DE416219C - Encryption machine - Google Patents

Description

Encryption machine. There are already electric cipher machines where the signal transmitter and receiver in any way by electrical Lines are connected to each other. Changing the connections (of the encryption key) takes place in this either by replacing fixed plates, which corresponding Carry cables, or by turning one connected according to the basic key flexible cable or by rotating a cable magazine.

The invention aims to make machines of this type simpler and easier to make it more powerful. It is illustrated in the drawing, for example.

In Fig. I, i is the character sender, 2 is the link carrier and 3 is the character receiver. Contacts ez to k are arranged on the character transmitter i. Contacts A to Ii (incandescent lamps, types, etc.) are provided on the signal transmitter i. The intermediate cable carrier 2 connects the contacts a to k with the indicators A to K in any way. For example, if you press c on transmitter i, A will be displayed on 3. The intermediate cable carrier 2 can now be rotated as far and often as desired. If the same z. B. rotated further by one division clockwise, as shown in Fig. 2, the letter c becomes the letter E. The rotation of the intermediate line support 2 can be done automatically and automatically with the letters to be encrypted.

As can be seen, all the cables of the intermediate cable carrier are always located 2 on standby. In contrast to a line magazine, it is always full exploited. So there are no more lines, contacts, etc. than absolutely necessary to be needed. It is characteristic of this arrangement that the shift of the intermediate cable carrier 2 in the direction of the connecting line of the contacts 4.

The intermediate line support can also have a different shape. In Fig. 3 he has z. B. the shape of a cylinder (roller) on whose jacket the lines lie.

In Fig. 4. it is designed as a straight slide. The line connections _aufz and 3 have to be doubled here, in order to always have a line connection from i get to @ 3. The rotating movement of the intermediate cable carrier 2 from Fig. i to 3 becomes a going back and forth here.

In order to increase the number of keys, several intermediate cable carriers are expediently connected in series. k _ In Fig. 5 this is drawn for three intermediate line supports g `I, 26 and 2c in the form of rollers. With 25 contacts corresponding to the 25 letters of the alphabet, ie with 25 possible positions of the individual rollers, the result is 25X25x25 = 15625 key positions. In general, there will be a 25 ° key with n rollers. At io Walzen you get over 95 trillion keys.

To decipher the stream must reverse the cipher Traverse direction. In Fig. I the push buttons would be in place of the indicators A to K and the indicators in place of the push buttons a to k. When encrypting is z. B. from the letter c to the letter A. Is now after the exchange the character transmitter and character indicator the letter A is pressed, then appears Therefore the fox letter r. Any movement of the line intermediate carrier (s) during encryption must be repeated when deciphering in the same size and direction.

The easiest way to switch over the connections is through a Toggle switch. In Fig. 6 one is in the encryption position and in Fig. 7 in the Decryption position drawn. If in Fig. 6 z. B. contact d is closed, then the indicator shows F. If the toggle switch .f is switched to the position, as shown in Fig. 7, and now becomes the encrypted letter obtained from Fig. 6 If you press F, the original letter d is displayed again.

Fig.8 shows an embodiment. Fig. 9 is the side view and Fig. io the top view. In these figures, the Contacts i. Incandescent lamps 2 are arranged as character indicators. When depressing of a contact i, a current flows through a line not shown to the fixed Roller 5, from here through the previously described intermediate line supports 7, 8, 9 and io, which are all rotatable, and further into the fixed roller 6 and from there to a light bulb 2. This lights up. `@ie is with a corresponding sign, Fox letters, etc., which are then written down. Which lamp lights up depends on the position of the intermediate line supports 7 to io, which in the Fig. I are described in more detail.

The contact plate 14 is rotatable about the hinge i i. Becomes a contact actuated, the rod 15 with the attached pawl is moved down at the same time and thus the ratchet wheel 16 is rotated further by one tooth. The ratchet wheel 16 takes gear 17 and 18 and their waves i9 and 2o with. There are two gears on the shaft = g 21 and 22, which have an irregular number of teeth 29, 3o, 31 (both different) have and thus the intermediate line carriers 7 and 9 via the ring gears 13 irregular move on. The gears 23 and 24 transport in a similar manner the intermediate line supports 8 and io. The position of shafts i9 and 2o is on the Hands 27 and 28 visible. With handles 25 and 26, every single shaft is at The beginning of the encryption can be set arbitrarily. If contact i is released, then spring 12 pushes the whole mechanism back into its initial position.

By pulling out the shafts = g or 2o leave the handle 25 or 26 put the respective folds completely out of operation and also by hand before starting of encryption to the agreed key.

The transport of the intermediate line supports can also, as with counters, take place so that z. B. roller 7 after every full revolution roller 8 by one tooth continues to rotate, this again in the same way roller 9, etc.

Claims (7)

PATENT CLAIMS: i. Encryption apparatus, in which for the purpose of the Interchange of characters between the sender and receiver of one or more characters between fixed end cable carriers with energy entry and exit points (contact points) freely movable intermediate line carriers are connected, their energy entry points and exit points (contact points) connected to each other in pairs as desired are, characterized in that the intermediate line carrier or carriers (q. on 2, fig. I and 2) on the rows of fixed contact points (q. An i, fig. I and 2) let move past such that the movement of the contact points in the direction of the Connection line of these contact points takes place. 2. Encryption apparatus according to claim i, characterized in that the further movement of the intermediate line supports (2, Fig. I, 2, 4, 5, 6 and 7) irregular in size, direction and chronological order he follows. 3. Encryption apparatus according to claim i and 2, characterized in that the type of further movement of the intermediate line support is optionally adjustable. 4. Encryption apparatus according to claim i to 3, characterized in that optionally a part of the link carrier is moved or remains at rest. 5. Encryption machine according to claims i to 4, characterized in that the intermediate line supports are of this type are coupled together that each rear link carrier always then advances by one contact point when the present link carrier has a has made a full turn. 6. Encryption apparatus according to claim i to 5, characterized characterized in that the feed line between signal transmitters and drawing receivers on the one hand and the two sides of the intermediate line support on the other hand for the purpose the change from encryption to decryption via a switch (.1, Fig. 6 and 7). 7. Encryption apparatus according to claim i to 6, characterized in that that the character receiver consists of incandescent lamps (2, Fig. io).