EP0686743B1 - Lock cylinder with a safety device against the withdrawal of the lock cylinder - Google Patents

Abstract

The security lock (10) is of the cylinder type. It is designed to be firmly located in the door plate (26) or other structure on a door so that it cannot be removed. The locating device (24) consists of a stepped bolt with an enlarged head (24a) projecting beyond a side fin (16) on the cylinder lock. The part of the bolt of reduced dia. (24b) is screwed into the body of the lock. The head of the bolt may have two cutouts which may form flat faces to help turn the bolt in the bore which receives it.

Description

The invention relates to a locking cylinder with a cylinder housing, a cylinder core rotatable in the cylinder housing and with at least two pairs of tumbler pins arranged side by side, of which pins in the cylinder core and of which pins on the cylinder housing in a web of the cylinder housing are movably supported in stud holes, a trigger guard, possibly designed as a stepped bolt, is provided is inserted with one in one of the stud holes Trigger protection foot and one in the direction of the bore axis projecting over the web and transverse to the axis of the bore Bridge pin bore projecting from the trigger protection head.

Such a locking cylinder is known. The one as a stepped bolt trained deduction protection closes the one assigned to him Bridge pin bore. The other web pin holes are closed by metal locking pins. The locking pins are in the end area facing away from the cylinder core Bridge pin holes arranged. The trigger protection head is circular cylindrical formed and the web of the cylinder housing has a recess assigned to the trigger protection head for partial Take up the trigger protection head so that the trigger protection head only partially protrudes over the footbridge. The radius of the trigger protection head is greater than the distance from the central axis a stud hole to the edge of an immediately adjacent one Bridge pin bore. The deepening is accordingly not only in the cylinder housing, but also directly in the trigger protection adjacent locking pins formed and as a counterbore executed. For milling or drilling the with the trigger protection assigned web pin hole concentric countersunk hole the adjacent bridge pin holes must already go through the locking pins must be closed. The holes on the web of the The cylinder housing must therefore be carried out in two steps and the filling of the bridge pin holes with the tumbler pins and closing the web pin holes with the locking pins or with the trigger protection is made accordingly in two steps. As a further consequence, you can at least the web pin holes directly adjacent to the trigger protection not closed by carbide locking pins be, because the simultaneous drilling or milling of different materials, especially different materials with different levels of difficulty.

The object of the invention is a locking cylinder of the aforementioned Provide kind that is easy and inexpensive can be made. This object is achieved in that the Trigger protection head with at least one parallel to the bore axis extending recess is provided with an adjacent Bridge pin bore is essentially aligned.

The at least one recess prevents the trigger protection head across the axis of the hole via the adjacent stud hole protrudes. This web pin bore can thus also be used Trigger protection filled with the tumbler pair and be closed by a locking pin. The manufacturing workflow therefore need versus manufacturing of a locking cylinder without trigger protection changed only slightly be, but not through a stud hole a locking pin, but to be closed by the trigger guard is.

The trigger guard can be used in various web pin holes his. The choice of the web pin hole for inserting the Trigger protection depends on the purpose of the lock, especially according to the thickness of the door into which the lock cylinder is used and according to the thickness of the used on the door Door signs. The deduction protection is expediently so arranged that it is immediately adjacent to the outside door plate is. Accordingly, deduction protection may apply inserted at the end of a row of web pin holes be so that it is only a bridge pin hole for immediate Has neighbors. A recess on the trigger protection head is then sufficient out. In the more common case, the trigger protection is located within the row so that it is diametrically opposite Each side has a pin hole to the neighbor Has. In this case, it is preferred that the trigger protection head with two diametrically opposite recesses is provided with two adjacent bridge pin holes in essential curses. This allows the two neighboring ones Seal the bridge pin holes with locking pins, too if the trigger guard is already in the one pin hole that is assigned to it is inserted.

The trigger protection can be designed as a stepped bolt a circular cylindrical without taking into account the recesses Trigger protection head, the bolt head. The deduction protection can also a cuboid without taking the recesses into account Have trigger protection head. This design of the trigger protection head there are larger contact surfaces of the trigger protection head on the web of the cylinder housing and on one the lock plate assigned to the lock cylinder, which makes a special Safe anchoring of the trigger guard in the web of the cylinder housing and effective protection against pulling off or Tearing out the lock cylinder with the cylinder housing results.

It is particularly preferred that the trigger guard be in a cross groove in the web of the cylinder housing extending to the longitudinal direction of the web engages, the groove width of the transverse dimension of the Trigger protection head in longitudinal direction without consideration which essentially corresponds to the recesses.

