NO340070B1 - locking device - Google Patents

Abstract

The lock arrangement comprises a lock cylinder with a cylinder housing and a cylinder core rotatably located in an aperture in the cylinder housing. The cylinder housing has a first magnet and the cylinder core has a second magnet. The magnets exert a reciprocal force to rotate the cylinder core to a primary rotation position. The cylinder core is simply and cheaply returned to a starting position.

Description

Technical area

The present invention relates generally to locking devices and more particularly to a locking device which comprises magnets for position control of a cylinder lock core.

Background

Lock cylinders have a wide range of applications and are available in many different designs. Perhaps the most common embodiment comprises a cylinder housing and a cylinder core which is rotatably arranged in an opening in the cylinder housing. This core may include locking means, such as code pins, which are operated by means of a key inserted into the core. Another variant is a core which does not have blocking means and which is maneuvered by means of a twister or the like which is assigned to the core. This latter type is used, for example, together with engine locks, and in this case the engine lock function is arranged in a lock box. A key-operated lock cylinder is connected to the lock box on the outside of the door, and a vriderma-operated lock cylinder is connected to the lock box on the inside of the door.

A problem with this use of a twist-actuated locking cylinder together with a motor lock is that the motor lock function can be blocked if the twist-actuated cylinder core is in a position other than an initial position. This can be the situation if a user uses the twister to open the door and leaves the twister in a different position than the initial position.

FR 2074103750A1 shows a locking device comprising a stator and a rotor which is rotatable in the stator by means of a key. A leaf spring is arranged for angular positioning of the rotor. WO 2004/018805 discloses a locking arrangement specially designed for aircraft. The arrangement comprises a stationary housing and a drive shaft which is rotatably mounted in the housing and driven by a drive unit such as an electric motor. The housing and drive shaft are both provided with at least one permanent magnet to rotate the shaft to a predetermined position should the drive unit fail.

Summary of the Invention

The purpose of the present invention is to provide a locking device which comprises a twist-operated locking cylinder with a return function for the cylinder core to an initial position.

The invention is based on the insight that magnets can be used to give the cylinder core a desired rotation to an initial position.

According to the invention, a locking device is thus provided as defined in the attached patent claim 1.

Further preferred embodiments are defined in the independent claims.

The use of magnets to return the cylinder core to an initial position has several advantages. Firstly, magnets are relatively cheap and easy to fit and therefore do not contribute significantly to the total cost of the lock cylinder. Furthermore, the contact between the magnets is frictionless, so that the rotation of the cylinder core is not adversely affected.

Brief description of the drawing

The invention shall be described in more detail as an example with reference to the attached drawing, where: fig. 1 shows an exploded view of a locking cylinder which forms part of a locking device according to an embodiment of the invention;

fig. 2a shows a cross-sectional view through the lock cylinder in fig. 1 at the level of the magnets included therein, the locking cylinder being in an initial position; and

figures 2b and 2c are cross-sectional views corresponding to that in fig. 2a, but which shows torsional positions for the cylinder core.

Preferred embodiment

In the following, a preferred embodiment of a locking device according to the invention will be described. A locking cylinder included in the locking device, which is generally denoted by 1, comprises a cylinder housing 10 and a cylinder core 20 which is rotatably stored in the cylinder housing. The cylinder housing exhibits a radial bore 12, in the bottom of which a permanent magnet 14 is fixedly arranged in a suitable manner, such as by press fit or adhesive connection.

A twister 22 is placed on the outer end part of the cylinder core 20. Furthermore, a permanent magnet 24 is firmly placed in a bore in the cylinder core in a manner that is also apparent from the cross-sectional view in fig. 2a. The polarity of the magnets 14 and 24 is also apparent from fig. 2a.

The lock cylinder 1 is designed to be placed in a conventional manner in a lock box (not shown).

Again with reference to fig. 2a shows an initial position for the cylinder core 20 corresponding to the position of the twister 22 shown in fig. 1. The cylinder core's connection to the locking mechanism which is arranged in the lock box is designed in such a way that in the one in fig. The position shown in 2a does not negatively affect this locking mechanism, which can have a motor locking function. It can be seen here that the south pole of the magnet 14 is directed towards the north pole of the magnet 24, which gives a mutual force of attraction between the magnets. The cylinder core 20 thus seeks to assume this rotational position thanks to this attractive force which is exerted between the magnet 14 in the cylinder housing 10 and the magnet 24 in the cylinder core 20.

After using the twist function, a user is very likely to leave the cylinder core in a different position than that shown in fig. 2a. Examples of such other twisting positions are shown in Figures 2b and 2c. It can be seen from these figures that the south pole of the magnet 14 is directed towards the south pole of the magnet 24, which gives a mutual force of repulsion between the magnets. It will be understood that this repulsive force which occurs between the magnet 14 in the cylinder housing 10 and the magnet 24 in the cylinder core 20 in the positions shown in figures 2a and 2b seeks to give the cylinder core a rotation in the respective direction of the arrow to the starting position shown in fig. 2a. When the magnet 24 in the cylinder core has a position that is perpendicular to the magnet 14 in the cylinder housing, an attractive force arises between the south pole of the magnet 14 and the north pole of the magnet 24, so that the force which seeks to give the cylinder core a rotation to the starting position shown in fig. 2a is reinforced. Thereby, a return function for the cylinder core to an initial position which is advantageous for the function of the locking device is provided in a simple, cheap and reliable way.

A preferred embodiment of a locking device according to the invention is described above. The person skilled in the relevant technical area will realize that this can be varied within the scope of the invention as defined in the appended patent claims.

The magnets 14 and 24 are shown as permanent magnets. It will be understood that other types of magnets can also be used, such as solenoids.

Claims (5)

1. Locking device comprising a locking cylinder (1) with a sew House of Commons (10), a cylinder core (20) which is rotatably stored in an opening in the cylinder housing (10) and a twister (22) which is fixedly arranged on an outer end part of the cylinder core (20), where the cylinder housing (10) includes a first magnet (14) and the cylinder core (20) includes a second magnet (24), wherein the first and second magnets (14,24) are arranged to exert a mutual force to give the cylinder core (20) a rotation to a predetermined rotational position. 2. Locking device according to claim 1, where at least one of the magnets (14, 24) is a permanent magnet. 3. Locking device according to claim 1 or 2, where the first magnet (14) is arranged at the bottom of a radial bore (12) in the cylinder housing (10). 4. Locking device according to one of claims 1-3, where the second magnet (24) is arranged in a bore in the cylinder core (20). 5. Locking device according to one of claims 1-4, with a lock case comprising a locking mechanism with a motor locking function, the locking cylinder (1) being mechanically connected to the locking mechanism.