DE1553311C - Device for changing the tumbler permutation in a rotary cylinder lock - Google Patents

Description

The invention relates to a device for changing the tumbler permutation in a rotary cylinder lock with axially displaceable core pins arranged in a ring in the cylinder core, with the associated housing pins in a non-rotatable, axially pierced cylinder housing cooperate ring-shaped front and rear face.

Such a device is known in which the change in the tumbler permutation of the Back of the rotary cylinder lock is made. The rear cover panel is thereby of the lock together with the Quarter-Turn after loosening the central fastening nut from Cylinder core removed, whereby the bores of the cylinder housing receiving the housing pins are freely accessible. Since these holes in the open and closed position with the Aligning the core pins with the bores of the rotatable cylinder core is both a replacement the housing and core pins and thereby a change in the tumbler permutation of the Lock through the exposed holes. However, this design of the castle has the disadvantage that the tumbler pins can only be changed from the back of the lock can, so that a lock that is only accessible from the front must first be opened. In addition, a wrench is required to dismantle the rotary lock and the rear cover plate required to loosen the fastening nut.

The object of the invention is based on the object of a device for changing the tumbler permutation to create in a rotary cylinder lock of the type mentioned, which can be done with minimal expenditure of time and with the simplest possible Any tool available anywhere allows you to change the lock's tumbler permutation. The lock should be able to remain installed, and the tumbler pins should be exchanged even when the lock is closed. Door from the front. The castle is supposed to be compared with known ones Locks do not have reduced security against unauthorized opening.

This object is achieved according to the invention in that the cylinder core rotatable in the cylinder housing is provided with an enlarged diameter head part, the rear end face of which is rotatable slidably rests against the front end face of the cylinder housing so that the core pins arranged in the cylinder core protrude forward from the head part and 'can move freely in the longitudinal direction of the head part, that an axially detachable, Cap located in front of the cylinder housing and covering the head part of the cylinder core and one which acts between the cylinder housing and the cap and consists of mutually engaging sections of these Parts existing and their relative rotation preventing fixed locking device provided is that a Rclativ rotation between cap and head part permitting locking device is provided, which in the open and closed position of the cylinder core, the removal of the cap prevents, but allows a decrease when the cylinder core is beyond its closed position in a release position is rotated, and that one between the cylinder core and the Zyündergehüuse arranged locking device is provided, which unlocked with the help of a pen-shaped tool in their Position can be brought and a movement of the cylinder core into the release position and removal the cap. *

The device designed in this way not only has the advantage that when changing the tumbler permutation no special tool is required - the pen-shaped tool can also ίο through a stiff wire or a long nail, be replaced - but it also allows this change to be made in the closed position of the lock, without the locking effect of the lock being interrupted.

The invention is described below with reference to the drawings in two exemplary embodiments. It shows

F i g. 1 shows the diagrammatic front view of the rotary cylinder lock according to the invention with its Socket wrench in open position,

F i g. 2 'the diagrammatic rear view of the unlocked rotary cylinder lock,

F i g. 3 the exploded view of the locked rotary cylinder lock,
F i g. 4 shows the section along line 4-4 of FIG. 1,
F i g. 5 shows the section along line 5-5 of FIG. 4,
F i g. 6 shows the section along line 6-6 of FIG. 5,
F i g. 7 is the exploded view of the rotary cylinder lock showing the manner in which a change in tumbler permutation is effected;

Frg. 8 the section of the rotary cylinder lock similar to FIG. 6 in closed position,

F i g. 9 shows the partially sectioned side view of the rear part of the FIG. 8 rotary cylinder lock shown,

F i g. 10 that of Fi g. 6 similar section in which

the lock parts are in the open position, FIG. 11 shows the section along line 11-11 of FIG. 10, FIG. 12 shows the section along line 12-12 in FIG. 6, FIG. 13 shows the section similar to FIG. 12

