DE2528712A1 - Locking mechanism for e.g. doors - has housing with locking rotor operating locking element and overload friction coupling fitted between two - Google Patents

Abstract

The locking mechanism has a locking rotor connected to a locking element operated by carrier stub (12) which protrudes from housing (10). A head (14) with a wedge-shaped edge engages a lateral notch (13) in the element. Rotor contains the locking cylinder with internal face fitted with two blind holes with a pitch circle equivalent to the eccentricity of pin. If the cylinder is operated with the correct key, pin slides into one of the blind holes and this provides the rotary connection to the locking element (12). If forced rotation is attempted on the locking rotor (11), a spring loaded frictional connection comes into operation with the wedge-shaped head (14) being forced out from its seat (13) resulting in an axial movement of the head transmitted by the pin (17) onto the blocking (23) which prevents relative movement between the cylinder and the locking element, hereby protecting the cylinder tumbler pins from being shorn.-off.

Description

Password: Slipping clutch locking device The invention relates on a locking device with a rotatable in a fixed housing Closing rotor, which is equipped with a lock that is attached to the housing supporting locking member acts. In the known locking devices is the Closing rotor held in a rotationally fixed manner by the locking member in the closed state. This harbors the danger that unauthorized persons will have a high torque when attempting to break into the locking rotor express that causes deformations that damage at least the locking device. Damage is particularly likely if a lock is sensitive Elements is related.

The invention is based on the object, locking devices of the opening the circumscribed type of damage or destruction-proof, without the To enlarge or

to reduce the functional reliability. This is according to the invention in achieved essentially in that between the locking member and the locking rotor an overload clutch is connected, whose response torque is above that for the torque required for the closing process. In this configuration the locking element on the locking rotor is not immovable but rather under Mediation of an overload rotary clutch removed, so that the locking rotor in the case of locking using a torque exceeding the response torque of the overload clutch Torque is relative to the remaining in engagement with locking surfaces of the housing Lock member can rotate. The response torque of the overload clutch can dimensioned in such a way that damage by the resulting reaction forces is excluded are. However, the overload rotary clutch remains when the unlocked locking rotor is turned ineffective because the response torque of the overload clutch is higher than that for the closing process required torque. The embodiment according to the invention is accordingly reliable protection against attempting to use the locked locking device Unlock the use of force.

The invention can be implemented in various ways. At a An advantageous embodiment is a displaceable parallel to the axis of rotation of the closing rotor Locking member received non-rotatably in a bearing member, which via the overload clutch is coupled to the closing rotor. Then the locking member remains in the locked state and the bearing member comprehensive assembly compared to the expense of a high Torque rotated locking rotor in the by the engagement of the locking member in the blocking surfaces of the housing back certain rotational position. Such an execution is particularly easy to create if the overload clutch is in the locking rotor includes spring-loaded locking balls displaceable parallel to its axis of rotation, which an end-face locking notch ring track is opposite on the bearing member. Instead of one The detent coupling could, however, also be set to a predetermined response value Be related to a friction clutch, but this usually requires a higher construction cost, if a long Operational reliability even under changing Operating conditions is required.

In an expedient embodiment of the subject matter of the invention with the head having a wedge profile in a groove of the housing Locking member rotatably connected to a locking cap, which is guided in a rotationally fixed manner in the locking rotor, whose end facing away from the head is preceded by a lock member, which depends on the locking state an axial movement of the locking member releases or

locks. The flanks of the groove of the housing form in such a construction the locking surfaces fixed to the housing, with which the wedge-shaped profiled locking member head interacts lockingly as long as the locking member is held axially. This retention is determined by the lock member, which depends on the locking state, the evasive movement the locking member releases or blocks. The lock member can with such a design be formed by a rotatable lock cylinder occupied with tumblers, the Depending on the rotational position, a projection such as a pin of a link into a recess such as The hole of the other member can penetrate. Preferably the one that forms one link Lock cylinder has a recess into which, depending on the rotational position, an end part or pin the locking cap associated with the locking member and forming the other member can penetrate. Instead, however, the lock cylinder could also have a projection, the In the locking cap there is a recess opposite to the rotation position depending on the situation.

The invention can also be realized by the with a a spline having a head in a groove of the housing engaging locking member Pin is provided, the rotatably mounted in the lock rotor, with permanent magnets Equipped rotors are opposite, which depending on the rotational position to one for recording of the pin dimensioned hole complementary profile recesses exhibit. Such rotors equipped with permanent magnets are known. You will be through a analogously magnetized key in the required to form a receiving hole Relative rotational positions transferred. Instead of the profile recesses in the rotors could again be provided on the rotors projections, which are assigned by means of an Adjust magnetized key so that they have recesses on the locking member opposite, which allow a longitudinal displacement of the locking member. At a preferred embodiment in which the rotors have profile recesses to im turned into the unlocked state suitable for receiving a pin To form a recess, it is recommended that the pin rotatably with one in the closing rotor and to reach over the slidably guided cap in order to achieve optimal locking security get.

