EP0937843B1 - Rotary barrel for a security lock - Google Patents

Abstract

Tumblers (5) are movably mounted in radial holes (17,4) in the housing (1) and rotor (2). Each tumbler consists of a housing pin (6) and rotor pin (7). A key is inserted into a key-duct (8) to release the rotor against the spring (18) force. The end of at least one rotor pin next to the housing pin has an inner shoulder round it tilting towards the lengthwise axis (12) of the rotor pin. The housing-hole for this tumbler has a corresponding shoulder (14) next to which on the inside is a cylindrical guide surface (13) in which the housing pin is radially movable with little play.

Description

The invention relates to a rotary lock cylinder for a security lock according to the preamble of claim 1.

In the prior art, such rotary lock cylinders are numerous Executions have long been known. Are also known numerous intrusion instruments with which one tries, such Unlock non-destructive rotary lock cylinders. With a Such a recently offered tool becomes a drilled one Key shaft inserted into the key channel and thus all tumblers completely shifted radially outwards. By hitting the tool back and forth, the tumblers are now gradually moved radially inwards. Is a first tumbler classified, the housing pin remains due to the lateral tilting of the rotor with respect to the housing in the housing and does not cross the shear line. In this way if all tumblers are arranged one after the other, until the rotor can be turned and the lock can be opened.

Through the US 3,762,193 a rotary lock cylinder of the above Kind known in which the rotor pin on his outer end has an inclined shoulder which with a corresponding shoulder of the housing bore cooperates. The shoulder is formed by a pointed rib, which can impair the function of the guard locking. The invention has for its object a rotary lock cylinder to create this type, which the said unlocking method effectively prevented. The rotary lock cylinder should still be inexpensive to manufacture and reliable.

The task is with a generic rotary lock cylinder solved according to claim 1.

In the rotary lock cylinder according to the invention, the aforementioned Unlocking method with at least one guard locking the rotor pin while beating the rotor back and forth through the The two shoulders work together against the force the spring is raised radially outwards with each stroke. The The outer end of the core pin always remains in the housing and locks the rotor and prevents the unlocking of the Castle. It is now essential that this tumbler is designed in this way is that when authorized to unlock it, it works like a normal one guard locking works safely. In particular, is a correct one Deduction guaranteed. The key can therefore be used without clamps are removed from the key channel. Is also ensures that all tumblers after removing the Key in the basic position and only the rotor can be tilted slightly by, for example, 0.1 mm. To the cylindrical guide surface in the housing is essential. This has the effect that when one enters the rotor Housing pin the rotor is aligned with the housing. Due to the slight play of the housing pin in the cylindrical The guide surface will tilt the rotor by more than, for example 0.1 mm prevented. This ensures that all tumblers can be moved radially without jamming.

Further advantageous features result from the dependent ones Claims, the following description and the Drawing.

Figur 1 einen Querschnitt durch einen Teil eines erfindungsgemässen Drehschliesszylinders,

Figur 2 einen Querschnitt gemäss Figur 1 jedoch bei einer anderen Position der Zuhaltung,

Figur 3 eine Ansicht eines Kernstiftes,

Figur 4 und Figur 5 Schnitte gemäss Figur 1 zur Erläuterung einer unbefugten Aufschliessmethode, und

Figur 6 einen Teilschnitt gemäss Figur 1 zur Erläuterung der Positionierung des Rotors durch einen Gehäusestift.

An embodiment of the invention is explained below with reference to the drawing. Show it:

FIG. 1 shows a cross section through part of a rotary lock cylinder according to the invention,

FIG. 2 shows a cross section according to FIG. 1, however, in a different position of the tumbler,

FIG. 3 shows a view of a core pin,

Figure 4 and Figure 5 sections according to Figure 1 to explain an unauthorized unlocking method, and

6 shows a partial section according to FIG. 1 to explain the positioning of the rotor by means of a housing pin.

The rotary lock cylinder shown in Figure 1 is conventional Way from a housing 1 and a rotor mounted in this 2. A key channel 8 is worked into the rotor 2, into which to arrange pin tumblers 5 a not shown here Flat key is to be used. The tumblers 5, of which only one is shown here, each have a rotor pin 7 with a conical control surface 22, a housing pin 6 and a compression spring 18. The rotor pin 7 is in a stepped bore 4 stored, which has a shoulder 21 on which in the position of the tumbler 5 shown in Figure 1 is a circumferential Projection 20 rests. The housing pin 6 and the compression spring 18 are mounted in a bore 17 of a slide 16, the is inserted into a channel 15 of the housing 1. In the slider 16 several of the stepped bores 17 are incorporated, in which one housing pin 6 is radially displaceable. The feathers 18 are each supported on the housing 1 and lie on a housing pin 6 on.

