DE3811439C2 - Locking disc for a combination lock - Google Patents

Description

The invention relates to a tumbler in Preamble of the claim mentioned Art.

The invention relates in particular to tumbler disks for such combination locks that are specially designed are that they are against an impairment of their safety based on a determination of the opening combination of the Castle using x-ray techniques or techniques are secured with high radiation energy.

The operation of locks, commonly called Kombina tion locks are called and for example from the US-PS 33 86 275 are known, based on the alignment of a Variety of tumbler disks in a predetermined manner such that the retraction of a reciprocating Riegel from its projecting position is made possible. Each tumbler disc has at least one circumference Incision slot provided, which is intended to be an incidence rod, which is normally about the scope of the respective tumbler discs and is different from an idea rod lever extends from the pivotable or otherwise is coupled with a bolt and controls its movement. If the slots of all tumbler disks in alignment with each other and in a predetermined alignment with the one drop bar are arranged, and if a drive cam, the an angular movement of the tumbler disks via lost motion effects and controls the collapse lever on one selected angular position is set, the On drop rod into the slots of the tumbler discs fall and such a connection of the collapse lever with the drive cam allow a limited angle movement of the drive cam a movement of the insertion rods lever causes so that this pulls back the bolt. The The security of such locks is based on the fact that the number of orders or permutations of possible  Relative positions of the incidence slots before a simultaneous Alignment of all entry slots to allow a back pulling the bolt is so big that the chance is negligible is that these slits are aligned by one person who are not familiar with the combination.

Mechanical arrangements have been developed in recent years wraps that are reasonably effective around the combination concluded against fraudulent mechanical manipulation Determination of the combination by unauthorized persons to protect. However, there have been ver developed various techniques that ensure the safety of Kombina locks in safes and other security containers Endanger the use of high energy radiation. This Techniques have been used as radiographic or various Radiological techniques refer to and include in general the production of photographs or other types of images the lock mechanism by photographing high-energy radiation transmitted through the lock mechanism or that were generated by measuring this radiation, the different positions or for different positions of the Group of tumbler disks emerges. Because of the next development of portable radiation sources can not auto Contained persons in a safety container reach the area and with the help of radiological procedures the Combination setting of the lock determine what inside half an instant unauthorized access to the guns enclosure is possible without any evidence of Determination of the lock combination remains. There were ver developed different arrangements, the combination locks against detection of the combination by such radio Protect graphic techniques, these arrangements in particular especially the use of radiation energy scattering devices enclose in the lock housing, these spreading devices surrounded the tumbler discs to prevent scattering through to cause urgent radiation through which the image or Photography made by such radiological techniques is falsified. Examples of such radiation Energy spreaders are described in U.S. Patents 2,970,217,40 and 3,024,640.  

Another measure to avoid finding the Lock combination through radiographic imaging techniques, at who are trying to observe the angular positions of the To allow the slots of the tumbler discs to enter simultaneously with or without the use of such Radiation scattering devices in that the tumbler disks Low density materials such as B. nylon instead of to produce metallic materials, which usually ver be applied. This will form the X-ray beam Reduction or high-energy radiation shadows largely reduced otherwise the positions of the slots of the Tumbler discs would reveal.

In addition to using X-ray photography technology ken, which is a flat photograph of the tumbler group result from which the positions of the incidence slits can be seen are, neutron beam measurement techniques or ver applied measurement techniques using high-energy radiation designed to determine the combination of the lock. At the neutron beam measuring method is a neutron beam of a suitable source on the edge of the tumbler discs group and the position of the incidence slits is determined on a Counting device by a higher count for a set one Time period is displayed, this higher counting results in less metal, nylon or other material the tumbler discs are made in the beam path is when the beam passes through an incidence slit running.