The subject of the invention is shown in two exemplary embodiments in the drawing shown. 1 shows a longitudinal section through a rotatable lock cylinder using locking device, Fig. 2 is a longitudinal section through one with permanent magnets Locking device using occupied lock rotors.

According to the exemplary embodiment according to FIG. 1, a housing 10 a closing rotor 11 is housed rotatably and axially held by means not shown. A driver pin protruding from the housing 10 has a profile which is flattened on two sides 12 before which actuates the locking means, not shown.

From the annular bottom surface of the receiving bore in the housing 10 starts a notch-like transverse channel 13 into which a wedge-shaped profiled head 14 a locking member 15 summarizes the one cuboid body 16 may have, from the side opposite to the head 14 a pin 17 protrudes. The profile of the locking member 14-16 is indicated in the drawing. That Locking member 15 is rotationally fixed in an opening of one with the driver pin 12 one-piece annular, externally cylindrical bearing member 18 slidably guided. Whose longitudinal position in a cavity of the closing rotor 11 is by a spring-loaded Stop ring 19 determined. The lower end face of the bearing member 18 in the figure forms an annular path which is interrupted by locking notches 20. In these Psstkugeln 21 fall in, each supported by a pretensioned helical compression spring 22 supported in an insert body 23 preferably made of plastic are displaceable, which received in the cavity of the closing rotor 11 in a rotationally fixed manner is.

The pin 17 of the locking member 15 is surrounded by a locking cap 24, the one end serving as a support for a prestressed helical compression spring 25 Has outer collar 26 and a pin 27 eccentrically at the other end. The cap 24 is axially displaceable relative to the insert 23, but through longitudinal grooves on the outside 28 gripping webs 29 of the insert body 23 received in the closing rotor 11 in a rotationally fixed manner.

A bore in the base body of the closing rotor 11 is not one with Locking cylinders 30 shown occupied locks inserted. The tumblers Eight shown grooves are assigned in the base body. The rotation of the Lock cylinder 30 in the base body 11 is through one in one over a part of the circumference extending partial ring recess 31 encompassing projection 32 limited. From the top end of the lock cylinder 30 in the figure or one attached to it The lock part goes eccentrically two holes 33 rtrss, t on a bolt circle are arranged, the radius of which is the eccentricity of the pin 27 corresponds to the longitudinal axis of the locking cap 24, provided that the pin 17 and the longitudinal axis of the lock cylinder 30 are aligned with one another.

In the locking position shown in Fig. 1, the locking member engages 15 with its head 14 into the transverse groove 13 of the housing 10. So that's about that The locking member 13 of the bearing body 18 is held non-rotatably with the driver 12 in the housing 10, as long as the locking member does not move axially to lift its head 14 out of the groove 13 can relocate. Axial displacement is, however, excluded according to FIG. 1 in that that the pin 27 of the locking cap 24 has no recess 33 of its in the central region possible rotational path held by the tumblers in a rotationally fixed manner in the closing rotor 11 Lock cylinder 30 is opposite. Nevertheless, the closing rotor 11 can be omitted Expenditure of a sufficiently large torque relative to the housing 10 and the driver pin 12 rotate with the bearing member 18 and the locking member 15 non-rotatably connected to it, wherein the locking force of the balls 21 is decisive for the torque to be applied is. When the closing rotor 11 is rotated to overcome the locking rotation resistance the locking cap 24 taken so that the relative position of its pin 27 opposite that of the lock cylinder 30 does not change. The locking device can so in the locked state not damaged by the use of force or the open lye be convicted.

After a key assigned to the lock cylinder 30 has been introduced the lock cylinder can be in one or the other end position with respect to the lock rotor 11 turn by hitting the projection 32 against the respective end of the Partial annular groove 31 is determined. One or the other gets there drilling 33 in a position in alignment with the pin 27. Now you can turn the closing rotor 11 the locking member 15 shift axially under the action of the wedge surfaces of its head 14, the pin 27 penetrating into one or the other bore 33. This is done by the locking balls 21 of the bearing body 18 taken along with the driving pin 12, so that now the locking means, not shown, can be driven by the driver pin are.

