DE1051543B - Encryption device - Google Patents

Description

Encryption device The main patent application relates to an encryption device with a number of circuits assigned to the different meanings to be encrypted and mechanically adjustable contact devices for deflecting one by keystroke selected circuit as well as step-by-step adjustable locking washers with a Multiple scannable, optionally without removal from the encryption device into one effective or ineffective position adjustable bolt as a drive means for the Drive these contact devices. The invention relates to a further embodiment this cipher device of the main patent application. Its purpose is the movement processes for adjusting the locking washers and the contact devices.

In the case of a device of the type mentioned at the beginning according to the main patent application is according to the invention for driving all locking discs a common two-tooth gear as well as an intermediate gear designed according to its number of bolts for each locking disk intended. The use of a two-tooth gear for the joint switching of all locking disks guarantees an exact switching with every keystroke by one bar division each. The two-tooth gear prevents an arbitrary one Movement of the individual locking washers, thereby ensuring the precise engagement of the Sensing elements safe, which control the movement of the associated through disks.

Two-tooth gears are used as a means of achieving precise shift travel known per se in precision engineering, their special type of use according to the invention, however, represents a particularly expedient development of the new subject matter of the main patent application.

According to an expedient development of the invention, the drive takes place of the two-tooth gear via a clutch, which the two-tooth gear connects to the drive motor for a constant rotation angle. In this case, the movement can be carried out with particular advantage via the same coupling camshafts controlling thrust members are driven, each of which in correspondence with the arrangement of the main patent application depending on the position of the assigned Lock disk sensing tactile lever takes the through disk or not.

As for setting the locking washers and the passage washers in a desired starting position the discs have to be rotated by hand, the two-tooth drive but an arbitrary rotation of the locking discs with respect to their drive wheels does not allow, are according to another expedient development of the invention Means are provided for the temporary separation of the locking discs from their drive wheels.

An embodiment of the invention is shown in the drawing. It shows Fig. 1 the basic means for moving the locking washers and Through disks, schematically in a perspective view; Figs. 2 and 3 one special design of a locking disk with its drive wheel in plan and side view, partly in cut.

A shaft 12 is continuously set in rotation by a motor 11. the Shaft 12 drives a drive wheel 13 via a clutch 14, which is shown in the drawing is only indicated schematically. The clutch 14 receives in not shown Way an incentive each time a key, not shown, is pressed. With everyone As an incentive, it also couples the drive wheel 13 for half a revolution of the motor 11 of shaft 12.

The wheel 13 carries two drive pins 15, which with the grooves 16 one Malteserrades 17 work together. With every rotation of the wheel 13 by 180 ° this will be Geneva wheel 17 rotated by one tooth pitch. On the shaft 18 of the Geneva wheel 17 gear wheels 19 are arranged, only one of which is shown in the drawing. With the wheel 19 meshes with an intermediate wheel 20, the axis 21 of which is on one around the shaft 18 pivotable lever 22 is mounted, which is under the action of a spring 23. The spring 23 pulls the lever 22 in a position in which the intermediate gear 20 with the Wheel 24 of the associated locking disk 25 meshes. The three locking washers 25, 26 and 27 sit loosely on one Axis 28. Each of the locking washers carries a number of axially displaceable latches29, the position of which is controlled by a feeler lever 30 is sensed. The individual locking washers 25, 26 and 27 can have a different Number of bars. The number of teeth on wheels 19, 20 and 24 or the corresponding wheels, not shown in the drawing, which the locking washers 26 and 27 are assigned is selected so that each time the Geneva wheel is switched 17 each of the locking discs under the influence of a half-turn of the drive wheel 13 25, 26, 27 is moved by one bolt division. The locking washers are useful 25 to 27 have the same diameter despite different numbers of bars. Also the pairs of wheels20,24 the different locking washers can be the same despite different numbers of teeth be made large. If the locking washers 25, 26, 27 are to be inserted individually by hand a certain starting position are rotated, then by means of a handle 31, the lever 22 is pivoted with the axis 21 against the action of the spring 23, so that the intermediate wheel 20 disengages from the wheel 24 of the locking disk 25 and also the intermediate gears, not shown in the drawing, of the remaining locking washers disengage from the wheels of these locking disks 26, 27. By default the handle 31 is after the adjustment movement of the lever 22 back into the one shown Swiveled position.

With the drive wheel 13, which each time the clutch 14 is stimulated Executes half rotation, the wheel 32 meshes with a shaft 33. The translation of the wheels 13 and 32 is chosen so that the shaft 33 with each half turn of the wheel 13 one carries out full circulation. A cam disk 34 is used during each revolution that on a one-armed lever under the influence of a return spring 35 36 mounted thrust member 37 moves. This push member works with the toothing a through disk 38 together. The ones in the drawing only through their drive teeth Indicated through disks 38. 39 and 40 sit loosely on an axis 41. Each is under the action of a spring-loaded box lever 62. In the drawing For the sake of better visibility, only the parts for the drive of the through disk are overlooked 38 shown.

The engagement of the push member 37 in the toothing of the through disk 38 is dependent on a pivotable guide lever 42, which is under the influence of a Spring 43 stands. The fork-shaped end 44 of one arm engages around this guide lever an approach 45 of the push member 37 and keeps this out of engagement with the toothing the through disk 38. However, the spring 43 tries to counter the guide lever 42 to pivot clockwise and thus to release the push member 37 for engagement. The guide lever 42 is prevented from pivoting by a projection 46, on which the right arm of the guide lever 42 is supported. This approach 46 belongs to the feeler lever 30, which senses the position of the bolt 29 of the locking disk 25.