Some of the techniques that have been developed to counter the lock to secure such radiation detection methods, closed the use of additional false incidence slits each tumbler disc in addition to the real idea slit, which has distorted the radiological image, or additional wrong tumbler disks were used, the combination positions in addition to those for the actual slots of the actually effective tumbler show slices. Another technique exists according to the US Patent 3,983,727 in that a tumbler disc group  pe is used in which a novel true-false idea slot system on the circumference of the respective tumbler discs is provided. The tumbler disks are large Variety of slits around the circumference of each tumbler provided with the slits in the shape of have right triangles and are arranged so that the hypotenuse of the triangle on one side of each tumbler slice the hypotenuse of the triangle on the other side of the Tumbler disc cuts, with only one of the ideas slots on each tumbler disc a real tumbler slot is. The contact part of the drop bar that tumbles slices is designed so that it is only comes into contact with half of each disc and it is shaped so that it only fits in one slot, the shape and orientation of which are identical to the drop bar. Because all the slots, regardless of whether they are real or are wrong, a mirror image slit immediately behind them, they all look the same on one X-ray image or with a neutron beam count Measurement.

Although such combination locks against a radiological Establishing the castle secret are effective in tumbler disks described in this patent Construction that does not allow the lock combination or the castle secret is changed. On the other hand, one periodic change of the combination of the lock by Safe personnel is an additional and important factor in the Prevention of unauthorized opening of the combination castle.

From FR-PS 13 29 791 is a combination lock of the beginning known type, in which on the one hand the detectability of the Incidence slots is complicated by the fact that false incidence slits evenly over the circumference of the tumbler discs are distributed, and on the other hand no drilling in the tumbler disks for a combination key are required to decouple the outer ring from the hub, like this for example with the combination lock after the U.S. Patent 3,386,275 is the case. At the castle after the  FR-PS 13 29 791 have the ring parts and the hub parts axially directed toothing on them in predetermined angular positions to couple with each other. A rake is featured here see the axially on the peripheral area of the ring parts of the Zuhal attack discs and these from the respective hub parts uncoupled, this rake radially outside the tumbler discs and axially slidably mounted. The rake points here the shape of a circular ring with a number of radial Poor on, and between the tumblers are Coil springs are provided which attach the respective ring parts to the Press the hub parts. This results in a more complicated one Structure and a relatively large space requirement.

The invention has for its object, novel tumbler create discs for a combination lock, its lock combination is not recognizable by radiation measurement methods, being an easier adjustment of the tumbler discs stacks in the combination change position.

This object is achieved by the specified in claim 1 Features resolved.

In the tumbler disks according to the invention, the relative Angular positions of the hub parts and the ring parts of the Zuhal tion discs in the circumferential direction for changing the lock combination tion can be changed without the tumbler disks with any combination change keyholes that could be determined radiographically. This does not require the use of real and spurious Incidence slots are dispensed with.

This combination lock uses Kombina tion change keyholes avoided by the fact that novel Measures to achieve axial movement of the hub parts of the tumbler disks forming the tumbler group are provided so that it is not possible to use the tumbler disc position radiographically by determining the tip  openings for the interchangeable key. Furthermore, the parts are securely fixed the tumbler disc both in the normal operating position as well as in the combination change position.

Here, devices are provided that the wreath parts of the tumbler washer parts against movement hold when there is movement of the hub parts of the tumbler discs to change the combination is caused without the Position of the real slits on the tumbler discs becomes visible.

For this purpose spring devices are in the tumbler slices provided with shaped shoulder attachments or Ramp formations work together that cause the hubs parts and the wreath parts of the tumbler disks apart and snap together to change the combination of the Tumbler disks for a hand-changeable tumbler disc assembly or during assembly of the lock to achieve with key combination change options.  

Exemplary embodiments of the invention are described below of the drawings explained in more detail.

The drawing shows:

Fig. 1 is a perspective view of an embodiment of the combination lock,

Fig. 2 is a horizontal longitudinal sectional view of combination lock, taken along the line 2-2 of Fig. 2,

Fig. 3 is a rear view of the combination lock, wherein the rear cover is removed and the lock in the locked state shown,

Fig. 4 is a perspective view with parts of the cut are shown Schloßge häuses and wherein the retaining plates and the secondary incident rod, the tumbler discs and which are removed at corresponding spacers,

Fig. Plate 5 and 5a is a plan view and a side view of a tumbler disc of the Zuhaltungsscheibengruppe and the ground, wherein the actuating cam and the Kombinationsände approximately incidence rod is removed,