approved locking approach,

14 shows the perspective view of the locking disk,

15 shows the section similar to FIG. 9 with a modified locking disk,

16 is the exploded perspective view View of the locking disk of FIGS. 15 and

F i g. 17 shows the section along line 17-17 of FIG. 15. The rotary cylinder lock provided with a socket wrench 12 10 (F i g. 1 to 3) has axially and in a ring-shaped arrangement of tumbler pin pairs which are shown in FIG Axial direction of the rotary cylinder lock are displaceable. A socket wrench 12 receiving Cap 80, which is provided with hook-shaped projections 86 at diametrically opposite points, is inside a cup-shaped protective ring clamped against the front of a cabinet door 30 held releasably. An edge flange 16 of the cylinder housing 14 has cutouts 122 which Pick up hook-shaped lugs 86 and hold the cap 80 against rotation. The rotary cylinder lock 10 has a rotatable cylinder core 42 with an enlarged diameter rotatable head portion 70, the has a circular rim 88 with cutouts 120 facing one another. The edge 88 slides behind the hooks of the lugs 86 and prevents the cap 80 from being pulled off the protective ring 30.

soon the cutouts 120 are aligned with the lugs 86, the cap 80 can be pulled forward from the lock. The cap 80 covers the front ends of a row of core pins 66 arranged in a ring. As soon as the cap 80 has been removed, these core pins 66 are accessible and their permutation can be changed. - '

The core pins 66 rotate with the cylinder core 42, which can usually be rotated by means of the plug-in connector 12 through an angle of 90 ° between the closed position and the open position. In these two positions, the cutouts 120 are not aligned with the projections 86, so that the cap 80 is locked against being pulled off. By releasing a locking device by means of a pin-shaped tool 130 , the cylinder core 42 can be rotated through an additional angle of 22 ¹ Iz ⁰ in order to bring the cutouts 120 and lugs 86 into alignment for the release of the caps. The tool 130 is pushed in via a bore 131 in the cap 80 and via a bore 133 in the stationary cylinder housing 14 and interacts with a spring-loaded locking disc 135 which carries a locking shoulder 137 which moves between the closed position and the open position of the cylinder core 42 slides in a recess 139 of the rear end face of the cylinder housing 14 comprising a 90 ° sector, but which can be pushed backwards by means of the tool 130 , being raised over a stop shoulder 141 of the recess 139 and into a less deep, 22V2 ° -Sector encompassing recess 143 of the cylinder housing end face. This will bring cutouts 120 and tabs 86 into alignment.

The cylinder housing 14 has a rearwardly extending shaft 18 with an external thread 20 which is interrupted by surfaces 22 and 24 (FIGS. 2 and 6). The rotary cylinder lock 10 (FIG. 1) is attached to the door 26 by means of a nut 28 which cooperates with the protective ring 30 and clamps the door between the nut and the protective ring. The cylinder housing 14 penetrates a bore 32 present in the door 26 (FIG. 5).

The cylinder core 42 is rotatable in a longitudinal bore 40 (FIG. 5) of the cylinder housing 14. The rear end of the cylinder core 42 protrudes from the cylinder housing 14 and has an external thread 44. Areas 46 (FIG. 2) provided on the rear end of the cylinder core 42 interact with a rectangular opening 48 in a rotary bolt 50 and prevent rotation of the rotary bolt 50 relative to the cylinder core. A nut 52 clamps the twist lock 50 . The rotary latch 50 cooperates with a locking shoulder 54 (FIG. 5) to keep the door closed.

Several bores 60 present in the cylinder housing 14 receive the usual housing pins 64. The core pins 66 slide in bores 68 which are located in the head part 70 present at the front end of the cylinder core 42. The number of core pins 66 corresponds to the number of Gehäusestiftc 64 in the cylinder housing 14. The core pins 66 are aligned with the housing pins 64 in the bores 60 located pin springs 62 press the housing pins 64 and core pins 66 associated to the front. The front ends of the core pins 66 cooperate with shoulders 74 present on the socket wrench 12. The cylinder core 42 can only be rotated if the tumbler pin pairs are set in such a way that the separating points between the core pins 66 and the housing pins 64 are all in the same plane.

A guide dome 71 present at the front end of the cylinder core 42 acts with an insertion bore present in the shaft of the socket wrench 12

ίο 73 together to align the key on the cylinder core 42. A groove 75 present in the guide mandrel 71 interacts with a wedge 77 present in the socket wrench 12 , so that when the key is turned, the cylinder core is also rotated. The cylinder core 42 can by means of the key over an angle of 90 ° between the in F i g. 3 opening position shown in dash-dotted lines and the closed position shown in full lines are rotated. The cylinder kera 42 can, however, also move at a smaller angle into the position shown in FIG. 3, the release position shown in dashed lines can be rotated if the cap is to be released by the locking device in order to release the cap 80 and to be able to remove and expose the core pins 66.