A particularly high mechanical stability is achieved in this way. The mutual contact surface of the trigger protection head and Footbridge is enlarged. This results in a lower surface pressure, provided forces between the trigger protection and the Bridge act. Such forces can e.g. B. in an attempt pull the lock cylinder with its cylinder housing occur. For the resistance of the trigger protection against such acting in the direction of the cylinder core axis Forces in this embodiment is also the Cross-section of the trigger protection head decisive, the essential can be larger than the cross section of the trigger protection foot.

With a trigger guard with a circular cylindrical trigger guard head these advantages are also achieved in that the trigger protection head in a countersunk hole coaxial with the one web pin hole engages in the web of the cylinder housing, the diameter the counterbore the diameter of the trigger protection head corresponds essentially without taking the recesses into account.

In these embodiments come with a groove or counterbore the advantages of the recess or the recesses on the trigger protection head with a view to economical production especially to wear. It can all be made at first Bores, especially the counterbore, or the groove in Cylinder housing are attached. When drilling or milling or other design of the counterbore or the groove No locking pins in the adjacent bridge pin holes be used, which is avoided at the same time to process different materials. After all Bores and possibly also the groove attached to the cylinder housing the web pin bores with the tumbler pin pairs filled and with locking pins or with the trigger protection be closed. The manufacture of the locking cylinder can then accordingly with fewer operations take place than in the known locking cylinder of the above Art.

Security against burglary or the like is special beneficial if the other web pin holes through locking pins are closed from hard metal. Such locking pins Made of hard metal also serve as protection against drilling. Such a boring of the cylinder housing in the direction of the cylinder core axis would be the locking function of the locking pin pairs override.

For the highest possible security, it is particularly useful at the same time a counterbore or a groove in the web for the Trigger protection head and locking pins made of hard metal for the to provide other web pin holes. The combination of these Characteristics is only with reasonable manufacturing effort the recess according to the invention or by the inventive Recesses on the trigger protection head possible because a simultaneous Machining hard metal and that is usually clear softer material of the cylinder housing is particularly difficult makes.

It is useful if the locking pins of the one pin hole immediately adjacent bridge pin holes in the engage each adjacent recess of the trigger protection head. The trigger protection is therefore safe in one of the stud holes anchored. The locking pins used can all be the same length. This ensures for all embodiments that that the trigger protection is not in the one pin hole can be rotated.

It is particularly preferred that the trigger protection foot in one Bridge pin hole is pressed. This makes one special inexpensive manufacture of the lock cylinder possible and the Locking pins and trigger protection can be in any order be inserted into the respective web pin holes.

A particularly safe anchoring of the trigger protection in the a web pin hole is achieved in that the trigger protection foot an external thread screwed into a stud hole having. In this case it is preferred that the Male thread is self-tapping, which in turn is economical Manufacture of the lock cylinder is possible. A Such design of the deduction protection is, however the embodiment in which the trigger protection head cuboid is and engages in the groove, not possible.

The trigger protection foot can also be in the one stud pin hole be glued in. To insert the trigger guard in one Bridge pin bore is not a special one with this fastening Tool necessary, whereby an inexpensive manufacture of the Lock cylinder is possible.

It is particularly preferred that the trigger guard be made of hard metal consists. This increases the mechanical stability of the trigger guard increased protection against pulling out the lock cylinder with the cylinder housing is thus improved and the Trigger protection also acts as a drill protection.

Fig. 1

eine seitliche Draufsicht auf einen erfindungsgemäßen Schließzylinder mit Türschild;

Fig. 2

eine seitliche Schnittansicht eines Teils des Zylindergehäuses des erfindungsgemäßen Schließzylinders der Fig. 1 (der Schnitt liegt in der von der von den Bohrungsachsen B' und Z' aufgespannten Ebene);

Fig. 3

eine Unteransicht des Teils des Zylindergehäuses der Fig. 2 mit Blick in Richtung des Pfeils III;

Fig. 3A

eine Unteransicht eines Teils einer anderen Ausführungsform des Zylindergehäuses;

Fig. 3B

der Teil des Zylindergehäuses der Fig. 3A mit eingesetztem Abzugsschutz;

Fig. 4

eine Draufsicht auf eine Ausführungsform des Abzugsschutzes in Form eines Stufenbolzens (Blickrichtung parallel zur Abzugsschutzachse) mit dem Betrachter zugewandten Abzugsschutzfuß;