Fig. 6 is a rear view of one of the tumbler discs and an associated Mitnehmerscheibenteils,

FIGS. 7A and 7B enlarged partial sectional views of adjacent parts of the rim portions and the hub parts and the hub surrounding the spring, these parts being shown in the locked or unlocked state,

Fig. 8 is a perspective view of the spring according to FIG. 7A,

Fig. 9 is a perspective view of the lower gear portion of the primary incident on the incidence rod rod lever,

Fig. 10 is a schematic rear view showing the tumbler disc column, its drive gear and the sector gear, with the tumbler disc group, the plates and other components removed to make the former components visible.

In the drawings, an embodiment of a combination lock is shown in FIGS . 1-10, which is generally designated by the reference number ( 20 ). This combination lock has an essentially rectangular lock housing ( 21 ) with upper and lower walls ( 21 a, 21 b) and with devices which hold a hollow tubular tumbler disc column ( 22 ) with a special construction to be described for a rotary movement and an axial movement, said tumbler disc column extending rearward from the front wall ( 23 ) of the housing. A removable rear cover plate ( 21 ) is provided for closing the rear of the lock housing. The lock case is constructed so that it can be secured against the inside surface of a safe door, filing cabinet door, or other security container in a conventional manner, for example, with the help of mounting screws that pass through screw holes near the corners of the lock case and into the holding door , Filing cabinet front wall or the like. On the outer surface of the lock bearing door or the mounting wall is concentric to the axis of the tumbler column ( 22 ) a scale ring ( 24 ) attached, which is shown in the present embodiment so that it has a cylindrical casing ( 24 a), which Surrounds a larger part of the peripheral flange ( 25 a) of the scale part ( 25 ) of the scale and setting knob ( 26 ) and makes it invisible, this casing ( 24 a) being interrupted by a viewing opening ( 24 b) with a suitable circumferential extent.

The adjusting knob ( 26 ) is rotatably arranged in the forwardly opening cylindrical recess of the scale ring ( 24 ), which is formed by the casing ( 24 a), and includes a drive spindle ( 27 ), which is at its extreme end with the adjusting knob ( 26 ) is connected and extends through the hollow tumbler column ( 22 ) on the front wall of the lock housing ( 21 ) so that it is rotatably supported in the tumbler column and is held in the desired position. The adjusting knob ( 26 ) has a one-piece adjusting knob part ( 26 a) which extends from the scale part ( 26 ) to the front and preferably has a knurled circumference to facilitate handling of the adjusting knob ( 26 ).

The threaded rear end of the drive spindle ( 27 ) receives an internally threaded part of a tubular projection ( 32 a) which extends from a drive cam ( 32 ) in one piece to the front. The drive cam ( 32 ) is keyed to the drive spindle ( 27 ) at the desired angle in that a suitable keyway spring is inserted into the radial groove in the central bore of the drive cam, which is aligned in the radial direction with an incision in the drive spindle ( 27 ) to lock these components against relative rotation. A stack or an arrangement of a plurality of tumbler disks, for example a four tumbler disk stack or a three tumbler disk stack, in the present case a four tumbler disk stack, is designated by the reference numerals 34 , 35 , 36 and 37 , these being Tumbler discs have a special construction described below and are mounted so that they are rotatable on the cylindrical surface ( 22 a) of the hollow tumbler disc column ( 22 ) which extends from the front wall of the lock housing ( 21 ) to the rear. However, it is understood that a stack of three tumbler discs or a stack with any other number of tumbler discs can also be used.

Each tumbler disc ( 34 , 35 , 36 and 37 ) has an inner hub part ( 38 ) which is provided with a central opening for rotatably mounting the tumbler disc on the tumbler disc column ( 22 ). Furthermore, each tumbler disc has a crown part ( 39 ) which cooperates in a special way with the hub part ( 38 ) of the associated tumbler disc in order to enable the combination of the tumbler disc to be changed in a novel manner in which no radiographic determination is possible.

