EP0542944A1

EP0542944A1 - Lock with motor-driven rotating cylinder cores.

Info

Publication number: EP0542944A1
Application number: EP92909208A
Authority: EP
Inventors: Mijodrag Makivic
Original assignee: EVVA Werk Spezialerzeugung von Zylinder und Sicherheitsschloessern GmbH and Co KG
Current assignee: EVVA Sicherheitstechnologie GmbH
Priority date: 1991-06-11
Filing date: 1992-04-23
Publication date: 1993-05-26
Anticipated expiration: 2012-04-23
Also published as: FI930586A; AT396163B; FI930586A0; TW209267B; DK0542944T3; EP0542944B1; ATE133464T1; WO1992022720A1; NO922196D0; ATA117491A; DE9207789U1; ES2082469T3; NO922196L; NO307430B1; DE59205160D1

Abstract

A lock with motor-driven rotating cylinder core(s) (12) is characterized in that the drive shaft (10) of the motor (8) is located inside a ring (13) connected to rotate with the cylinder housing (15), the drive shaft (10) and the ring (13) also being connected to rotate with each other.

Description

Lock with a motor-rotatable cylinder core

The invention relates to a lock with a motor-rotatable cylinder core, and a locking system with several such locks.

With central locking systems that can be controlled electrically or electronically via a central unit, it may be necessary to operate the locks individually or several or all of the system locks from the central unit. Known locks of this type have electric drives which are arranged in the door fittings and which therefore have a large volume and have an unsightly appearance.

The task is to accommodate the motor drive for the cylinder core or cylinders in the lock area, preferably in a door knob of conventional size. Preferably, the doorknob should also be manually operable to allow manual operation in the event of a disturbance or for the normal opening of the door. In particular, such motor-driven locking cylinders are provided on hotel doors, the rotary knob being fastened to the inside of the room, while the lock can be closed or opened from the other side by means of a key.

According to the present invention, the object is achieved in that the output shaft of the motor is arranged within a ring connected to the cylinder housing for rotation. is net, the output shaft of the motor and the ring are also connected to rotate. The locking system is characterized in that several such locks are provided and queried and controlled via a central control unit.

Further advantageous features of the invention can be found in the patent claims, the following description and the drawings.

Fig.l shows in the central longitudinal section a double cylinder lock according to the invention. 2 and 3 are sections along the lines A-A and B-B in Fig.l. 4 is a partial longitudinal section through another embodiment variant. Fig. 5 is a partially sectioned view of the cylinder lock with the associated key.

Fig.l shows in cross section the door 1 in which the double cylinder lock 2 is arranged. The door lock construction controlled by the locking lug 3 is not shown to simplify the drawing.

On the right side of the door, preferably the inside of the door, there is a rotary knob 4, by means of which the lock 2 can be locked or unlocked by hand and the door can be locked or opened.

The rotary knob has a housing 5 which is closed by a cover cap 6. 7 denotes the axis of rotation, which is the same both for the rotary knob and for the cylinder cores of the cylinder lock 2.

An electric motor 8 with a reduction gear 9 is arranged in the housing 5 eccentrically, ie offset from the axis of rotation 7. The output pinion 10 protrudes into a corresponding eccentrically arranged recess 11 of the associated cylinder core 12. The output pinion 10 engages with its Ner perforation in an internally toothed wheel 13, which sits on the one hand in an annular recess 14 of the cylinder housing 15 and is non-rotatably connected to the housing 15 via the extension 16, and which on the other hand engages in a groove 17 of the cylinder core, the cylinder core opposite the internally toothed wheel 13 is rotatable. See also the sectional representations Fig. 2 and Fig. 3.

If the motor gear block 8, 9 is supplied with current, the output pinion 10, which engages in the internally toothed wheel 13, rotates. This results in a twisting of the cylinder core 12 and a twisting of the locking lug 3 with a corresponding actuation of the associated door lock. The rotation of the cylinder core 12 also means a rotation of the rotary knob 4.

If the lock is actuated by hand via the rotary knob 4, the eccentricity of the mounting of the output pinion 10 likewise results in the rotation of the cylinder core 12 and thus in the actuation of the lock.