In the position of the feeler lever 30 shown in the drawing, this is pulled under the action of a spring 47 in the position in which he the guide lever 42 locked. -After a rotation of the locking disk 25 by one bolt pitch would a bolt 29 in its active position under the tip of the tactile lever 30 step and pivot it against the action of the spring 47. This would make the Shoulder 46 release the guide lever 42. The fork 44 then pivots the push member 37, since at this point in time the control shaft 33 is rotated so far that the cam 48 has released the guide lever 42. During the switching movement, which the push member37 executes under the action of the control cam 34, the through disk 38 is around turned one step. At the end of the revolution of the control shaft33, the cam48 runs again on the guide lever 42 and pivoted this counter to the action the spring 43 in a position in which the shoulder 46 of the feeler lever 30 again in front of the free end of the guide lever can fall.

In the embodiment shown in Figs. 2 and 3, the wheel 241 not rigidly connected to the associated locking disk 25; it sits together with a ratchet wheel51 loosely on a socket52 of the locking disc. On the lock washer 25, a detent lever 53 is pivotably mounted, which is under the action of a spring 54 stands. The roller 55 of this detent lever 53 is thereby in a detent of the wheel 51 and couples the locking disk 25 in the direction of rotation with the gear 241. The intermediate gear, which couples the gear 241 to the drive 19 is arranged on a rigid axle and is therefore constantly in engagement with the gear 241. For adjustment in a The locking disk 25 can be the desired starting position while overcoming the detent opposite the drive wheel 241 can be rotated without there being a decoupling of the intermediate wheel requirement. Since the two-tooth drive locks the Geneva wheel 17 in the rest position, one can Rotation of the locking disk 25 by hand has no effect on the other locking disks or exercise the drive mechanism of the through discs.

Although the drawing only shows the means of moving the passage disk 38 reproduces in detail, are for the movement of the through disks 39 and 40 the same funds are still available twice. By the two-tooth gear 15,17 all locking washers 25 to 27 are stepped at the same time by one locking pitch each turned. All Tasthebe130 simultaneously check the position of one bolt each of the three locking washers and, depending on the result of this test, give the assigned guide hoist142 free or not, which the associated push member 37 is in engagement with the toothing brings or disengages the through disk. Through the cams 34 of the shaft 33, the thrust members of all through disks 38 to 40 are moved simultaneously. The thrust members in engagement with the toothing of their through disk take these with you and turn them one step division. The cams 34 are designed so that the movement of the passage disc accelerates evenly up to a maximum value and then evenly decelerated to a standstill in order to avoid skidding.

Claims (11)

PATENT CLAIMS: 1. Encryption device with a number of different ones The meanings of circuits assigned to be enciphered and mechanically adjustable Contact devices for diverting a circuit selected by a keystroke as well as step-by-step adjustable locking washers with a plurality by means of a feeler element scannable, optionally without taking it out of the cipher into an effective one or an ineffective position of adjustable latches as drive means for the drive these contact devices according to patent application T 6584 VIII d / 42 n, 14, thereby marked that to drive everyone Lock washers (25, 26, 27) a common two-tooth gear (15, 17) and for each of the locking discs Intermediate gear (19, 20, 24) designed according to their number of bars is provided is. 2. Encryption device according to claim 1, characterized in that between the A coupling (14) is provided for the drive motor (11) and the two-tooth gear (15, 17) is which with each keystroke the two-tooth gear for an always constant Connects rotation angle with the drive motor. 3. Encryption device according to claim 1 or 2, characterized in that the pinions (19) of the two-tooth drive (17) meshing intermediate wheels (20) of the various locking discs (25, 26, 27) have the same diameter despite the different number of teeth. 4. Encryption device according to one of claims 1 to 3, characterized in that the external dimensions of all locking washers (25, 26, 27) equipped with different numbers of bolts are the same are great. 5. Encryption device according to claim 1 or 2, characterized in that with the pinions (19) of the two-tooth drive (17) meshing intermediate gears (20) of the various locking disks (25, 27) are arranged on an axis (21), which on a cross member pivotably mounted around the shaft (18) of the two-tooth drive (17) (22) is attached. 6. Encryption device according to claim 5, characterized in that the pivotably mounted traverse (22) is under the action of a spring (23). 7. Encryption device according to claim 1 or 2, characterized in that each of the locking discs (25, 26, 27) one from a spring-loaded clutch lever (53, 54, 55) and one with the drive gear (241) connected ratchet wheel (5,1) formed detent coupling has which a rotation of the locking disc by hand attack opposite the drive wheels (19, 241) connected to the two-tooth drive (17). B. Encryption device according to Claim 2, characterized in that it is via a coupling (14) with a constant rotation angle driven drive wheel (13) of the two-tooth drive (15, 17) meshes with the wheel (32) of a control shaft (33), which the movement of the through disks (38, 39, 40) by means of push members (37) carries control cams (34, 48). 9. Encryption device according to claim 8, characterized characterized in that in the area of action of a cam (48) of the control shaft (33) a guide lever (42) is arranged, which depending on the position one of the latches (29) of the associated locking disc (25 to 27) sensing tactile lever (30) the thrust member (37) in one for the movement of the through disks (38 to 40) holds effective or ineffective position. 10. Encryption device according to claim 8, characterized characterized in that the cam disk (34) of the control shaft which moves the thrust member (37) has such a shape that each thrust member (37) its through disk with uniform Acceleration and uniform deceleration moves. 11. Encryption device according to claim 8, characterized by such a design of the drive wheels (13, 32) that the camshaft (33) makes a full rotation for each half rotation of the two-tooth drive (15, 17).