging the energy store used.

The counter-toothing element is expediently one with the axis of rotation of the gear spindle, gear worm or Such crossing axis of rotation rotatable and in axial Direction of moving gear spindle, gear worm or the like supported in the corresponding direction of rotation. there the counter-toothing element is supported on itself gear spindle moving in the axial direction, gear screw or the like in the case of a further preferred variant the invention for the sake of simplicity on a wall Lock housing.

For supporting the gear spindle, gear worm or the like According to the invention, an axial stop serves in the axial direction, which is controlled between a release position and a locking position can be moved back and forth and in the locking position a counterstop of the gear spindle, gear worm or the like.

Through simple kinematics and thus through simple Control of the axial stop for the gear spindle, gear worm or the like is an embodiment the locking device according to the invention in If the said axial stop as a projection on one Lever is formed, which is controlled to deal with the Axis of the gear spindle, gear worm or the like crossing axis can be swiveled in the release or lock direction is.

After the gear spindle is supported on the axial stop, Gear worm or the like for driving the associated Counter gear element rotates about its axis, simultaneously the resulting frictional resistance in the interest of a To minimize the power of the drive motor , it is recommended to use the gear spindle, gear worm or the like via an axial bearing on the axial stop support. According to the invention, a is preferred Rolling bearing designed axial bearing.

To use the released energy of the energy storage for the support or sole accomplishment of the movement the bolt from the closed to the open position can be according to the invention an independent gear connection between the energy store and the latch may be provided. But also in this case it is for the sake of simple constructive Design of the overall arrangement and the minimization of Space requirements of the locking device useful, at least to use individual gear parts multiple times. With that in mind provided according to the invention that with the gear spindle, Gear worm or similar meshing counter-tooth element with the bolt in drive connection and the energy storage is formed by at least one spring element, which by the on the supported counter-tooth element Gear spindle moved in the axial direction, gear worm or the like against the action of a restoring force Deformation and the associated charging of the energy store can be acted upon and that the one acting on the spring element Gear spindle, gear worm or the like under the effect of the restoring force exerted by the spring element on the axial stop moved into the locked position is supported and after moving the axial stop in the release position the bolt in via the counter-toothing element Towards its open position. Serve accordingly according to the invention, the counter toothing element and the gear spindle, Gear worm or the like on the one hand Charging the energy storage and moving the latch in the closed position, but also to implement the energy released by the energy store in one movement of the bolt in the open position.

For the sake of simplicity, in a preferred development of the invention the bolt in one piece with the counter-toothing element educated.

An electrically controlled triggering of the bolt movement in the open position is in the case of a further variant Invention possible in that the axial stop for the gear spindle, Gear worm or the like electrically controlled is movable into the release position. To unlock the relevant door, window or the like regardless of the power supply to the locking device and thus also in the event of malfunctions of the above The axial stop is able to accomplish the power supply for the gear spindle, gear worm or the like in a further embodiment of the invention via a manual actuatable slide, in particular via a connecting rod Espagnolette fitting for the door, window or the like movable into the release position. For the purposes of the invention manual control of the axial stop for the gear spindle, Gear worm or the like in addition or alternatively provided for the electrical control described above his.

With simple means in terms of construction and control technology the axial stop for the gear spindle, gear worm or the like as needed in his blocking or in his Transfer release position if he - as in preferred training provided the invention - formed as a projection is on one arm of a two-armed lever that is controlled around one with the axis of the gear spindle, gear worm or the like crossing axis pivotable and on the other Arm by means of a locking device when in the locked position projection can be fixed against swiveling in the release direction is, the locking device is electrically controlled and / or by means of a manually operated slide, in particular the drive rod of a drive rod fitting Door, the window or the like, in the unlocked state is transferable.

A locking device according to the invention is particularly expedient in the form of an additional locking device on one Door, a window or the like. Such additional locking devices become a supplement to a main lock Locking for example a door or one Window sash used on the associated fixed frame. This is intended, for example, to increase the security against burglary and / or the tightness of the relevant door or Window arrangement. Leakage problems occur in particular as a result a wing warp, which can be found on wooden windows or - Doors as a result of temperature changes or material loss can result. Especially when the wing is warped, movement is required the bolt of a locking device in the closed position often a great force and accordingly one large motor power used to drive the bolt Drive motor. Notwithstanding this fact, the present allows Invention - as set out above - with proportion small drive motors of relatively low power get along.