The lock is also provided with the usual bolt ( 40 ) which can slide in a suitable guide which is formed in one end of the lock housing ( 21 ). The bolt ( 40 ) is actuated with the aid of an insertion rod lever ( 41 ) which is pivotally attached to the bolt with the aid of a screw ( 42 ). The drop bar lever ( 41 ) is normally elastically in the raised position shown in Fig. 3 by means of a lever spring such as. B. the spring ( 43 ), one end of which is received, for example, by the drop bar lever ( 41 ), while the other end is inserted into a bore in a stationary part of the lock housing in order to elastically bias the drop bar lever into the raised position. The drop bar lever ( 41 ) is provided with a laterally projecting bar ( 44 ), commonly referred to as a drop bar, which has a special shape that interacts with the shape of the circumference of the tumbler ring parts ( 39 ), which drop bar along an axis protrudes parallel to the axis of the drive spindle ( 27 ) and lies over the circumference of all tumbler disks ( 34 , 35 , 36 and 37 ).

The outer rim parts ( 39 ) of the tumbler disks have a specially shaped circumference which forms a plurality of incidence slots, only one of which is a real incidence slot, as described in US Pat. No. 3,983,727. In general, each tumbler ring crown part ( 39 ) includes a circular ring-shaped main part ( 45 ) with shaped inwardly and outwardly directed end faces ( 45 a, 45 b) which are provided with tooth-like structures which form a multiplicity of incidence slots ( 46 ), which extend circumferentially over the entire circumference of the crown part, one half of the recess slots on each crown part ( 39 ) being arranged half in one side of the crown part, while the other half of the recess slots is arranged half in the other side of the crown part. All of the incidence slots ( 46 ) have the shape of a right-angled triangle and they are arranged around the outer circumference of each ring part ( 39 ) in such a way that the hypotenuse of a triangle on one side of each tumbler disc intersects the hypotenuse of a triangle on the other side of this tumbler disc.

In the same way, the insertion rod ( 44 ) of the insertion rod lever ( 41 ), which must fall into an insertion slot on each ring part ( 39 ) in order to enable the opening of the lock by pulling back the bolt ( 44 ), in a special way Adjacent pairs of shaped triangular-shaped teeth are formed, such as. B. with the teeth ( 44 a, 44 b), which are arranged in immediately adjacent pairs and are inclined opposite to each other to fit into the shaped slots ( 46 ) of the crown parts ( 39 ) so that they are only with half of each crown part ( 39 ) come into contact and only fit into an insertion slot which is identical in shape and orientation to the tooth of the insertion rod which is aligned therewith. There is only one slot on each crown part that fulfills this condition, so that there is only one real slot on each tumbler disc, while the other slots form fake slots. However, because all the incidence slits, regardless of whether they are real or not, have a mirror-image incidence slit immediately behind them, they all have the same appearance on a flat X-ray plate or on a neutron beam counter that records the strength of the gamma-neutron beam source, so that it is not possible to distinguish the real incidence slits from the fake incidence slits when using X-ray or neutron measurement techniques.

Referring to FIGS. 5 and 5A, the incidence of slots (46) in the front and rear half surfaces (45 a, 46 b) of each ring portion (39) is cut out and arranged so relative to each other that they slot pairs incidence (46-2, 46-3 , or 46-4 , 46-5 , or 46-6 , 46-7 ) as typical examples, with the hypotenuse of the triangle of an incidence slot on one side, for example ( 46-2 , 46-4 or 46- 6 ), the hypotenuse of the triangle of an incidence slot on the other side, for example ( 46-3 , 46-4 or 46-7 ) intersects. Although the exact number of slots is not critical, it can be seen that the total number of slots is always an even number, because the slots in the back and front of the crown parts form slot pairs.

Only one of the slits ( 46 ) is a real slit, while the rest are false slits. The hypotenuse of the real slit extends from the edge of the crown portion ( 39 ) in an inwardly inclined direction, while the hypotenuse of each of the other triangular slits, such as. B. ( 46-2 , 46-4 and 46-6 ) on the associated side of the crown part from the edge of the crown part inclined inwards to the left. The hypotenuses of the triangle of each of the incidence slots ( 46-3, 46-5, 46-7 , etc.) on the other side of the crown part, e.g. the rear, are all in the opposite direction to the hypotenuse of the triangle of the incidence slots ( 46- 2, 46-4, 46-6 etc.) inclined so that each incidence slot has a mirror image incidence slot behind it.