The rotor pin 7 points against its bearing on the housing pin 6 End 10 a circumferential recess 19, the two opposite and sloping shoulders 11 and 26 forms. The one in FIG. 3 the inclination angle of the shoulder 11 denoted by α is at least 45 °. The shoulder 11 is bordered by a comparatively narrow one cylindrical surface 23 whose diameter is the same as a likewise narrow cylindrical surface 20 which is on the shoulder 26 adjoins. Between a cambered end face 25 of the Rotor pin 7 and the cylindrical surface 23 is located also an inclined shoulder surface 24. The diameter of the rotor pin 7 in the cylindrical surfaces 20 and 23 is, for example, 3 mm.

The stepped bores 17 of the slide 16 have an inner one cylindrical region 16, an inclined region 14 and a further cylindrical region 27. The inclination of the surface 14 is preferably corresponding to that of the surface 11 and is therefore also at least 45 °. The diameter of the hole 17 in the area of the cylindrical surface 13 is approximately 3.1 mm. The operation of the rotor pin 7 with an unauthorized unlocking method with a tool 9 indicated in FIG. 2 is explained in more detail below with reference to FIGS. 2 to 6.

By inserting the tool 9 into the key channel 8 all tumblers shifted radially outwards, as shown in Figure 2 is shown. Now the rotor 2 is about its longitudinal axis with tool 9 alternately clockwise and counterclockwise beating back and forth. The tool 9 is now with Provide holes 30 that allow the rotor pins 7th move inward from the position shown in Figure 2 can. Here, a not shown, over the holes 30th stretched film thermoformed.

Figure 4 shows the core pin 7 in a position in which compared to FIG Key channel is shifted out. The core pin 7 protrudes with his inner end 10 but still in the bore 17 of the slide 16 and thereby locks the rotor 2. FIG. 4 shows a tilt of the rotor 2 with respect to the slide 17 in the counterclockwise direction. This shift is comparatively small and is about 0.2 mm. Now the rotor 2 in the opposite direction beaten, the inner shoulder 11 meets the inclined Area 14. By the interaction of the two inclined Surfaces 11 and 14, the rotor pin 7 is now correspondingly radial against the force of the spring 18 to the outside in a closed position postponed. This position is shown in Figure 5. Each time the rotor 2 strikes again, these two hit Surfaces 11 and 14 on each other and cause the radial Movement of the rotor pin 7 outwards. As a consequence, that the rotor pin 7 at most up to that shown in Figure 4 Position is movable inwards. Also by hitting again the locking pin 7 cannot be moved into a position in which he no longer locks the rotor 2. An attempt to unlock with the tool 9 therefore does not lead to success. Usually it is sufficient if two tumblers are designed as shown here are. The other tumblers can be designed as usual his.

It is now essential that the tumbler 5 when using a authorized key works properly. To one To get the correct deduction, it is essential that the Rotor 2 aligned with housing pins 6 with respect to the housing 1 becomes. This is shown in Figure 6. The alignment takes place on the one hand by guiding the housing pin 6 in the Bore 4 of the rotor 2 and through its guide in the cylindrical Bore 13 of the slide 16. The lateral play of the housing pin 6 in the bore 13 is comparatively small and is about 0.1 mm. This is indicated by dimension A in FIG. It is also essential that the rotor pin 7 move not jammed radially inwards. By comparative large angle a of preferably about 45 ° or larger it is guaranteed that when the two meet Surfaces 11 and 14 of the rotor pin 7 do not stick to the surface 14, but can slide radially inwards unhindered. The guard works when using an authorized key 5 thus like a normal tumbler.

Claims (5)

1. Rotary locking cylinder for a safety lock, having a housing (1) and a rotor (2) mounted therein, and having a plurality of tumblers (5) which are mounted in a displaceable manner in radial bores (17, 4) of the housing (1) and the rotor (2), each have a housing pin (6) and a rotor pin (7) and, for the purpose of releasing the rotor (2), can be properly positioned, counter to the force of the spring (18), by a key (9) which can be inserted into a keyway (8), it being the case that, at its end (10) which butts against the housing pin (6), at least one rotor pin (7) has an encircling inner shoulder (11) which is inclined in relation to the longitudinal axis (12) of the rotary pin (7), and that the housing bore (17) has a corresponding shoulder (14) for this tumbler (5), characterized in that the corresponding shoulder (14) has an inner cylindrical guide surface (13) adjoining it, this cylindrical guide surface (13) being designed such that the housing pin (6) is guided in a radially displaceable manner therein.
2. Rotary locking cylinder according to Claim 1, characterized in that the encircling inner shoulder (11) is inclined by more than 45° in relation to the longitudinal axis (12) of the rotor pin (7).
3. Rotary locking cylinder according to Claim 1, characterized in that the inner shoulder (11) is inclined by approximately 45° in relation to the longitudinal axis (12) of the rotor pin (7).
4. Rotary locking cylinder according to one of Claims 1 to 3, characterized in that the bores (17) of the housing (1) are arranged in a slide (16).
5. Rotary locking cylinder according to one of Claims 1 to 4, characterized in that the bores (17) of the housing (1) are stepped bores.

Images