The motor 8 is supplied with power via the cables 18, which conduct the current to a ring magnet 19 in the exemplary embodiment shown. In the manner of a transformer, contactless energy transfer takes place to the second ring magnet 20 arranged in parallel thereto, and the current induced therein is passed on to the motor 8 via lines not shown here.

To determine the rotational position of the cylinder core 12 and to determine the direction of rotation, a light barrier module 21 is arranged in the cylinder core 15, the sensors 22 (FIG. 3) of which are directed against the cylinder core 12. The cylinder core 12 is provided with reflection marks 23, which in the present exemplary embodiment have the shape of notches. Instead of notches, other reflections Xion marks such as glossy surfaces, black and white markings, etc. can be provided. By evaluating the signal of the light barrier module, it can be determined in which rotational position the respective lock is located, so that the control center can make corresponding circuits for the electric motor 8.

As can be seen in FIGS. 1 and 3, two notches lie next to one another in the axial direction of the cylinder core and are offset from one another by an angular amount. The angle β is dimensioned such that in the O position of the cylinder core 12

(not twisted) allow both notches 23 to address their assigned sensor simultaneously. When rotating in one direction, one of the two notches 23 leaves the sensor area earlier and the other notch later. The order is reversed if it is rotated in the other direction. The direction of rotation can thus be clearly determined by appropriate electronics. The response of both sensors at the same time means the passage through the O position, with a corresponding counting circuit increasing or decreasing by one.

The embodiment according to FIG. 4 essentially corresponds to that of FIG. 1 and the same parts are provided with the same reference numerals. The difference lies in the power supply to the motor 8. The current reaches the slip rings 24 via the cables 18. The current is taken from these slip rings via sliding contacts 25 and fed to the motor 8 via cables.

5 shows schematically the activation of the electrically operated rotary knob according to the preceding figures.

In this exemplary embodiment, the electronic key 26 has an integrated circuit 27 and transmission elements 28. The transmission elements 28 send a code signal , which is received by the reading antenna 29, amplified accordingly and forwarded to the control center 31 via the lines 30. The received signals are evaluated in the control center 31 as to whether they match a predetermined code. In the affirmative, the motor 8 (not shown here) of the lock is supplied with current via line 32 and the cylinder core is rotated accordingly. The lock status of the lock can also be determined by the control center 31 and, if necessary, the electric lock can be remotely controlled. In the event of danger (fire), all locks or lock groups can be unlocked together centrally.

Claims

PATENT CLAIMS

1. Lock with motor-rotatable (n) cylinder core (s), characterized in that the output shaft (40) of the motor (8) is arranged within a ring (13) connected to the cylinder housing (15) for rotation, the output shaft and the ring are also connected for rotation.

2. Lock according to claim 1, characterized in that the ring (13) is an internally toothed wheel and the output shaft is a pinion.

3. Lock according to claim 1 or 2, characterized in that the output shaft (13) laterally offset parallel to

The axis of rotation (7) of the cylinder core is arranged and is mounted in a recess (11) of the cylinder core.

4. Lock according to one of the preceding claims, characterized in that the motor (8), optionally with gearboxes (9), is arranged in a rotatable knob (4).

5. Lock according to one of the preceding claims, characterized in that the cylinder core (12) has one or more scannable markings (23) for determining the rotational position and the direction of rotation.

6. Lock according to claim 5, characterized in that the marking (23) is a notch or a reflective surface.

7. Lock according to claim 6, characterized in that at least one light barrier element (21) is provided for scanning the marking (23).

8. Lock according to one of the preceding claims, characterized in that sliding contacts (24, 25) are provided for power transmission from the door to the rotatable knob.

9. Lock according to one of the preceding claims, characterized in that a contactless energy transmission unit (19, 20) is provided for power transmission from the door to the rotatable knob.

10. Lock according to one of the preceding claims 7 to 9, characterized in that the cylinder core has two markings, which are arranged next to one another and rotated by an angle β relative to one another, and that each marking is assigned a sensor.

11. Locking system, characterized in that several locks according to one or more of the preceding claims 1 to 10 are provided and are queried and controlled via a central control unit (31).