The crown parts ( 39 ) of the Zuhal supply discs ( 34 , 35 , 36 and 37 ) and the inner hub parts ( 38 ) are provided with mating teeth ( 47 , 48 ) which are designed so that they engage with each other when the crown parts and the hub portions ( 39 , 38 ) are in the aligned or locked positions of FIG. 7A while being disengaged when moved axially relative to each other to the unlocked positions of FIG. 7B. The inner diameter or the central opening surface of the ring parts ( 39 ) is further ver with a retaining groove ( 39 a) see, which is designed so that it receives a spring wire ( 49 ) which is a polygon with a large number of sides forms, wherein a part of the spring wire (49) (a 39) is exposed outside of the retaining groove to form a snap fit with a fabric ramps (38 a) to achieve the Zuhaltungsnaben (38). This snap fit formed between the spring wire ( 49 ) and the ramp structure ( 38 a) of the hub parts ( 38 ) controls the possibility of the hubs ( 38 ) to move into or out of the ring part ( 39 ). The hub parts ( 38 ) are moved by exerting a force sufficient to elastically deform the spring wire ( 49 ) when the tumbler disc column ( 22 ) is moved axially to move the hub parts from the locked position shown in FIG. 7A to the unlocked position of FIG. 7B if he wishes to change the combination of the lock. The shape of the ramp structure ( 38 a) and its interaction with the spring wire ( 49 ) is such a snap action arrangement is achieved so that when an axial force is exerted in the correct direction on the hub parts while the crown parts are held against this movement , The spring wire ( 49 ) is progressively deformed outward in the radial direction until it reaches the tip of the ramp structure ( 38 a), whereupon the energy stored in the spring wire is released very quickly and acts on the hub part in order to do this over the rest of its permissible To move the movement distance in the unlocked position opposite the crown part. A similar snap action occurs during the backward movement of the hub parts into the normal locked relationship with the associated ring part, which facilitates the change of the combination of the tumbler disks by hand and holds the hub part and the ring part together as an assembly until sufficient force moves towards them the unlocked position. This makes it easier to change the tumbler disc combination by hand and to assemble the components in the lock mechanism assembly.

The stack of tumbler disks ( 34-37 ) is assembled between lower and upper plate parts ( 51 , 52 ) and inserted spacers ( 50 ), which are fixed by spacer columns ( 53 a) and fastening screws ( 53 ) fastened to the base plate ( 51 ), which are screwed into the front end wall ( 23 ). The ring parts ( 39 ) of the tumbler discs ( 34-37 ) are held against axial movement by the spacers ( 50 ) and by the base plate ( 51 ) and the cover plate ( 52 ), so that this arrangement is assembled in a module arrangement. The spacers ( 50 ) are provided with central openings, the diameter of which is slightly larger than that of the hub parts ( 38 ), in order to allow a relative axial movement of the hub parts ( 38 ) with respect to the ring parts ( 39 ), while the spacers ( 50 ) and the upper ones and lower plates ( 52, 51 ) hold the crown parts against axial movement. The spacer columns ( 53 a) and fastening screws ( 53 ) lie outside the circumference of the tumbler disks ( 34 , 37 ) so that the tumbler disks can rotate freely when the adjusting knob ( 26 ) is turned.