Fig. 5

eine entlang der Linie V-V geschnittene Schnittansicht des Abzugsschutzes der Fig. 4;

Fig. 6

eine Draufsicht auf eine andere Ausführungsform des Abzugsschutzes in Form eines Stufenbolzens (Blickrichtung parallel zur Abzugsschutzachse) mit dem Betrachter zugewandten Abzugsschutzfuß;

Fig. 7

eine entlang der Linie VII-VII geschnittene Schnittansicht des Abzugsschutzes der Fig. 6;

Fig. 8

eine Draufsicht auf eine andere Ausführungsform des Abzugsschutzes mit quaderförmigem Abzugsschutzkopf (Blickrichtung parallel zur Abzugsschutzachse) mit dem Betrachter zugewandten Abzugsschutzfuß;

Fig. 9

eine entlang der Linie IX-IX geschnittene Schnittansicht des Abzugsschutzes der Fig. 8,

Fig. 10

eine entlang der Zylinderkernachse Z parallel zu der Bohrungsachse B' geschnittene Schnittansicht des Schließzylinders der Fig. 1 mit Türschild;

Fig. 10A

ein Abschnitt des Steges des Schließzylinders der Fig. 10 mit einem anderen Abzugsschutz und anderem Türschild in der gleichen Darstellung wie in Fig. 10;

Fig. 11

einen Schnitt durch das Zylindergehäuse des Schließzylinders der Fig. 10 entlang der Linie XI-XI mit eingesetztem Abzugsschutz, aber ohne Zuhaltestifte, Feder und Zylinderkern (der Abzugsschutz selbst ist nicht geschnitten) mit Türschild;

Fig. 11A

einen Schnitt durch das Zylindergehäuse des Schließzylinders der Fig. 3B entlang der Linie XIA-XIA in einer Darstellung entsprechend Fig. 11 mit eingesetztem Abzugsschutz der Ausführungsform der Fig. 8 und 9 (der Abzugsschutz selbst ist nicht geschnitten).

The invention is explained below with reference to the accompanying drawings. Show it:

Fig. 1

a side plan view of a lock cylinder according to the invention with a door plate;

Fig. 2

a sectional side view of a portion of the cylinder housing of the lock cylinder according to the invention of Figure 1 (the section lies in the plane spanned by the bore axes B 'and Z');

Fig. 3

a bottom view of the part of the cylinder housing of Figure 2 looking in the direction of arrow III.

Figure 3A

a bottom view of part of another embodiment of the cylinder housing;

Figure 3B

the part of the cylinder housing of Figure 3A with trigger protection inserted;

Fig. 4

a plan view of an embodiment of the trigger protection in the form of a stepped bolt (viewing direction parallel to the trigger protection axis) with the trigger protection foot facing the viewer;

Fig. 5

a sectional view taken along the line VV of the trigger guard of Fig. 4;

Fig. 6

a plan view of another embodiment of the trigger protection in the form of a stepped bolt (viewing direction parallel to the trigger protection axis) with the trigger protection foot facing the viewer;

Fig. 7

a sectional view taken along the line VII-VII of the trigger guard of Fig. 6;

Fig. 8

a plan view of another embodiment of the trigger protection with cuboidal trigger protection head (viewing direction parallel to the trigger protection axis) with the trigger protection foot facing the viewer;

Fig. 9

8 shows a sectional view of the trigger guard of FIG. 8, cut along the line IX-IX,

Fig. 10

a sectional view along the cylinder core axis Z parallel to the bore axis B 'of the lock cylinder of Figure 1 with a door plate.

Figure 10A

a portion of the web of the lock cylinder of Figure 10 with a different trigger protection and a different door plate in the same representation as in Fig. 10.

Fig. 11

a section through the cylinder housing of the lock cylinder of Figure 10 along the line XI-XI with inserted trigger protection, but without locking pins, spring and cylinder core (the trigger protection itself is not cut) with a door plate.

Figure 11A

a section through the cylinder housing of the lock cylinder of FIG. 3B along the line XIA-XIA in a representation corresponding to FIG. 11 with inserted trigger guard of the embodiment of FIGS. 8 and 9 (the trigger guard itself is not cut).

A locking cylinder 10 according to the invention with a cylinder core 12 and a cylinder housing 14 is shown in FIG. 1. The cylinder housing has a web with web pin bores 18. These web pin bores 18 are in a section through Part of the cylinder housing 14 shown in FIG. 2 can be seen clearly and extend from the end of the web facing away from the cylinder core up to the cylinder core bore 20 in the cylinder housing 14. The bore axes the web pin bores 18 and the cylinder core bore 20 are oriented perpendicular to each other.