The procedure described presupposes that, as already stated has been, the locking force of the overload clutch forming, through the springs 22 supported and in the locking notches 20 gripping balls 21 is larger than that for Actuation of the locking means, not shown, required torque on the driving pin 12th

The embodiment according to FIG. 2 corresponds to that in essential respects according to Fig. 1, d. H. Here, too, the closing rotor 11 is embedded with a driving pin 12 equipped bearing member 18 which is rotatable in the base body of the closing rotor 11 is and non-rotatably a locking member 15 leads, which has a spline having a Head 14 engages in a groove 13 of housing 10 and has a pin 17. Also the About the rotary load coupling with the balls 21 corresponds to that of the first embodiment. The insert body 23 guiding the balls according to FIG. 1 is, however, provided with a base body of the closing rotor 11 replaces the insert body 40 held in a rotationally fixed manner, the several in Fig. 2 carries downwardly directed pivot pin 41, on each of which one with a permanent magnet 42 equipped rotor 43 is rotatably supported. The otherwise cylindrical rotors 43 have each has a longitudinal profile recess, not shown in the drawing. Complete the profile recesses at a given rotational position each of the four rotors 43 in the illustrated embodiment to a hole, the one the locking cap 24 of FIG. 1 replacing cap 44 can accommodate the in the base body of the closing rotor 11 is longitudinally displaceable in a rotationally fixed manner and in which the pin 17 is rotatable intervenes. The closing rotor 11 has the permanent magnet 42 upstream and from this separated by a thin wall 45 made of non-magnetizable material Insertion slot 46 for a correspondingly magnetized key, which in cooperation with the permanent magnets 42 rotated the rotors 43 such that their profile recesses together form a receiving space for the cap 44.

In the locked state, the rotors 43 under mutual influence their magnets occupy 42 rotational positions that do not allow penetration of the cap 44, When force is used, the lock rotor 11 rotates while overcoming the latching force of the balls 21 with respect to the locking member remaining non-rotatably relative to the housing 10 15 with the bearing member 18 and the driver pin 12. By the associated key in the insertion slot 46, the rotors 43 are rotated in such a way that for the cap 44 a recording room is available. When rotating the closing rotor 11 can therefore Locking member 15 leave the channel 13. It is for this purpose including the locking balls 21 of the bearing member 18 and the driver pin 12 taken to the not shown To operate closing means.

As already mentioned, the versions shown are only for example, implementations of the invention. This is not limited to this. On the contrary, many other designs are also possible.

Claims (8)

Expectations: Locking device with a rotatable in a fixed housing Closing rotor, which is equipped with a lock that is attached to the housing supporting locking member acts, characterized in that between the locking member (15) and the closing rotor (11) an overload rotary clutch (20 - 22) is connected, their response torque above the torque required for the closing process lies. 2. Locking device according to claim 1, characterized in that a locking member (15) that can be displaced parallel to the axis of rotation of the closing rotor (11) is received in a non-rotatable manner in a bearing member (18) which via the overload rotary clutch (20-22) is coupled to the closing rotor (11). 3. Locking device according to claims 1 and 2, characterized gekennzeicnnet, that the overload rotary clutch in the closing rotor (11) can be displaced parallel to its axis of rotation comprises spring-loaded locking balls (21), which on the bearing member (18) has an end face RAstkerbenringbahn is opposite. 4. Locking device according to one or more of claims 1 - 3, characterized in that with the head (14) having a wedge profile in a groove (13) of the housing (10) engaging locking member (15) one in the closing rotor (11) non-rotatably guided locking cap (24) is rotatably connected, the head facing away Front face a lock member (30) is upstream, which depending on the locking state Axial movement of the locking member (15) releases or blocks. 5. Locking device according to claim 4, characterized in that the lock member (30) is formed by a lock cylinder fitted with tumblers which, depending on the rotational position, has a projection (27) such as the pin of a link (24 or 30) can penetrate into a recess (33) such as a hole in the other member (30 or 24). 6. Locking device according to claim 4, characterized in that on the head (14) having a wedge profile in a groove (13) of the housing (10) the locking member (15) has a pin (17) which is rotatable in the closing rotor (11) opposite rotors (43) equipped with permanent magnets (42) and which depending on the rotational position, profile recesses complementing a hole receiving the pin (17) exhibit. 7. Locking device according to claim 6, characterized in that the pin (17) is guided in a rotationally fixed and displaceable manner in the closing rotor (11) Cap (44) is overlapped. 8. Locking device according to claim 4 or 7, characterized in that that the locking member (15) to engage in the groove (13) loading helical compression spring (25) acts on the cap (24 or 44). L e r s e i t e