The tumbler disc column ( 22 ) forms the device for moving the hub parts ( 38 ) in such a direction that their teeth ( 48 ) come out of engagement with the teeth ( 47 ) of the ring parts ( 39 ). This tumbler disc column has an axially movable tubular column component ( 22 b) with a collar ring ( 54 ) near its front end adjacent to the front wall ( 23 ) of the lock housing, this collar ring forming a lifting shoulder which in the opening ( 51 a) Base plate ( 51 ) between the nearest tumbler disc is movable. Furthermore, this column component ( 22 b) has a gearwheel component ( 56 ) for an axial movement of the column component ( 22 b) in such a way that the flange or collar ring ( 54 ) against the surface of the hub part ( 38 ) of the nearest tumbler disc ( 34 ) lying against it. is moved. The column component ( 22 b) has an internally threaded bore part which is screwed onto a threaded stub shaft part ( 55 ) of a gear component ( 56 ) which has a short, forward-projecting cylindrical tubular part ( 56 a), which in the opening ( 23 a) in the front wall ( 23 ) of the lock housing is rotatably mounted and extends through the central opening ( 51 a) of the base plate. The movable column component ( 22 b) further includes two diametrically opposite slots ( 22 c), which receives diametrically opposite lugs ( 51 d) which project through the base plate opening ( 51 a) and the slots ( 56 a) in the gear component ( 56 ) , whereby the column member ( 22 b) is held against rotation, but can perform an axial movement when the gear member ( 56 ) is rotated ge.

The gear component ( 56 ) serves for the axial movement of the column component ( 22 b) with the aid of the thread from the part ( 55 ), which is in engagement with the thread on the inner surface of the column component ( 22 ), the gear component ( 56 ) passing through Kombinationsänderungs- sector gear (57) is rotated, comprising a stub shaft (57 a) which (51e) projecting into a bore of the bottom plate (51) and into a socket in the actuating cam member (57 b) to the gear (57) to be rotatably supported. The sector gear member (57) is disposed adjacent below the bottom plate (51) to the associated actuating cam member (57 b), the (d 57) of square or other suitable shape of a hollow opening to accommodate a combination of exchange keys with typical non-circular cross-section and around by this to be operated, as will be explained in more detail. The actuating cam component ( 57 b) is located at a point which is arranged on the outside at a distance from the circumference of the tumbler disks ( 34-37 ). Thus, the tumbler disks do not have a combination change key opening, as are provided in conventional locks, in which radiological images or measurements can be carried out that make the combination change key openings in the tumbler disks, as a result of which the angular positions of the tumbler disks can be recognized. The actuating cam part ( 57 b) has a finger ( 57 c) which moves in a slot ( 51 e ') of the bottom plate in order to selectively engage with shoulder surfaces ( 57 d, 57 e) of the gear component ( 57 ). The actuating cam member (57 b) further comprises a collar (57 g), which cooperates with a part of a secondary incident rod (65) which is disposed radially outside of the tumbler discs and is pivotally mounted to a displacement of the rod (65) into the enable real slots of the tumbler discs in the combination change position and out of them. The secondary drop rod ( 65 ) and the actuating cam part ( 57 b) are prestressed in a suitable manner by spring elements ( 51 f and 51 g) on the base plate ( 51 ), as will be explained in more detail.

A movement of the column member ( 22 b) and the engagement and disengagement of the crown and hub part teeth ( 47 , 48 ) is achieved by rotating the combination change key-gear sector component ( 57 ) through a suitable angle with the aid of a finger ( 57 c) , which abuts shoulders ( 57 d or 57 e) and causes rotation of the gear member ( 56 ) during a predetermined part of the range of motion of the cam member ( 57 b), causing the external thread on the part ( 56 a) of the gear member ( 56 ) in the internal thread part of the column component ( 22 b) is rotated. This causes an axial movement of the column component ( 22 b) and its lifting flange ( 54 ) to the rear through the base plate opening, as a result of which the tumbler disc hub parts ( 38 ), of which the foremost against the lifting flange ( 54 ), axially backwards out of the position of FIG. 7A are pushed into the position of FIG. 7B, can be such that a relative rotation of the hub parts (38) relative to the ring parts (39) caused by its teeth (47, 48) to disengage a Change the combination.

The hub parts ( 38 ) are returned to the normal locking position with respect to the ring parts ( 39 ) in that the column component ( 22 b) is returned to the front by rotating the gear component ( 56 ), the washer ( 22 d) in a groove near the bottom end of the column component ( 22 b) engages with the rearmost hub part and moves all hub parts forward.