Figuren 1 bis 4

eine erste Bauart einer Verriegelungsvorrichtung in unterschiedlichen Betriebsphasen und

Figuren 5 und 6

eine zweite Bauart einer Verriegelungsvorrichtung in unterschiedlichen Betriebsphasen.

The invention is explained in more detail below on the basis of schematic representations of exemplary embodiments. Show it:

Figures 1 to 4

a first type of locking device in different operating phases and

Figures 5 and 6

a second type of locking device in different operating phases.

According to Figures 1 to 4 comprises a locking device 1 a lock housing 2, in which essential components of the locking device 1 are accommodated. The lock housing 2 with the individual parts contained in it is determined for installation in a corresponding receptacle on the lock side Folded surface of a door leaf 3. When installed, the is as Locking device serving auxiliary locking device 1 at a distance from the central locking device (not shown) arranged at the upper corner of the door leaf 3.

Inside the lock housing 2 is one in its direction of rotation reversible electric drive motor 4 mounted stationary. The drive motor 4 is connected to a spur gear 5 Profile shaft 6 connected to the drive. The profile shaft 6 has one Hexagonal cross section and is used for vertical alignment a lower bearing 7 on an intermediate wall 8 of the lock housing 2 and by means of an upper bearing 9 on an upper one Outer wall 10 of the lock housing 2 in the axial and radial Direction stored.

A gear spindle 11 as a further part of the motor drive the locking device 1 is as a sleeve-like Hollow spindle executed and seated in the axial direction by a double arrow 12 is slidable on the direction illustrated in FIG this direction stationary wave 6. The axial penetration of the gear spindle 11 has one of the Cross-sectional shape of the profile shaft 6 corresponding hexagon cross section. In the direction of rotation of the profile shaft 6 about an axis of rotation 27 consequently arises between the profile shaft 6 and the gear spindle 11 a positive connection. On an externally toothed axial Section 13 of the gear spindle 11 closes on the one hand an outer smooth walled upper axial end portion 14 and on the other a likewise smooth-walled lower axial end section 15 of the profile shaft 6. Each with the inner ring a ball bearing 16 at the upper axial end portion 14 and a Ball bearing 17 on the lower axial end portion 15 of the gear spindle 11 attached. A ring-like rubber buffer 18 sits below the lower end of the gear spindle 11 the intermediate wall 8 of the lock housing 2 and surrounds the profile shaft 6 with radial spacing. A pressure plate 19 is in the area of the upper axial end portion 14 of the gear spindle 11 on the outer ring of the ball bearing 16 attached there. The pressure plate 19 is penetrated by the reduced diameter Part of the upper axial end portion 14 of the gear spindle 11, which is like a nozzle in the interior of an energy store protrudes in the form of a coil spring 20. With her from the Coil spring 20 rests against the end of pressure plate 19 an outer flange 21 of an end cap 22, which on the upper End of the profile shaft 6 is attached. The end cap 22 takes one with a circular cross-section bearing eye 23 cylindrical end pin 24 of the profile shaft 6. A sleeve-like Length section 25 of the end cap 22 surrounds one in cross section hexagonal part of the profile shaft 6 with radial play and thus avoiding a form fit. Inside the End cap 22 results in the area of the transition from the sleeve-like Length section 25 to the bearing eye 23 a radial Step surface 26 on which the profile shaft 6 in the axial Direction.

The gear spindle meshes on its externally toothed axial section 13 11 with a counter-tooth element in the form of a Sprocket segment 28. The latter is integral with one Bolts 29 formed and about one with the axis of rotation 27 Gear spindle 11 crossing axis of rotation 30 rotatable on the Lock housing 2 stored. Through an opening 31 in a side Wall 32 of the lock housing 2 and through an opening 33 in a covering the side wall 32 of the lock housing 2 and with the door leaf 3 screwed cuff rail 34, the bolt 29 about the axis of rotation 30 between one Open position inside and a closed position outside the lock housing 2 are pivoted back and forth. In known The latch 29 is a latch abutment, not shown on a fixed, also not shown Assigned frame of the door leaf 3. As usual, the thickness increases of the latch 29 in the transverse direction of the plane of the drawing in FIG. 1 to 4 starting from the free end of the latch 29. Which thus resulting wedge shape of the bolt 29 causes that with the Moving the bolt 29 into the closed position of the door leaf 3 due to the interaction of the bolt 29 with the associated one Bolt abutment more and more pressed against the fixed frame becomes.