The cylinder core 12 is rotatable in the cylinder core bore 20 mounted and has a lock bit 22, over which the cylinder core especially with a bolt of a door lock (not shown). On web 16 of the cylinder housing 14. is a trigger protection in the form of a stepped bolt 24 attached, which prevents by a stop on a door plate 26, that the lock cylinder 10 with its cylinder housing 14 withdrawn from the lock surrounding the lock cylinder or can be torn out. The door plate 26 is in Fig. 1 as Sectional view indicated by dashed lines.

The trigger guard 24 has a trigger guard head 24a, the bolt head, and a trigger protection foot 24b, the bolt foot. The Trigger protection 24 is with its trigger protection foot 24b in one him assigned web pin bore 18 inserted. This web pin hole 18 has on both sides in the direction of the cylinder core axis each a further web pin bore 18 for immediate Neighbours. To accommodate part of the trigger protection head 24a is concentric to the web pin bore receiving the trigger protection 24 18 a counterbore 28 on the web 16 of the cylinder housing 14 attached, which is also particularly good in FIG. 3 is recognizable, which is a view of the web pin bores 18 and the counterbore 28 shows in the direction of the bore axes. The when in its associated web pin bore 18 and the counterbore 28 trigger protection 24 used from the material of the web 16 covered area, i.e. the trigger protection foot 24b and an am Trigger protection foot 24b adjacent section of the trigger protection head 24, is indicated by dashed lines in FIG. 1. The trigger protection head 24a is therefore only partially above the web 16, in the shown embodiment, but it is the larger part of the trigger protection head 24a, which protrudes over the web 16. Like in 4 and 5 described in more detail, has the trigger protection head 24a has recesses 30 and without consideration the recesses, a circular cylindrical shape. The other web pin holes 18, which are not protected by the trigger 24 are closed, are by locking pins 40th (see Fig. 10, 10A) closed.

The web 16 of the cylinder housing 14 is in the in the figures The embodiment shown on one side of the lock bit 22 provided with five equidistant web pin holes 18, which in Direction of the cylinder core axis Z arranged one behind the other are. Also the part of the cylinder housing not shown in FIG. 2 14 is provided on the web 16 with five web pin bores 18, the web pin bores 18 of the two parts of the cylinder housing 14 with respect to the lock bit 22 symmetrical to each other are. The other part of the cylinder housing, however, needs have no counterbore 28.

In the embodiment shown in Figures 1, 10 and 10A is the protection against deduction when counting from left to right fourth web pin bore 18 inserted. Depending on the thickness of the door, into which the locking cylinder is inserted, and depending on the thickness of the door plate used on the door side of the trigger guard 24 26 are also other embodiments of the lock cylinder useful where the deduction protection is in another Bridge pin bore 18 is inserted, which then with a counterbore is provided. A particularly high level of security to achieve tampering with the locking cylinder, it is preferred that the trigger protection is directly adjacent the door plate 26 is arranged, as in FIGS. 1 and 10 shown. On one side, this is preferably the outside the door, the trigger guard is supported with minimal Play on door plate 26. On the other hand, can the trigger protection 24 z. B. support at the castle; in general is protection against pulling off the lock cylinder only in Needs reference to one side of the door.

2 and 3 make it clear that the counterbore 28, whose diameter 2R corresponds essentially to the diameter 2R _{1 of} the trigger protection head 24a, has a radius R which is greater than the distance from the bore axis B 'to the immediately adjacent edges of the two immediately adjacent bridge pin bores 18 (ie larger than the wheel base a minus the radius r of the adjacent bridge pin bore 18). The countersunk bore 28 thus intersects the two immediately adjacent web pin bores 18. If one disregards this, the inner circumferential surface of the countersunk bore 28 is circular-cylindrical.

According to another embodiment, a groove 228 is provided on the web 216 of the cylinder housing 214 instead of a counterbore. This groove 228 is centered on the web pin bore 218 receiving the trigger protection and extends transversely to the longitudinal web direction or to the cylinder core axis Z. In the embodiment shown in FIG. 3A, the groove 228 cuts an end region of the web 216 rounded transversely to the longitudinal web direction (cf. FIG. 11A). In such a cylinder housing 214 with groove 228, both a trigger guard 24 in the form of a stepped bolt can be provided or a trigger guard 224 with a cuboid trigger guard head 224a, as shown in FIG. 3B. Here, the trigger guard 224 with a cuboid trigger guard head 224a is drawn in solid lines, while the alternative trigger guard 24 is indicated in dashed lines in the form of a stepped bolt. For both embodiments of the trigger protection, the transverse dimension D ₁ or 2R _{1 of} the trigger protection head in the longitudinal direction of the web corresponds essentially to the groove width D in this direction without taking into account the recesses.

