FI100907B - Electromechanical cylinder locking arrangement - Google Patents

Abstract

A regulating unit (16) is functionally dependent upon an electrical code and in the locking position, independently of the lock mechanism, prevents the turning of the lock cylinder (1b) in relation to the lock housing (1a). The regulating unit is of the electro-magnetic rotatable type arranged in a guide track (17) in the lock cylinder or in a component (9) continuously rotatable with the lock cylinder, so that in its locking rotary position it prevents the lock cylinder free rotary movement in relation to the lock housing. The guide track (17) extends in the direction of the lock cylinder cross-section plane around the lock cylinder or component continuously rotatable with it and comprises at least one widening part (17a) which in the regulating unit locking position works in conjunction with the regulating unit.

Description

100907

ELECTROMECHANICAL CYLINDER LOCK ARRANGEMENT - ELEKTROME-KANISKT CYLINDERLÄSARRANGEMANG

The invention relates to an electromechanical cylinder lock arrangement according to the preamble of claim 1.

5 The operational safety of a mechanical cylinder lock or the like can be improved by providing it with latch means functionally dependent on the electronic code to be entered separately. A wide variety of such electromechanical cylinder lock arrangements are known. Most of them are characterized by a rather complex and space-consuming structure. They can also be technically cumbersome in that they require significant modifications to the locking cylinder itself or to the members associated with the locking mechanism. Reference is made here by way of example to the solutions which appear from GB 2112055 A, EP 0281507 B1, EP 0381320 B1, FI 960903 (corresponding to PCT application WO 96/00830). What these solutions have in common is, among other things, that the movement of the electrically operated locking member between the locking and releasing positions takes place linearly under the control of a spring. The solutions are complex, bulky: 15 and somewhat unreliable because they depend on the operation of the spring.

The object of the invention is to provide a new, structurally simple and functionally reliable solution for electronic code-dependent latch means and their control, from which said shortcomings in the prior art have been substantially eliminated.

The object of the invention is achieved by the method set out in claim 1 and the other claims. way. According to the invention, the latch means comprise an electromagnetically rotatable latch member fitted in a guide groove made in the locking cylinder or in the member continuously rotatable therewith so as to prevent free movement of the lock cylinder relative to the body in its locking rotational position. Because the solution is based solely on • ·:. ’· * 25 latch members for rotation, resulting in a simple design and space-saving.

In a preferred embodiment of the invention, the guide groove extends parallel to the cross-sectional plane of the lock cylinder around the lock cylinder or the member continuously rotatable therewith and comprises at least one extension part which, in the locking position of the latch member, is cooperated with the latch member. By making two expansion portions in the guide groove, which are located about 180 ° apart, the cylinder lock mechanism can be continuously rotated around in the same direction of rotation, the locked and released position alternating.

In practice, the guide groove end of the latch member may be substantially rectangular in cross-section such that its narrower dimension corresponds substantially to the width of the guide groove and its wider dimension corresponds substantially to the width of the guide groove extension portion.

At the end opposite to the guide groove of the latch member, a permanent magnet 10 is arranged, which is arranged to cooperate with the poles of the electromagnet. The permanent magnet is preferably annular and magnetized parallel to the cross-sectional plane of the axis of rotation of the latch member. In this way, a structurally simple compact assembly is obtained from the latch member. In addition, the annular shape is advantageous, because then the magnetic field of the electromagnet tends to rotate the latch member as efficiently as possible.

'5 The rotation of the latch member is arranged to be achieved by changing the polarity of the electromagnet. As a result, a reciprocating movement between the locking and releasing positions can be provided to the latch member. To this end, the arrangement comprises stop members arranged to limit the rotation of the latch member to a reciprocating position of about 90 ° • · · ::: * between the opening and locking positions. In this way, the latch member is automatically closed • · · * 9 · * 20 at one of the two edges (bistable), because the poles of the permanent magnet tend towards; placed diametrically in elements extending to different sides of the latch member. In this case, • · · only a short control pulse, eg 40ms, is required to turn the latch member, which is well suited for • · ***. even for battery operation.