A support pin 35 is attached to the ring gear segment 28 and extends there parallel to the axis of rotation 30 of the ring gear segment 28. An upper one runs adjacent to it on both sides Leg 36 and a lower leg 37 one rotatable the axis of rotation 30 of the ring gear segment 28 seated leg spring 38th

Another support pin, namely a support pin 39, takes place on a two-armed lever in the form of a rocker switch 40. The rocker switch 40 is rotatable about an axis of rotation 41 on the Lock housing 2 stored. A lower lever arm 42 of the rocker switch 40 ends in a projection 43. On the lower lever arm 42 is a switch cam 44. This is a pusher 45 assigned to a microswitch 46. The microswitch 46 stands with the drive motor 4 of the locking device 1 in controlling connection.

An upper lever arm 47 of the rocker switch 40 forms a latching end 48 out. The latching end 48 of the upper lever arm 47 is assigned a pawl 49 made of an iron-containing material Locking device 50. The pawl 49 is around an axis of rotation 51 pivotally held on the lock housing and can be rotated by means of a switching spring 52. An electromagnet 53 the pawl 49 is arranged adjacent. A connecting rod 54 is on the inside of the side wall 32 of the Lock housing 2 displaceable in the direction of a double arrow 55 guided and is in drive connection with a panic lock, not shown. In a known manner, the drive rod can 54 by turning the lock cylinder of the panic lock in Shift in the direction of the double arrow 55. At its top the drive rod 54 carries a switch cam 56 (Figure 4).

The operation of the locking device 1 is as follows described as follows:

Figure 1 shows the locking device 1 in its initial state with unlocked door leaf 3. The gear spindle 11 assumes its lower end position in the axial direction 12 and lies thereby on the rubber buffer 18. The bolt 29 is in the open position pivoted. The one sitting on its axis of rotation 30 Leg spring 38 supports itself with its legs 36, 37 Preload on the one hand on the support pin 35 of the ring gear segment 28 and on the other hand on the support pin 39 of the rocker switch 40 from. As a result, the lower lever arm 42 of the rocker switch 40 applied in the direction of the gear spindle 41. The pawl 49 of the locking device 50 is below the effect of their weight loosely on the locking end 48 of the upper lever arm 47 of the rocker switch 40.

Now the door leaf 3 is transferred to its closed position and then by means of the main lock, not shown, on the fixed one Locked frame, so a common control device occurs in action, such as in DE 298 05 821 U1 is described. Triggered by locking the main lock is then the drive motor 4 with Left-hand rotation started. About that as a reduction gear trained spur gear 5 consequently becomes the profile shaft 6 and with this the form-fitting gear spindle 11 set in a rotational movement about the axis of rotation 27. Due to the interaction of the teeth of the externally toothed axial section 13 of the gear spindle 11 with the toothing the gear rim segment 28 moves the gear spindle 11 during their rotational movement on the ring gear segment in their axial direction from the starting position according to Figure 1 upwards. The ring gear segment 28 is clockwise in Figure 1 supported on the side wall 32 of the lock housing 2 and can consequently be an abutment for itself in the axial direction Form moving gear spindle 11.

With the upward movement of the gear spindle 11 is connected a compression of the pressure plate 19 acted upon by it Coil spring 20 and thus charging this energy store. In an intermediate position during its axial The gear spindle 11 is shown in FIG. 2 upward displacement.

If the drive motor 4 continues to run counterclockwise, this happens Gear spindle 11 with its lower end or with the ball bearing 17 the projection 43 on the lower lever arm 42 of the rocker switch 40. From the prestressed leg spring 38 over their can now act on the upper leg 36 on the support pin 39 the rocker switch 40 based on the relationships according to the figures Swivel 1 and 2 counterclockwise and thereby the projection 43 on the lower lever arm 42 of the rocker switch 40 in engagement with the lower end of the gear spindle 11 or get the outer ring of the ball bearing 17. At the same time takes the upper lever arm 47 of the rocker switch 40 a pivot position in which the pawl 49 of the locking device 50 can latch with the latching end 48 of the upper lever arm 47.

