EP2681386A2 - Twist lock cylinder - Google Patents

Abstract

The twist lock cylinder has a cylinder housing (2), a cylinder core (3), and tumblers (4), each of which includes a core pin (6) and a housing pin (5). The tumblers (4) are guided within bores (7, 8, 14) of the cylinder housing (2) and of the cylinder core (3) and can be put in place by a key (13) that is inserted into a keyway (9). On its outer face (10), the cylinder core (3) has at least one insert (11) that forms a segment of the cylinder core (3) from a cross-sectional perspective. The insert (11) is made of a material that is significantly harder than brass. Preferably, the insert (11) is floatingly mounted. The cylinder core (3) cannot be twisted by an unauthorized key (13) even when the cylinder core (3) is negatively locked by only one incremental step.

Description

 Rotary locking cylinder

The invention relates to a rotary cylinder with a cylinder housing and a cylinder core and with tumblers, each having a core pin and a housing pin, which are guided in bores in the cylinder housing and the cylinder core and which are classified by a key inserted into a key channel. ;. ^: '

Rotary lock cylinder of this type have long been known. With these rotary lock cylinders locking systems can be created, which include many rotary lock cylinder. With such locking systems, rotary-lock cylinders are possible in terms of calculation, which block negative for an unauthorized key only with ^r a housing pin and a step jump of 0.5 mm. Due to the roundness of the rotor and the play between the cylinder core and the housing, this engagement is reduced and finally amounts to only 0.25 mm, for example. If the cylinder core is then forcibly turned in such a rotary lock cylinder with an unauthorized key, the blocking material, for example brass, of the cylinder core is pushed away. The cylinder core is thereby free and the lock can be operated. The weggedrückten chips can not prevent opening and thus the rotary lock cylinder can also be operated unnoticed later with the unauthorized key. As a result, creep thefts are basically possible. The invention has for its object to provide a rotary lock cylinder of the type mentioned, which does not allow the said unauthorized opening method. The object is achieved in a generic rotary lock cylinder in that the cylinder core has on its outer side at least one insert, which forms a segment of the cylinder core in cross section and which is made of a material which is substantially harder than brass. This refers to brass, which is usually used for the production of cylinder cores. The insert, which is arranged on the outside of the cylinder core and is made of a comparatively hard material, can not be pushed through by turning the rotor, even with a merely negative blocking. As a result, the reliability in a locking system can be significantly increased. It has also been shown that such an insert also forms an exceptionally favorable drilling protection. This in particular if, according to a development of the invention, the insert made of a very hard material,

¹

made of hardened steel, for example. Instead of steel, other types of hard materials are possible. According to a development of the invention it is provided that at least two, preferably three deposits are provided, which are arranged at a distance from each other on the outside of the cylinder core. Thus, a rotary lock cylinder can be produced, in which all holes for the tumblers are protected against crushing.

;

According to a development of the invention, it is provided that the at least one insert is mounted floating. In an unauthorized Öffhungsversuch this is pressed at least one insert to the outside of the cylinder housing. As a result, the game between the cylinder housing and the cylinder core is canceled. As a result, pressing the wall of the cylinder core even more reliably is prevented. The at least one insert is mounted floating at least in the radial direction and in the circumferential direction of the rotor. More preferably, the insert is also floating in the longitudinal direction of the cylinder core between two stops of the cylinder core. According to a development of the invention, it is provided that the at least one insert extends in the longitudinal direction of the cylinder core over all holes of a tumbler row. Such a tumbler series may include, for example, five tumblers. Preferably, all holes for the tumblers with provided such deposits. This ensures that none of the holes can be pushed through with a negative increment. This is therefore possible even if the cylinder core is made mainly of brass or another comparatively soft material.

An embodiment of the invention will be explained in more detail with reference to the drawing. Show it:

 Fig. 1 is a spatial representation of an inventive

 Rotary lock cylinder, where individual parts are pulled apart for graphic reasons,

 2 is a perspective view of the cylinder core,

 3 is a view of the inventive rotary lock cylinder,

 Fig. 4 is a section through the rotary lock cylinder along the line IV-IV of

_, Fig. 3,; .. ^■ . ^' .

5 and 6 respectively a section through the rotary lock cylinder along the line V or

 VI of Fig. 3, wherein this is shown in each case in a position in which an attempt is made to push through the cylinder core.

FIG. 1 shows a rotary lock cylinder 1 according to the invention, which has a cylinder housing 2 and a cylinder core 3. The cylinder core is mounted in a cylinder bore 17 and has an end face 18, from which a key channel 9 is incorporated. In Zylinderkem 3 and in the cylinder housing 2 a plurality of tumblers 4 are mounted, each having a Kemstift 6 and a housing pin 5. With an authorized key 13, these tumblers 4 can be arranged, so that the cylinder core 3 can be rotated to operate a lock, as shown in Fig. 4. For storage of the housing pins 5 slide 12 are provided in a conventional manner. However, these are not mandatory for the invention.