3A and 3B is with respect to it Features that match the features of the cylinder housing of FIG. 3 correspond or have a similar function with the same Reference numbers, however, each increased by the number 200. In describing this embodiment, only the Differences from the other embodiment mentioned and it is otherwise expressly referred to the preceding description referred to the first embodiment. In this context it should be noted that the cylinder housing the embodiment of FIGS. 3A and 3B more bridge pin holes has as the cylinder housing of the embodiment of FIG Fig. 3.

The trigger guard 24 in the form of a stepped bolt is shown in more detail in FIGS. 4 and 5. Its trigger protection foot 24b has a circular cylindrical shape, the diameter 2r _{1 of} the trigger protection foot 24b being dimensioned such that it is securely fastened by being pressed into the associated web pin bore 18. However, it is also conceivable that the diameter 2r _{1 of} the trigger protection foot 24b is dimensioned such that it is glued into the associated web pin bore 18. The trigger protection head 24a deviates from a circular cylindrical shape by two diametrically opposite recesses 30. In the event that the trigger protection 24 is inserted into a web pin bore 18 which has only a single web pin bore 18 to the immediate neighbor, the trigger protection head 24a need only have one recess 30.

The recesses 30 extend parallel to the trigger protection axis B over the entire length of the trigger protection head 24a. The trigger protection axis B coincides with the trigger protection 24 used in the web 16 with the bore axis B 'of the associated web pin bore 18. The clearly visible contour lines of the recesses 30 in FIG. 4 each lie on a circle with the radius R ₂ ; The trigger protection head 24a is therefore delimited in the area of the two recesses 30 by a circular cylindrical surface section. The centers of the two circles describing the recesses 30 are 2R ₂ + 2R ₃ apart; 2R ₃ is thus the diameter of the bolt head 24a to a certain extent, taking into account the recesses 30.

The radii R ₂ and R ₃ are dimensioned such that the trigger protection head 24a does not collide with locking pins 40 (see FIGS. 8, 8A) inserted into the two immediately adjacent web pin bores 18. In the borderline case, which must not be exceeded, the circles describing the recesses 30 are concentric with the directly adjacent web pin bore 18 (the following then applies: R ₃ = ar, R ₂ = r). The diameter 2R ₁ (without taking into account the recesses 30) of the trigger protection head 24a is significantly larger than the diameter 2r ₁ trigger protection foot 24b.

At the transition between trigger protection foot 24b and trigger protection head 24a is a flat circular ring surface 25 on the trigger protection head 24a (without taking into account the recesses 30), with the trigger protection head 24a in the embodiment of the 1 on a plan, the recess 28th limiting in the direction of the bore axis B 'and also annular surface 29 (without taking into account the two immediately adjacent bridge pin bores 18) (cf. see Fig. 3 and Fig. 10). To accommodate transverse to the trigger protection axis The trigger protection head can act as a force 24a double support on the cylinder housing 14, if the circular cylindrical surface section of the trigger protection head on the circular cylindrical inner peripheral surface portion of the Counterbore 28 bears. It is preferred to measure the dimensions of the Trigger protection head 24a and the counterbore 28 to dimension such that this is the case. The trigger protection head can be used for this 24a be pressed into the counterbore 28.

It is also possible that the trigger guard 24 is not abrupt Transition between trigger protection foot 24b and trigger protection head 24a, as in the embodiment of FIGS. 4 and 5, but a rounded or beveled transition area between the trigger protection head and trigger protection foot. In in this case a complementary transition area between the counterbore 28 and the bridge pin hole concentric therewith 18 may be provided. Regardless of whether the deduction protection 24 such a transition area between trigger protection head 24a and trigger protection foot 24b, such Transition area in the cylinder housing 14 between the Countersunk bore 28 and the web pin bore 18 concentric therewith be provided to avoid a sharp edge.