With the pivoting of the lower lever arm 42 of the rocker switch 40 connected in a counterclockwise direction is also a lift off on the lower lever arm 42 attached switching cam 44 of the push button 45 of the microswitch 46. The microswitch 46 is thereby switched and gives a switching impulse to the drive motor 4, which consequently reverses its direction of rotation and now turns clockwise. The changes accordingly Direction of rotation of the profile shaft 6 and on this in the axial Direction 12 slidably guided gear spindle 11. The latter sits from the previously compressed coil spring 20 in the illustrations applied downwards with the outer ring of the ball bearing 17 on the projection 43 of the lower lever arm 42 of the Shift rocker 40 on. The total exerted by the coil spring 20 Accordingly, pressure force is applied via the rocker switch 40 and the axis of rotation 41 introduced into the lock housing 2. With the reversal of the direction of rotation of the drive motor 4, i.e. with the Switching the motor drive of the locking device 1, the initial operative connection of the drive motor 4 and coil spring 20 replaced by an operative connection of Drive motor 4 and bolt 29.

As a result of the reversal of the direction of rotation of the drive motor 4 and associated reversal of the direction of rotation of the gear spindle 11 namely, the ring gear segment 28 with the bolt 29 due between the ring gear segment 29 and the gear spindle 11 existing tooth coupling based on the position according to Figures 1 and 2 rotated counterclockwise about the axis of rotation 30. After the gear spindle 11 on the outer ring of the ball bearings 17 acting as axial bearings on the projection 43 of the lower lever arm 42 is set, their rotational movement a low frictional resistance opposed. The Bolt 29 swings driven over the ring gear segment 28 through the opening 31 in the side wall 32 of the lock housing 2 and the opening 33 in the faceplate 34 from the door leaf 3 and engages in the course of its movement In the closed position, the assigned deadbolt abutment on the fixed frame side. Is associated with the manufacture of this rear grip a suit of the door leaf caused by the wedge shape of the bolt 29 3 on its fixed frame. As soon as the bolt 29 its Has reached the closed position, the drive motor 4 is known Way switched off under load control. An automatic swing back of the bolt 29 in the open position is by the self-locking training of the gear connection of the Gear ring segment 28 and the gear spindle 11 prevented. The conditions now existing are shown in FIG. 3. As can be seen from Figure 3, the leg spring is supported 38 now with her upper leg 36 from above the support pin 35 of the ring gear segment 28 and with its lower Leg 37 from below on the support pin 39 of the Switch rocker 40 under prestress. As a result, the rocker switch 40 endeavors, starting from its position according to FIG To pivot clockwise. At such a pivoting movement The rocker switch 40 is prevented by the pawl 49 the locking device 50, which the locking end 48 on the engages upper lever arm 47 of the rocker switch 40.

To transfer the bolt 29 from the closed to the open position is first the locking device 50 with loosening the positive connection of the pawl 49 and the upper Lever arm 47 of the rocker switch 40 in the unlocked state to switch. In the case of the locking device 1 according to the Figures 1 to 4 offer two options.

On the one hand, the electromagnet 53, which is active during the entire Locking process in the interest of low energy consumption and a reduction in the risk of system failures was de-energized, energized. This can be done for example by means of a microswitch in the main lock of the Complete door leaf 3. This microswitch is through Unlocked the main lock and then ensures that a voltage is applied to the electromagnet 53. The Electromagnet 53 thus pulls the pawl 49, the Locking end 48 of the upper lever arm 47 of the rocker switch 40 is released and the rocker switch 40 can be loaded by the leg spring 38 starting from its position according to the figure 3 swivel clockwise.

The locking device can be moved in a corresponding manner 50 manually using the drive rod 54 in transfer the unlocked state. For example, a separate cylinder lock, which acts as a panic lock the main lock should be provided, the cylinder with a Bart engages in a toothing of the drive rod 54. Now the cylinder of the panic lock in the corresponding direction rotated, the drive rod 54 is thereby proceeding from the Ratios according to Figure 3 shifted down. The one on the switching cam 56 attached to the upper end of the drive rod 54 runs on the switching spring 52 of the locking device 50 on and pivots the pawl 49 in a counterclockwise direction to a position in which the pawl 49 the latching end 48 on the upper lever arm 47 of the rocker switch 40 releases (Figure 4). The rocker switch 40 can now also under Actuation by the leg spring 38 starting from it Swivel the position according to Figure 3 clockwise.