The cap 80 accommodating the socket wrench has an inwardly facing edge 81. The protective ring 30 has an annular wall 82 which protrudes from it and has a flat recess 84 for the cap 80. The lugs 86 of the cap 80 slide behind the provided with cutouts 120 edge 88 of the head 70 and prevent withdrawal of the cap 80. If the permutation of the Zuhaltungsstiftpaare be corrected, the cylinder core 42 over an angle of 22V2 ⁰ on its closing position in the already described way rotated out so that the lugs 86 are aligned with the cutouts 120 and as a result pulling off the cap 80 is possible. The inwardly facing edge 81 of the cap 80 has a central bore 92 which is aligned with the guide pin 71 and into which the socket wrench 12 can be inserted in order to operate the rotary cylinder lock. Cutouts 94 and 95 present in edge 81 cooperate with a wedge 96 present on socket wrench 12 so that the socket wrench can be inserted into the central bore 92 in cap 80 and pulled out of the cylinder lock located either in the open position or in the closed position.

To determine the three limit positions that the cylinder core 42 can assume, the locking disk 135 works together with the recesses 139 and 143 present on the rear end of the cylinder housing 14 . The locking disk 135 (FIGS. 12, 13 and 14) consists of a support ring 151 and a thin, flexible ring 157. The support ring 151 has a bevel 153 which creates a gap 155 which enables the ring 157 to be bent by means of a rivet 159 is riveted to the support ring 151 and has a ring section located above the intermediate space 155. The locking lug 137 protrudes forward. Under this approach, 137 is a coil spring 163 which is mounted in a EinstecköfTnung 164 of the support ring 151st

The spring-loaded locking disc 135 is on the

rear end of the cylinder core 42 pushed so that the locking lug 137 the rear end of the

Cylinder housing 14 faces. The locking projection 137 thus usually slides in the recess 139. The movement of the locking projection 137 is limited by the stop shoulder 141 and by a stop shoulder 165 (FIGS. 2 and 6) present on the rear end of the cylinder housing 14. If the locking projection 137 rests against the stop shoulder 167 (FIG. 6), then the rotary cylinder lock is unlocked. If the locking projection 137 rests against the stop shoulder 141, the rotary cylinder lock is locked. The locking projection 137 is then aligned with the bore 133 (FIGS. 3 and 8), so that when the pin-shaped tool 130 is inserted into the bore 131 and the bore 133 in the cap 80, it is raised and slides over the stop shoulder 141, so that the cylinder core 42 can be rotated by the additional angle of 22V2 ^{0 of} the recess 143. The movement of the locking collar 137 located on this depression 143 is limited by the stop shoulder 167 (FIGS. 2 and 10). If the locking projection 137 rests against the stop shoulder 167, the rotary bolt 50 assumes the position shown in FIG. 3 in dashed lines. The door remains locked, but the cutouts 120 and tabs 86 expose the cap 80 so that it can be peeled off, the core pins 66 exposed and removed. After completion of the desired tumbler permutation change, another socket wrench 12 A (FIG. 7) is required to operate the rotary cylinder lock, which has shoulders 74 A , which are designed according to the new tumbler permutation.

After the tumbler permutation has been changed, the cap 80 is reinserted into the protective ring 30 and the lugs 86 are pushed into the cutouts 122. Then the other socket wrench 12 A is inserted and turned counterclockwise so that the locking lug 137 slides out of the recess 143 (Figs. 3 and 10) and enters the recess 139, the edge 88 behind the hooks of the lugs 86 slides. The rotary cylinder lock can then be operated again in the usual way.

Fig. 16 shows a modified locking disc 335 which is inserted into a rotary cylinder lock 210 (Figs. 15 and 17) is installed, which is of the same design as the rotary cylinder lock 10 of FIG. 1 to 3 is. To avoid of repetitions of the description are, for example, the parts corresponding to FIG. 9 15 with the same reference numerals, but with a higher number of digits.