• »'. · .25 The electromagnet causing the latch member and its rotations is preferably arranged in a separate unit to be mounted at the end of the lock cylinder, which is fastened to the respective installation site by means of fastening elements, preferably in common with the lock body part. In this case, no changes need to be made to the 3 100907 lock cylinder itself or to the lock mechanism, which is technically advantageous from the manufacturing point of view.

The locking mechanism is preferably a cylinder lock mechanism with rotatable plate handles.

The invention will now be described, by way of example, with reference to the drawings, in which Figure 1 shows a schematic diagram of an interlocking application utilizing an embodiment of an electromechanical cylinder-lock arrangement according to the invention; , Fig. 4 shows an section IV-IV of Fig. 2 enlarged, and Fig. 5 shows the operating principle of the electromagnetic latch means according to the invention.

*; * 15 In drawing 1, the cylinder lock included in the locking unit is used! . ' in a manner known per se by means of the arm 2a of the key 2. In the solution shown, the cylinder lock 1 cooperates with a lock body 3 placed in a door or the like therein. , to move the bogie 3a. The cylinder lock comprises a lock body part 1a and inside it a ♦ * * ··· rotatable lock cylinder Ib. The operation of the associated locking mechanism may • · · 20 be based on a solution known per se, for example one with rotating disk disadvantages:. to a cylinder lock mechanism such as that disclosed, inter alia, in U.S. Pat. No. 4,210,097, so that it is not. * t *. here its explained in more detail.

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The locking unit is also provided with an electronic unit 5 which controls electrically operated latch means 16, which in the embodiment of the figures are placed in a separate cylinder lock »·« *; '*? 5 1 and an interlocking object, in this case a lock body 3. The latch means 16 are functionally independent of the locking mechanism of the cylinder lock 1 and, in their locked position, prevent the transmission of force from the key 2 via the cylinder lock 1 to the bolt 4 100907 3a. The operation of the latch means 16 depends on the electronic code stored in the key circuit 2b, entered into the key or read from it. For this purpose, the locking unit is provided with antenna means 7, which can operate in a manner known per se, for example inductively.

5 The locking unit can be powered by any suitable source, such as AC power or a battery (not shown). Especially if a battery is used as the power source, the locking unit is preferably provided with power switching means 6, which turn on the electronic unit 5 only when the key 2 is inserted in the lock 1 to prolong the effective operation of the battery.

After the key 2 has been inserted into the lock 1 and the power switching means 6 have connected the circuits of the electronic unit 5 to the power supply, the electronic code is entered and / or the code is read by means of the antenna means 7. If the code is correct, the electronic unit 5 causes the latch means 16 to move to the release position, whereby the bar 3a can be moved by means of the key 2. The locking unit is also provided in a manner known per se with a protective fitting 8 which protects the parts 1, 4, 6 and 7 against external burglary attempts.

Figures 2-5 show in more detail a preferred structure of the latch means unit 4 and the operating principles of the latch means. The force is transmitted from the cylinder lock 1 to the unit 4 by means of a torsion element 9 which is connected to the lock cylinder Ib and continuously follows its rotational movement. The transmission from the torsion element 9 to the lock body 3 can take place by a flat torsion element known per se • · · 20 (not shown). The arrangement further comprises a locking member 10 which holds both the torsion element 9 and said torsion member in place in the unit 4.

• «« • «« • · «♦. ···. The latch unit 4 is provided with an electromagnet having a coil 11 and poles 12a and 12b of magnetic material, a circuit board 14 including a Hall sensor and wiring 15 to the electronics unit 5, and a latch member 16. The latch member 16 comprises a rectangular 25-shaped end 16b , which is arranged to cooperate with the guide groove 17 arranged in the torsion element 9 and its two extension parts 17a and 17b. When the end 16b of the latch member is transverse to one of the two extensions 17a or 17b as shown in Figures 2 and 3, it does not fit in the guide groove 17 but prevents the torsion element 9 100907 from rotating relative to the unit 4 and thus the locking cylinder Ib rotating relative to the lock body 1a.

At the other end of the latch member 16 there is a permanent magnet 16a which cooperates with the poles 12a and 12b of the electromagnet as shown in Figs. 4 and 5 so that the rotational movement of its 5 is limited to 90 ° by the members 13. The operation of the latch member 16 is controlled by means of the electronic unit 5 and the electronic code entered into it from the key 2. When the correct code has been entered, the electronic unit 5 controls the electromagnet so that its polarity changes, whereby the latch member 16 rotates 90 ° from the locked position shown. In this case, the end 16b of the latch member fits into the guide groove 17 as a whole and allows the torsion element 9 to rotate and thus the force 10 to be transmitted from the key through the lock cylinder Ib to the bar 3a.