The tumbler disks ( 34-37 ) are driven by the drive cam ( 32 ), the spindle ( 27 ) and the adjusting knob ( 26 ) actuating them with the aid of a novel drive pin and wing arrangement, the drive cam having three drive pins which are under the same three, Angle distributed around the circumference, but in different radial distances from the center of the cam and are arranged with three rearwardly projecting lugs ( 59 ) which jump from a generally circular wing part ( 60 ) in front, which is in a rearward recess or Recess in the hub part ( 38 ) of the rearmost tumbler disc ( 34 ) is arranged, the lugs ( 59 ) in the same way have different radial distances from the center axis of the tumbler disc centers in order to come into engagement with a respective gene of the drive pins. The wing part ( 60 ) gives the usual lost motion clutch, which is well known in combination locks of the tumbler type be, namely that it has arcuate recesses ( 61 ) at three angularly spaced locations, which is shaped in the same way, but in the circumferential direction, shorter arcuate projections ( 62 ) which extend from the hub parts ( 38 ) of the front adjacent tumbler disks and are taken up from the recesses ( 61 ). A set of three forward projecting drive pin lugs ( 63 ) extend from the opposite surface of each hub portion ( 38 ) to the wing portion lugs ( 59 ) of the wing portion ( 60 ) on the next forward tumbler discs ( 35 , 36 or 37 ) come into engagement, so that the usual lost motion clutch drive with a suitable rotation of the drive cam ( 32 ) results. This wing member assembly, which has three drive protrusions or drive pins and three engaging wing member lugs instead of the conventional arrangement using the conventional drive pin and a single wing member lug on the wing member, is an improvement over the conventional single point actuator because of balanced forces, result in greater accuracy and resistance to wear.

In order to carry out the change in the combination, the existing opening combination is first set with respect to a combination change index mark, as is indicated, for example, at ( 64 ), instead of with respect to the normal scale setting reference mark. The secondary incident rod (65) which is actuated in that said actuating cam member (57 b), the sector gear member (57) rotates, the teeth (67) includes similar to the teeth (44 a or 44 b) of the normal A fall bar (44) so that they match the real slit slots ( 46 ) when the correct opening combination has been set with respect to the combination change index mark ( 64 ). A rotation of the combination change key over 90 degrees causes due to the non-circular opening in the actuating cam part ( 57 b), a rotation of the actuating cam part ( 57 b) in that a drive engagement of the finger ( 57 c) with the shoulder ( 57 d) of the gear ( 57 ) when the correct combination was set and after the shoulder ( 57 g) came into engagement with the lower end ( 65 a) of the drop bar ( 65 ) in order to trigger the change drop bar ( 65 ) so that its spring ( 51 f) can drive them radially inwards and their teeth ( 67 ) can engage in the real slots of the crown parts ( 39 ) during the initial movement of the combination change key. During the remaining part of the movement of the combination change key, the gear sector part ( 57 ) rotated by the finger ( 57 c) drives the gear element ( 56 ) via a suitable arc so that the column component ( 22 b) can move sufficiently far backwards push the hub portions ( 38 ) backward against the rim portions ( 39 ) held by the tumbler spacers and the lower and upper plates ( 50 , 51 and 52 ) so that the teeth ( 47 , 48 ) of the rim portions ( 39 ) and the hub parts ( 38 ) are brought out of engagement with one another.

The new or changed combination of the lock can then be adjusted in the usual manner, with the hub parts ( 38 ) being rotated relative to their associated ring parts ( 39 ) into the new combination positions, specifically by the action of the drive cam ( 32 ) and its drive pins as well the wing parts ( 60 ) and the associated lost motion coupling structure of the wing parts ( 60 ) and the hub parts ( 38 ), while the crown parts ( 39 ) are held against rotation by the secondary insertion rod ( 65 ). After completing the setting of the new combination, the combination change key is then rotated back to its initial insertion position, where rotation of the change key gear part ( 57 ) and the gear element ( 56 ) causes the column component ( 22 b) to return to the rest position, at the same time by the engagement of the washer (22 d) with the hub part (38) of the rearmost tumbler (39), the hub parts (38) are moved forward with respect to the rim portions (39) of their teeth (47, 48) back into engagement and bring them together in the new combination position. During the latter part of the rotation of the gear part ( 57 ) and the associated actuating cam part ( 57 b), the shaped projection ( 56 b) engages with the projecting projection ( 65 b) on the front side of the secondary insertion rod ( 65 ), whereby the insertion rod ( 65 ) is pivoted into its normal position, in which its teeth are pulled out of the real insertion slots of the tumbler disks.