During the pivotal movement of the rocker switch 40 clockwise gives the projection 43 on the lower lever arm 42 of the Shift rocker 40, the gear spindle 11 in its axial direction 12 free. This operating state of the rocker switch 40 is shown in FIG 4 shown.

The gear spindle 11 can now by the preloaded coil spring 20 abruptly pressed down on the profile shaft 6 become. It is about the meshing teeth the gear spindle 11 and the ring gear segment 28 the latter and with it the bolt 29 suddenly the rotational position shown in Figure 4 in the clockwise direction Interior of the lock housing 2 swung in. The gear spindle 11 sets at the end of its axial displacement movement on the as End position damper acting rubber buffer 18. The latch 29 takes its open position. Overall result again the initial conditions shown in Figure 1.

A locking device shown in detail in FIGS. 5 and 6 101 differs from that previously described Design according to Figures 1 to 4 essentially by the constructive arrangements for the manual transfer of a locking device 150 in the unlocked state.

According to Figures 5 and 6 is for this purpose instead of that previously described drive rod solution a decentralized panic lock 157 provided near the electromagnet 53. The panic lock 157 has a cylinder 158 with one of these in beard 159 protruding in the radial direction is a switching spring 152 connected to the pawl 49.

Now the locking device 150 should be manually in the unlocked state switched, d. H . the locking end 48 on the upper lever arm 47 of the rocker switch 40 are released, so cylinder 158 is based on a key from its position illustrated by solid lines according to the figure 5 to turn clockwise. The beard 159 on the cylinder 158 runs onto the switching spring 152 and pivots via this the pawl 49 based on its position according to the figure 5 counterclockwise. The rocker switch 40 is in the Sequence released, and there are those shown in Figure 6 Ratios which correspond to the ratios according to FIG. 4.

Both in the case of the locking device 1 according to the figures 1 to 4 as well as in the case of the locking device 101 according to Figures 5 and 6, the coil spring 20 in one adjustable receptacle in the axial direction of the threaded spindle 11 be stored. By adjusting the recording, the resulting when the bolt 29 is in the closed position Vary the bias of the coil spring 20. This way and In this way, the energy that can be stored in the coil spring 20 be matched to the opening forces to be applied in each case. A very quick movement of the bolt 29 in the open position can be guaranteed in this way even in the event be that as a result of strong distortion of the door wing 3 large opening forces must be applied.

Claims (14)