Since the permanent magnet 16a of the latch member 16 tends to one of the two extreme positions based on the current polarity of the electromagnet, its state is stable in each case. When the poles 12a and 12b are arranged successively in the key insertion direction as shown, it is not possible to apply a magnetic force 15 to turn the latch member 16 from outside the door. Due to the annular shape of the permanent magnet 16a, the latch member 16 can be rotated as efficiently as possible in the magnetic field of the electromagnet.

The locking means unit 4 is also provided with holes 18 which can be used to mount the unit 4 together with the cylinder lock and possibly also the protective fitting 8 with common screws (not shown) in the lock body 3 and in the door.

The application of the invention does not depend on the cylinder lock mechanism used or on the technique used to transmit the electronic code to the key. from the memory circuit to the electronics unit for review.

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Thus, the invention is not limited to the embodiment shown, but several variations are conceivable within the scope of the appended claims.

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Claims (10)

100907 An electromechanical cylinder lock arrangement comprising a lock body (1a) and inside it a lock cylinder (Ib) rotatable relative to the body (1a) in the open position of the lock mechanism, and latch means 5 (16) operatively dependent on the electronic code, which in their locking position prevent independently of said locking mechanism, for rotating the lock cylinder (Ib) relative to the body part (1a), characterized in that said latch means (16) comprise an electromagnetically rotatable latch member (16) fitted to the lock cylinder (Ib) or a continuously rotatable member (9) into the guide groove (17) so that in its locking rotational position it prevents the free rotation of the locking cylinder (Ib) 10 with respect to the body part (1a). Cylinder lock arrangement according to Claim 1, characterized in that the guide groove (17) extends parallel to the cross-sectional plane of the lock cylinder (Ib) around the lock cylinder (Ib) or the continuously rotatable member (9) and comprises at least one extension part (17a). in the locking position is tracked in cooperation with 15 latch members (16). Cylinder lock arrangement according to Claim 2, characterized in that the guide groove has two expansion parts (17a, 17b) which are located approximately 180 ° apart. *** Cylinder lock arrangement according to one of the preceding claims, characterized in that the end (16b) on the guide groove (17) side of the latch member (16) has a substantially rectangular cross-section. 20 so that its narrower dimension answers • · · * ·: ·. mainly the width of the guide groove (17) and its wider dimension corresponds mainly to ♦ ♦ · the width of the guide groove extension part (17a, 17b). • · • · • · · • ·. Cylinder lock arrangement according to one of the preceding claims, characterized in that a permanent magnet (16a) is arranged at the end opposite the guide groove (17) of the latch member (16), which is arranged in cooperation with the poles (11) of the electromagnet (11). 12a, 12b), respectively, arranged on different sides 90907 of the permanent magnet part (16a) of the latch member in diametrically extending elements (12a, 12b) on different sides of the axis of rotation of the latch member (16). Cylinder lock arrangement according to Claim 5, characterized in that the permanent magnet part (16a) is annular and magnetized parallel to the cross-sectional plane of the axis of rotation 5 of the latch member (16). Cylinder lock arrangement according to one of the preceding claims, characterized in that the rotation of the latch member (16) is arranged to be achieved by changing the polarity of the electromagnet (11). Cylinder sleeve arrangement according to one of the preceding claims, characterized in that the suspension arrangement comprises stop members (13) arranged to limit the rotational movement of the latch member (16) to approximately 90 ° back and forth between the opening and locking positions. Cylinder lock arrangement according to one of the preceding claims, characterized in that the latch member (16) and the electromagnet (11) causing its rotational movements are arranged in a separate unit (4) mounted on the end of the lock cylinder (Ib) and fastened with the lock body 15a. preferably with common fastening means for the respective installation site. Cylinder lock arrangement according to one of the preceding claims, characterized in that the lock mechanism is a cylinder lock with rotatable plate handles. mechanism. • · Π • · C • * * • · · 20 PATENTKRAV • · • · • · · •