According to another embodiment shown in FIGS. 6 and 7 is the trigger protection in its assigned web pin hole 18 screwed in. For this purpose, the trigger guard 124 has this embodiment an external thread on its trigger protection foot 124b 132 on. It is preferably a self-tapping one External thread 132. While in the embodiment of FIG. 4 and 5 the locking pins 40 and the trigger guard 24 in the assigned holes used in any order 6 and 7 in the embodiment of FIGS first the trigger guard 124 with its trigger guard foot 124b in its associated web pin bore 18 are screwed in, before locking pins 40 into the two immediately adjacent Bridge pin holes 18 may be used. After locking pins 40 in the two immediately adjacent bridge pin holes 18 are used, the trigger guard 124 can no longer be rotated (cf. FIGS. 10, 10A).

The trigger protection of FIGS. 6 and 7 is in terms of its features, the features of the trigger protection of FIGS. 1, 4 and 5 correspond, with the same reference numerals, but increased in each case by the number 100. When describing the deduction protection 6 and 7 are only the differences between the two embodiments mentioned and it will be otherwise expressly to the previous description of the first Embodiment referred and also to the following description referred back to deduction protection without thread.

8 and 9 show a trigger guard 224 with a cuboid trigger guard head 224a. Its trigger protection foot 224b in turn has the shape of a circular cylinder, the diameter d _{1 of} the trigger protection foot 224b being dimensioned such that it is securely fastened by being pressed into the associated web pin bore 218 of the cylinder housing 214 of the embodiment in FIGS. 3A and 3B. The trigger protection head 224a is provided with two diametrically opposite recesses 230. The recesses 230 extend over the entire length of the trigger protection head 224a parallel to the trigger protection axis B.

The above statements with regard to the dimensions of the trigger protection head 24a or the recesses 30 in connection with the trigger protection of FIGS. 4 and 5 also apply essentially to the trigger protection of FIGS. 8 and 9. The transverse dimensions of the bolt head 224a D ₁ and D ₃ in the longitudinal direction of the web correspond in this respect to the diameters 2R ₁ and 2R _{3 of} the bolt head 24a. At the transition between trigger protection foot 224b and trigger protection head 224a, a flat surface 225 is again formed, which is rectangular without taking into account the recesses 230 and the bolt foot 224b. With this surface 225, the trigger protection head 224a is seated on a planar surface 229 which also delimits the groove 228 in the direction of the bore axis B ′ and is also essentially rectangular. For the absorption of forces acting transversely to the trigger protection axis B, the trigger protection head 224a, like the trigger protection of FIGS. 4 and 5, can be supported twice on the cylinder housing 214, provided that the surface sections of the trigger protection head on which the recesses 230 are provided, on the the surface sections delimiting the groove 228 bear against the web 216 of the cylinder housing 214. The deduction protection of FIGS. 8 and 9 is provided with the same reference numerals with respect to its features which correspond to the features of the deduction protection of FIGS. 4 and 5, but in each case increased by the number 200. 8 and 9, only the differences between the two embodiments are mentioned and reference is expressly made to the description of the first embodiment.

The section shown in Fig. 10 of the lock cylinder according to the invention 10 in the installed state with door plate 26, but without Lock and without door, shows more details of the lock cylinder. It is the same locking cylinder 10, as shown in FIG. 1, with that shown in FIGS. 2 and 3 Cylinder housing 14 and the trigger guard 24 of FIGS. 4 and 5. In the web pin bores 18 and assigned in these, with the removed Key the web pin bores 18 in the cylinder core 12 continuing cylinder core pin bores 19 are tumbler pin pairs each of a pin 34 on the cylinder housing side, hereinafter referred to as lower pin 34, and a cylinder core side Stift 36, hereinafter referred to as Oberstift 36, arranged. The lower pins 34 and the upper pins 36 in the individual web pin or Cylinder core pin bores 19 each have different ones Lengths up. In the embodiment shown, the lower pins have 34 slightly different shapes; but it is also possible that all lower pins 34 have the same shape and differ only in length.

The tumbler pin pairs 34, 36 are in coil springs 38 in Biased towards the cylinder core 12. The coil springs 38 are supported on the locking pins 40 or on the trigger protection 24 from. The locking pins 40 are used for locking the respectively assigned web pin bore 18. The trigger protection 24 associated pin pin bore 18 is by the trigger protection 24 closed. It is preferred that the locking pins 40 are pressed into the respective web pin bore 18, the locking pins 40 substantially with the web 16th swear.

It is also preferred that the locking pins 40 and Trigger protection 24 made of hard metal, z. B. made of hardened steel, consist of good stability and security against boring to obtain.