1. Locking device on a door, a window or the like, wherein, on a stationary frame of the door, the window or the like and on a casement (3) which is movable relative thereto, at least one lock is attached, on the one hand, having at least one bolt (29) which is movable to and fro between a closed and an open position, and, on the other hand, at least one bolt abutment is atttached, which the bolt (29) engages behind in the closed position, and wherein at least one controlled reversible motor drive with at least one drive motor (4) is provided, by means of which the bolt (29) is movable during operational connection of drive motor (4) and bolt (29) at least into the closed position and by means of which an energy store (20) is loadable during operational connection of drive motor (4) and energy store (20), wherein the movement of the bolt (29) into the open position is at least assisted by the energy released from the energy store (20), characterised in that, in one connected state of the motor drive, the drive motor (4) is in operational connection with the bolt (29) but not with the energy store (20) and the bolt (29) is movable into the closed position but the energy store (20) is not loadable, and in that, in another connected state of the motor drive, the drive motor (4) is in operational connection with the energy store (20) but not with the bolt (29) and the energy store (20) is loadable but the bolt (29) is not movable into the closed position.
2. Locking device according to claim 1, characterised in that the motor drive has a gear element in the form of a gear spindle (11), gear worm or the like, which is rotatable about its axis of rotation (27) due to the drive motor (4) and is reversible in its direction of rotation by reversing the motor drive, wherein the drive motor (4), during the one direction of rotation of the gear spindle (11), gear worm or the like, is in operational connection with the bolt (29) but not with the energy store (20) and, in the other direction of rotation of the gear spindle (11), gear worm or the like, is in operational connection with the energy store (20) but not with the bolt (29).
3. Locking device according to one of the preceding claims, characterised in that the gear spindle (11), gear worm or the like meshes with an assigned counter-toothing element (28), wherein, by rotation of the gear spindle (11), gear worm or the like in the one direction of rotation, the gear spindle (11), gear worm or the like is movable in the axial direction (12) on the correspondingly supported counter-toothing element (28) and, by rotation of the gear spindle (11), gear worm or the like in the other direction of rotation, the counter-toothing element (28) is movable on the gear spindle (11), gear worm or the like, which is supported correspondingly in the axial direction (12), and wherein the operational connection of the drive motor with the bolt (29) or the energy store (20) is produced via the gear spindle (11), gear worm or the like, which is moved in the axial direction (12), or via the moved counter-toothing element (28).
4. Locking device according to one of the preceding claims, characterised in that the counter-toothing element (28) is rotatable about an axis of rotation (30) which intersects with the axis of rotation (27) of the gear spindle (11), gear worm or the like and, in the case of the gear spindle (11), gear worm or the like moving in the axial direction (12), is supported in the corresponding direction of rotation.
5. Locking device according to one of the preceding claims, characterised in that the counter-toothing element (28), in the case of a gear spindle (11), gear worm or the like moving in the axial direction (12), is supported on a wall (32) of a lock housing (2).
6. Locking device according to one of the preceding claims, characterised in that the gear spindle (11), gear worm or the like is supportable in the axial direction (12) by means of an axial limit stop which is movable to and fro in a controlled manner between a release position and a blocking position and, in the blocking position, engages behind a counter-limit stop of the gear spindle (11), gear worm or the like.
7. Locking device according to one of the preceding claims, characterised in that the axial limit stop for the gear spindle (11), gear worm or the like is configured as a projection (43) on a lever (40) which is pivotable in a controlled manner about an axis (41) intersecting with the axis (27) of the gear spindle (11), gear worm or the like in the release or in the blocking direction.
8. Locking device according to one of the preceding claims, characterised in that the gear spindle (11), gear worm or the like is supported via an axial bearing (17) on the axial limit stop.
9. Locking device according to one of the preceding claims, characterised in that the counter-toothing element (28) meshing with the gear spindle (11), gear worm or the like is in driving connection with the bolt (29) and the energy store (20) is formed by at least one resilient element which can be acted upon by the gear spindle (11), gear worm or the like, which is moved in the axial direction on the supported counter-toothing element (28), in opposition to the effect of a restoring force under deformation and thereto connected loading of the energy store (20), and in that the gear spindle (11), gear worm or the like acting upon the resilient element is supportable under the effect of the restoring force exerted by the resilient element on the axial limit stop moved into the locking position and, after moving the axial limit stop into the release position via the counter-toothing element (28), drives the bolt (29) in the direction of its open position.
10. Locking device according to one of the preceding claims, characterised in that the bolt (29) is configured in one piece with the counter-toothing element (28).
11. Locking device according to one of the preceding claims, characterised in that the axial limit stop for the gear spindle (11), gear worm or the like is movable by electrical control into the release position.
12. Locking device according to one of the preceding claims, characterised in that the axial limit stop for the gear spindle (11), gear worm or the like is movable into the release position via a manually actuatable slide, in particular via a drive rod (54) of a drive rod fitting of the door, the window or the like.
13. Locking device according to one of the preceding claims, characterised in that the axial limit stop for the gear spindle (11), gear worm or the like is configured as a projection (43) on the one arm (42) of a two-armed lever (40) which is pivotable in a controlled manner about an axis (41) intersecting with the axis (27) of the gear spindle (11), gear worm or the like and, on the other arm (47), is fixable by means of a locking device (50) in the case of a projection (43) situated in the blocked position in opposition to pivoting in the release direction, wherein the locking device (50) can be transferred by electrical control and/or by means of a manually actuatable slide, in particular the drive rod (54) of a drive rod fitting of the door, the window or the like, into the unlocking state.
14. Locking device according to one of the preceding claims, in the form of a supplementary locking mechanism on a door, a window or the like.

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