The cylinder core 3 consists of a roller-shaped part 3a made of a comparatively soft material, such as brass, and three inserts 11 made of a much harder material, such as steel. For storage of tumblers 4 has the part 3a holes 7, each aligned with holes 8 of the inserts 11. The inserts 1 1 form in cross-section a segment of the cylinder core 3, as can be seen for example in FIGS. 4 to 6. They are preferably stored floating. The floating bearing is limited in the longitudinal direction of the rotor by a flange 19 at the front end and in each case by a stop 20 at the rear end. The inserts 1 1 can thus be moved in the longitudinal direction with a comparatively small game. Also in the circumferential direction of an outer side 10 of the cylinder core 3 and in the radial direction, the inserts 1 1 can be moved with play. In FIGS. 4 to 6, the play between the outside 10 of the cylinder core 3 and the cylinder bore 17 is shown enlarged by a multiple for illustrative reasons. This game is relatively small and is for example a few hundredth! Millimeters, preferably less than 0.1 mm. By the engagement of the core pins 6 and the housing pins 5 in the holes 8 of the inserts 11 they are each centered accordingly. With reference to FIGS. 5 and 6, the operation of the inserts 1 1 is explained in more detail below.

In the cylinder 1, a key 13 'is used according to FIG. 5, which is not authorized and the tumbler 4' does not classify. The housing pin 5 'locks negative. The remaining tumblers 4 are arranged. In the case of a conventional cylinder core this could now be pushed with appropriate force. When locking cylinder 1 'according to the invention the insert 11' is pressed radially outwardly against the cylinder bore 17 during rotation of the cylinder core 3. The engaging in the insert 11 'housing pin 5' engages in the bore 8 of the insert 1 a. The rotor 3 or the part 3a can not be rotated further from the position shown in FIG. 5, since this is prevented by the fixed insert 11 '. This is not possible even if a comparatively high torque is exerted on the cylinder core 3. Turning is not possible in both a clockwise and counterclockwise direction. FIG. 6 shows the rotary-lock cylinder, in which, however, a core pin 6 "is considerably shorter than that in the rotary-lock cylinder according to FIG. 5. The housing pin 5" engages through with a front end Bore 8 of the insert 11 'and engages in the bore 7' of the part 3 a. Will with an unauthorized key 13 ' 6 attempts to rotate the rotor 3 in a clockwise direction, as shown, the insert 11 'is pressed outwardly against the cylinder bore 17. The cylinder core 3 is thereby blocked and can not continue This is also not possible in the counterclockwise direction, so that the rotary-locking cylinder can not be rotated with the key 13 'even if only the tumbler 4 "blocks negatively.

LIST OF REFERENCE NUMBERS

Rotary locking cylinder

 cylinder housing

 cylinder core

 part

 Zuhalrung

 housing pin

 core pin

 drilling

 drilling

 keyway

 outside

 inlay

 pusher

 key

 drilling

 key shaft

 cylinder sack

 bore

 front

 flange

 attack

 area

Claims

1. Rotary lock cylinder with a cylinder housing (2) and a cylinder core (3) and with tumblers (4), each having a Kemstift (6) and a housing pin (5), which in bores (7, 8, 14) of the cylinder housing ( 2) and the cylinder core (3) are guided and by a in a keyway (9) inserted key (13) are arranged, characterized in that the cylinder core (3) on its outer side (10) has at least one insert (11) which forms in cross section a segment of the Zylihderkerns (3) and which is made of a material which is substantially harder than brass.

2. Rotary lock cylinder according to claim 1, characterized in that the

 Insert (11) is made of a material which is substantially harder than the material of another part (3a) of the cylinder core (3).

3. Rotary lock cylinder according to claim 2, characterized in that the at least one segment (11) made of steel and in particular made of hardened steel.

4. Rotary lock cylinder according to one of claims 1 to 3, characterized in that the at least one insert (11) has a plurality of bores (14) for guiding the tumblers (4).

5. Rotary lock cylinder according to one of claims 1 to 4, characterized in that at least two and preferably three inserts (11) are provided, which are arranged at a distance from each other on the outer side (10) of the cylinder core (3). ,

6. Rotary lock cylinder according to one of claims 1 to 5, characterized in that the at least one insert (11) is mounted floating.

7. Rotary lock cylinder according to claim 6, characterized in that the at least one insert (11) is mounted floating at least in the radial direction and circumferential direction of the cylinder core (3).

8. Rotary lock cylinder according to claim 7, characterized in that the at least one insert (11) also in the longitudinal direction of the cylinder core (3) between two stops (19, 20) of the cylinder core (3) floatingly mounted

^{■ '} is.

9. Rotary lock cylinder according to one of claims 1 to 8, characterized in that extending at least one insert (11) in the longitudinal direction of the cylinder core (3) over all holes (8) of a Zuhaltuttgsreihe.

10. Rotary lock cylinder according to one of claims 1 to 9, characterized in that the housing pins (5) are each mounted in a slide (12).