Align the lengths of the lower pins 34 and the upper pins 36 after the perforation of the lock cylinder 10 assigned Key. With the key removed, the lower pins 34 into the cylinder core pin holes, which causes the cylinder core 12 is locked against rotation in the cylinder housing 14. If the correct key is inserted into the cylinder so the tumbler pin pairs 34, 36 as far from the cylinder core 12 pushed away that the dividing line between sub-pins 34 and Upper pins 36 with the dividing line between the cylinder core 12 and Cylinder housing 14 matches. The cylinder core 12 can then are rotated, whereby the lock actuates the lock 22 becomes.

10 and 11 make it clear that the trigger guard 24 not only through its trigger protection foot 24b in its assigned Bridge pin bore 18 is anchored, but that the Trigger protection 24 also with its trigger protection head 24a on the web 16 supports, as already described in more detail above. To record of forces acting transversely to the trigger guard 24 is accordingly the cross section of the trigger protection head 24a is effective, which is much larger than the cross section of the trigger protection foot 24b. 10, these locking pins 40 engage into the respective recess 30 and thus effectively prevent that the trigger guard 24 is rotated about its trigger guard axis B. can be. This is special for the embodiment with screwed trigger protection (see Fig. 6 and 7) of importance. In the embodiment shown in Fig. 10, the Recesses 30 on the trigger protection head 24a not exactly with the each directly adjacent web pin holes 18. Accordingly there is a space between the respective immediately adjacent locking pin 40 and the boundary surface of the respective recess 30.

According to another embodiment, shown in FIG. 10A, the trigger protection is also supported on the two immediately adjacent locking pins 40. For this purpose, the trigger guard 324 of this embodiment has slightly different proportions. The trigger protection foot 324b has the same dimensions as the trigger protection foot 24b in FIG. 10. The axial length of the trigger protection head 324a in FIG. 10A corresponds to the length of the trigger protection head 24a in FIG. 10. The diameter 2R ₁ without taking into account the recesses in the trigger protection head 324a of FIG. 10A is, however, larger than in the trigger protection head 24a of FIG. 10. The recesses 330 are attached to the trigger protection head 324a in such a way that they are aligned with the immediately adjacent web pin bore 18, the two circles describing the recesses 30 being concentric with the one are each directly adjacent web pin bore 18 (R ₃ = ar, R ₂ = r). The two immediately adjacent locking pins 40 therefore bear against the boundary surface of the respective recess 330 and can accordingly absorb forces acting transversely to the trigger guard 324. As a result of this and also because the cross-sectional area of the trigger protection head 324a is enlarged, the trigger protection 324 is anchored particularly securely in its associated web pin bore 18 and can also withstand large forces acting transversely to the trigger protection 324 during a trigger attempt.

10a is only the trigger guard 324 and the door plate 326 provided with different reference numerals from FIG. 10. The Door plate 326 has a slightly different thickness than the door plate 26 of Fig. 10. Otherwise, the locking cylinder 10 and 10a are identical and accordingly apply above statements with respect to the embodiment of the Fig. 10 also for the embodiment of Fig. 10a.

The above statements also apply in principle to the trigger protection of FIGS. 8 and 9, although the diameters 2R ₁ and 2R _{3 can be identified} with the transverse dimensions D ₁ and D _{3 of} the bolt head 224 a. FIG. 11A shows a view, corresponding essentially to FIG. 11, of a trigger guard 224 with a rectangular trigger head 224a inserted in the cylinder housing 214. As can be seen, the transverse dimension of the bolt head 224a transverse to the longitudinal direction of the web essentially corresponds to the transverse dimension of the web 216 in this direction. Overall, the abutting surfaces between the bolt head 224a and the web 216 of the cylinder housing 214 are considerably larger than in the embodiment of the locking cylinder, which uses a trigger protection in the form of a stepped bolt 24.

The invention was explained using a locking cylinder, where a serrated key is vertical (the serration of the sub-pins facing) is introduced into the cylinder core. Accordingly is a series of in the direction of the cylinder core axis Bridge pin holes arranged one behind the other in the bridge of the cylinder housing provided.

The invention also relates to locking cylinders, however which several rows of possibly offset against each other Web pin holes are provided in the web of the cylinder housing are. Several rows of web pin holes are z. B. at Lock cylinders are used in which the key, a so-called Reversible key, with recesses and the horizontal in the cylinder core is introduced.

In such a lock with several rows of web pin holes The trigger protection can also have more than two recesses have to achieve the object of the invention and the described To achieve advantages. It is understood that the Shape of the recesses also in connection with the 4 to 9 described, preferred shape may vary.