The locking disk 335 is in the form of a support ring 351 which is pushed over the cylinder core 242 and the front surface of which has an insertion opening 364 which is a seat for a coil spring 363 forms. The coil spring 363 presses the locking lug 337 against the rear end of the cylinder housing 214. If the cylinder core 242 is in its closed position, then the locking projection 337 is in alignment with a bore ″ 333 present in the cylinder housing 214, so that a pin-shaped tool 130 (Fig. 7) can be pushed into the bore 333. The tool 130 then rests against the locking shoulder 337 so that the cylinder core 242 is released. To pull off the cap, the Cylinder core rotated through an angle of 22 '/ 2 °.

The tool 130 presses the locking projection 337 into a pushed back position located within the insertion opening 364 Position. In this position, the locking projection 337 slides over one of the stop shoulders 141 (Fig. 8) corresponding shoulder located on the rear of the cylinder housing 214 so that it ■ can move in alignment with a recess 143 corresponding to the recess.

The rear end of the support ring 351 (F i g. 17) has a recess 361 that provides space for a split Securing ring 367 creates, which lies in an annular groove 365 of the cylinder core 242. The support ring is held on the cylinder core 242 so that its front surface is at the rear end of the cylinder housing 214 is applied, so that an interaction between the locking projection 337 and the recesses 139 and 143 of FIG. 8 corresponding two depressions of the rear face of the Cylinder housing 214 takes place.

Claims (5)

Patent claims: 1. Device for changing the tumbler permutation in a rotary cylinder lock with axially displaceable core pins arranged in a ring in the cylinder core with associated Housing pins in a non-rotatable, axially pierced cylinder housing with an annular cooperate front and rear face, characterized in that, that the cylinder core (42) rotatable in the cylinder housing (14) increased in diameter with one Head part (70) is provided, the rear end surface of which is rotatably sliding on the front The end face of the cylinder housing (14) rests; that the core pins arranged in the cylinder core (42) (66) protrude forward from the head part (70) and move freely in the longitudinal direction of the head part can move; that one which can be removed in the axial direction and is located in front of the cylinder housing (14) and the head part (70) of the cylinder core (42) covering cap (80) and an between Acting cylinder housing and cap, consisting of mutually engaging sections of these parts and their relative rotation preventing fixed locking device (attachment 86, detail 122) is provided; that a relative rotation between cap (80) and head part (70) Permitting blocking device (hook of the projection 86, edge 88) is provided in the opening and closing position of the cylinder core (42) prevents the cap (80) from being removed, but allows it to be removed when the cylinder core (42) is rotated beyond its closed position into a release position; and that one between them the cylinder core (42) and the cylinder housing (14) arranged locking device (Locking disc 135, 335, locking collar 137, 337) is provided, which is made with the help of a pin-shaped Tool (130) in its unlocked position- is bar and a movement of the cylinder core (42) in the release position and the removal of the Kaope (80) buried. 2. Device according to claim 1, characterized by provided on the cylinder housing (14, 214), stop shoulders cooperating with the locking shoulder (137, 337) of the locking disc (135, 335) (165, 141) to limit the movement of the cylinder core (42, 242) relative to the cylinder housing (14, 214) on the swivel area between the open and closed position. 3. Device according to one of claims 1 and 2, characterized in that the locking disc (135, 335) is non-rotatably connected to the cylinder core S (42, 242) and one arranged on it Has locking collar (137, 337), which is connected to a recess (139) in the rear face of the cylinder housing (14, 214) formed stop shoulders (165, 141) and one of one a few deep indentations (143) formed, the release position determining the stop shoulder (167) cooperates. 4. Apparatus according to claim 3, characterized in that the cap (80) and the cylinder housing (14, 214) have bores (131 or 133, 333) that are axially aligned with the locking collar (137, 337) are aligned when it is in contact with the stop shoulder (141), so that backward pressing the locking lug (137, 337) by means of the pin-like tool (130) the next Continue turning the locking projection (137, 337) over the stop shoulder (141) into the less deep recess (143) and thereby the turning of the cylinder core (42, 242) into its release position is allowed. 5. Device according to one of claims 1 to 4, characterized in that the fixed locking device from the cap (80) protruding into cutouts (122) of the cylinder housing (14, 214) lugs (86) and the blocking device consists of hooks arranged at the ends of the lugs (86), which engage behind an edge (88) of the Kopteiis (70) of the cylinder core (42, 242), which with in the release position is provided with cutouts (120) that can be brought into alignment with the lugs (86) is. 1 sheet of drawings 109 617/167