Once the combination lock has been set in the manner described above, it is operated again in the normal manner to open the lock in accordance with the newly set combination, namely by turning the adjusting knob ( 26 ) initially in one direction over more than four complete turns to bring the first number of the combi nation, which is indicated on the flange ( 25 a) of the scale part ( 25 ), in alignment with the normal stationary index mark on the scale ring ( 24 ). During this rotation, the three drive pins, which are arranged at a distance in the circumferential direction and have a different radial distance from the center of the drive cam ( 32 ), come into engagement with the wing-part drive lugs ( 59 ) of the rearmost tumbler disc ( 34 ) and rotate it Wing part ( 60 ) over the lost motion, which is determined by the recesses ( 61 ), whereupon a rotation of the associated tumbler disc ( 34 ) is started. Similarly, the drive pins (63) of the next tumbler disc (35) rotating the tumbler (34) with the wing member drive lugs (59), this tumbler (35) by an interaction, followed by aufein other following revolutions the rotation of the tumbler (36) and then the tumbler disc ( 37 ) is obtained to place this tumbler disc ( 37 ) in its correct combination position. Turning the adjusting knob ( 26 ) in the opposite direction for more than three turns into the next combination position likewise causes the tumbler disc ( 36 ) to be set, and turning the adjusting knob again in the opposite direction for more than two turns causes one Setting the tumbler disc ( 35 ) to the correct position, followed by a final rotation of the scale and adjusting knob part again in the opposite direction to bring the tumbler disc ( 34 ) into the correct position. After returning the adjustment knob to the zero or open position, the drop bar lever ( 41 ) can drop when the drop slot of the drive cam is aligned with the nose of the drop bar lever so that the drop bar ( 44 ) can be lowered to a position in which it is Tooth structures ( 44 a) can be inserted into the correctly aligned real incidence slots on the ring parts of the tumbler disks. A backward rotation of the adjusting knob ( 26 ) in the opposite direction causes the insertion rod lever nose to be moved out of the drive cam insertion slot by cam action and the bolt ( 40 ) projects into the locking position. A further turn of the adjustment knob for more than 4 turns ensures that the tumbler disks ( 34-37 ) are encrypted for random, non-aligned positions.

Claims (1)

A tumbler disc for a combination tumbler with a number of tumblers, the combination of which can be changed, the tumbler disc comprising an annular outer rim part ( 39 ) and an inner annular hub part ( 38 ), each of which has an inner or outer circumference shaped in such a way that they are attached any one of a plurality of relative angle positions can be coupled to one another, the crown parts and the hub parts being axially displaced relative to one another to change the combination, characterized in that the surface of the outer circumference of the hub part ( 38 ) has a projecting ramp formation ( 38 a) which is formed with two inclined ramp surfaces, which converge in a dome, that the surface of the inner circumference of the crown part ( 39 ) directed thereon has a groove ( 39 a) which receives a spring element ( 49 ) which the outer circumference of the hub part ( 38 ) surrounds and opposite the Kreisfo rm is deformed so that parts thereof protrude from the groove ( 39 a) into engagement with the outer periphery of the associated hub part ( 38 ), that the spring element ( 49 ) comes into engagement with a first inclined surface of the projecting ramp formation ( 38 a) and is arranged adjacent to it when the hub part ( 38 ) and the crown part ( 39 ) are in the mutually coupled operating position, and that the spring element ( 49 ) through the ramp formation ( 38 a) in an axial movement of the hub part ( 38 ) is deformed into the combination change position so that the spring element ( 49 ) engages with a second inclined surface of the ramp formation ( 38 a) opposite the first inclined surface and elastically holds the respective hub and ring parts in the combination change position.