In addition to the features described in the description, the Lock cylinder have other features. For example can cylinder core protection steel pins and parallel to the tumbler pins attached cylinder housing protection steel pins be provided for even greater protection against drilling.

In summary, the invention relates to a locking cylinder with trigger protection, which may be designed as a stepped bolt Web of the cylinder housing, arranged pointing away from the cylinder core is. The trigger guard is with its trigger guard foot inserted in a stud hole and has on its trigger protection head at least one recess with an adjacent Bridge pin bore is essentially aligned.

Claims (13)

1. A lock cylinder having a cylinder housing (14; 214), a cylinder plug (12) rotatable in the cylinder housing (14; 214) and at least two pin tumbler pairs (34, 36) arranged next to each other, the pins (36) on the cylinder plug side being mounted movably in the cylinder plug (12) and the pins (34) on the cylinder housing side being mounted movably in a web (16; 216) of the cylinder housing (14; 214) in web pin bores (18; 218), a withdrawal prevention means (24; 124; 224; 324), optionally constructed as a stepped stud, being provided, which has a withdrawal prevention foot (24b; 124b; 224b; 324b) inserted into one of the web pin bores (18; 218) and a withdrawal prevention head (24a; 124a; 224a; 324a) projecting beyond the web (16; 216) in the direction of the bore axis (B') and beyond the bore edge perpendicularly to the bore axis (B') of said web pin bore (18; 218), characterised in that the withdrawal prevention head (24a; 124a; 224a; 324a) is provided with at least one recess (30; 130; 230; 330) extending parallel to the bore axis, which recess is substantially in alignment with an adjacent web pin bore (18).
2. A lock cylinder according to claim 1, characterised in that the withdrawal prevention head (24a; 124a; 224a; 324a) is provided with two diametrically opposed recesses (30; 130; 230; 330), which are substantially aligned with two adjacent web pin bores (18; 218).
3. A lock cylinder according to claim 1 or claim 2, characterised in that the withdrawal prevention means takes the form of a stepped stud (24; 124; 324) having a stud head (24a; 124a; 324a) which, disregarding the recesses (30; 130; 330), is circular-cylindrical.
4. A lock cylinder according to claim 1 or claim 2, characterised in that the withdrawal prevention means (224) comprises a withdrawal prevention head (224a) which, disregarding the recesses (230), is cuboid in shape.
5. A lock cylinder according to any one of the preceding claims, characterised in that the withdrawal prevention means (24; 124; 224; 324) engages in a groove (228), extending perpendicularly to the longitudinal direction of the web, in the web (216) of the cylinder housing (214), wherein the groove width (D) substantially corresponds to the transverse dimension of the withdrawal prevention head (24a; 124a; 224a; 324a) in the longitudinal direction of the web (2R₁; D₁), disregarding the recesses (30; 130; 230; 330).
6. A lock cylinder according to claim 3, characterised in that the withdrawal prevention head (24a; 124a; 324a) engages in a countersunk bore (28), coaxial with the one web pin bore (18), in the web (16) of the cylinder housing (14), wherein the diameter (2R) of the countersunk bore (28) corresponds substantially to the diameter (2R₁) of the withdrawal prevention head (24a; 124a; 324a), disregarding the recesses (30; 130; 330).
7. A lock cylinder according to any one of the preceding claims, characterised in that the other web pin bores (18; 218) are closed with closing pins (40) of hard metal.
8. A lock cylinder according to claim 7, characterised in that the closing pins (40) of the web pin bores (18; 218) directly adjacent the one web pin bore (18; 218) engage in the respective adjacent recess (30; 130; 230; 330) in the withdrawal prevention head (24a; 124a; 224a; 324a).
9. A lock cylinder according to any one of the preceding claims, characterised in that the withdrawal prevention foot (24b; 224b; 324b) is pressed into place in the one web pin bore (18; 218).
10. A lock cylinder according to any one of claims 1 to 3, 5 to 8, characterised in that the withdrawal prevention foot (124b) comprises an external thread (132) screwed into the one web pin bore (18).
11. A lock cylinder according to claim 10, characterised in that the external thread (132) is self-cutting.
12. A lock cylinder according to any one of claims 1 to 11, characterised in that the withdrawal prevention foot (24b) is adhered into the one web pin bore (18).
13. A lock cylinder according to any one of the preceding claims, characterised in that the withdrawal prevention means (24; 124; 224; 324) consists of hard metal.

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