DE1096962B - Arrangement for the storage and implementation of identification in telecommunication systems, in particular telephone systems - Google Patents

Description

Arrangement for the storage and implementation of license plates in telecommunication, in particular telephone systems The present invention is concerned with an arrangement for the storage and implementation of license plates, in particular series of numbered bursts, in telecommunications, in particular telephone systems.

Storage arrangements are already known. These well-known memories however, require their own switching means for the implementation. Such a memory has, for example, contact spring sets as storage elements. The one feather of this Contact spring sets form a bank contact and come after receiving a series of current impulses in contact with a second spring, with switching means, through the surge series caused this contact contact. The contacts then hold themselves in this position (German Patent No. 852 099).

Furthermore, a surge memory and repeater is known that is equipped with mechanically adjustable storage elements. The appearance of a Abgreiferarmes on a storage element located in the identification position is the indicator da = for that one of the stored series of current impulses corresponds Series of impulses has been repeated.

None of these known memories can be used universally. One Repeated implementation of the stored license plates requires time and effort.

In accordance with the present invention, there has been provided a memory at the conversion of license plates, especially numbered burst series, to economic ones Way is solved without this requiring additional expensive switching means will. This is achieved in that a non-rotatable ring of resilient slats is arranged concentrically, each of which has a specific value to be stored and identifiers to be implemented, in particular numbered burst series, is assigned and actuates a contact in the marking position. In these it is the value of the to be implemented mark or number corresponding electrical markings of others Kind of connected. In addition, a fixed rail or rail is concentric to it. a ring and a marker are provided, which are to be stored and implemented by the Indicator is controlled and the corresponding to the respective value of the indicator Brings the lamella into the marking position in which it passes through the rail or ring is being held.

The marker can be designed so that it the slats brings it into the marking position on a magnetic basis.

The invention and other features thereof are detailed in US Pat following description in conjunction with the drawings.

A memory according to the invention is shown in principle in FIG. The number current impulses are given to the marker so that it is with each pulse makes a further rotation through a certain angle. The marker consists of an axis 1 to which a marker arm 2 is attached. With this marker arm 2 will be then actuated the slats assigned to the set number plate. The marker arm can only be operated in the vertical direction. At one end he becomes two Pin held in the bearing 3. The -mark = can either be through a magnet, such as those used, for example, in rotary selectors as a pressure magnet, or operated by gravity. In the latter case it is due to centrifugal force lifted off the slats during rotation. In the embodiment of FIG. 1 is this case illustrated. The downward movement of the marker arm is controlled by the Retaining bracket 4 limited. The spring 5 causes an elastic shock. The drive of the Axis 1 takes place either individually, for example with a motor, or centrally with the interposition of a mechanical or magnetic coupling. The slats are denoted in the figure with 6, the ring with 7 and the contact spring sets with B. The ring is made of electrically non-conductive material. At the interface There is an insulation layer (not shown) between the springs and the lamellae. the Slats 6 and the slat carrier 8 are made of one piece. The lamellar carrier is supported on two angles 9. Through the incisions 10 and 11 is a shift of the plate carrier possible.

When the marker arm 2 is operated, the respective lamella opens the other side of the ring 7 pressed. The slats are made of flexible material Material. At the same time, a contact spring 8 is actuated. Electrical labels are connected to the contact springs assigned to the lamellas, with which the stored license plates are then marked, the triggering of all marked license plate takes place by a sliding movement of the ring 7 to the outside or the lamellar carrier 8 to the inside .bzw. opposite. In the exemplary embodiment ., The plate carrier 8 is moved in the direction of the arrow when triggered. These Shift takes place in @Fig. 1 for example with the help of one in the plate carrier arranged groove 12. In this, the angle attached to the axis 1 runs 13. In This angle is shown in the top view, specifically offset by 90 ° in advance. The guide during the shift is provided by a cylindrical connecting piece 14 brought about with two large flat heads 15 and 16.

The marker arm 2 is when the axis of the respective When the lamella is lifted, it falls back onto the through this position certain lamella back and bends it so far that it is under the guide ring got.

When triggered by moving the lamellar carrier, the Slats are not arranged on the entire semicircle without special measures. For example, if the slat is in the direction of displacement, the length has an effect the shift entirely on triggering. However, takes the respective slat a certain angle to the direction of displacement, so: is the horizontal one, so , effective displacement much smaller. To the right of the guide ring 7 is a lamella shown in working position and in shifting position. In this sketch is the Shift with e, the normal or storage position or working position with Zn and the release position labeled La.

The registration of the license plate can also be done manually, for example with the help of keys. In Fig. 2 an embodiment for the basic structure of such a memory is shown. Each key is assigned an identifier. A marker pen is assigned to each key. A segment I, II ... is assigned to each digit of a code group or decade of a code number. Each segment has marker springs for all license plates. The principle mode of operation of this arrangement is then as follows: For example, a code number 357 is to be stored in accordance with the decadal system. Button 3 is pressed, while the marker pen assigned to button 3 is actuated. The axis 20 now receives a rotation which corresponds to the angle of a segment. When the spring is marked, it is pressed behind a ring, corresponding to the ring 7 in FIG. 1, so that the marking is maintained even after the key is released. Now the button 5 is pressed,. The axis 20 receives a rotation again, which corresponds to the angle of a segment. The number 7 is stored in the same way. The marker springs are attached to a disk 21 which is firmly connected to the axle 20. The keys are labeled 1, 2 ... 10. A fixed segment 22 is used for automatic indexing after the marking. The disc is designed for eight segments I, II ... The ring 23 is arranged on the outside of the disc. Details of the arrangement of FIG. 2 and a circuit example are described below with reference to further figures. 3 shows a marking arrangement for a key. When, for example, the button 24 is pressed, the marking spring 25 is pushed onto the other side of the ring 23. The marker spring 26 and the indexing spring 27 are closed. On a spring of the spring set 26 is the electrical identifier corresponding to the number that is assigned to the spring set, for example a time-shifted pulse. If the switching is to take place only after the key has returned to the starting position, a key contact is actuated at the same time, namely a break contact, which is not shown in the figure. This has the task, in cooperation with the contact 27, to initiate the segment switching only after the key has returned to the starting position.

FIG. 4 shows a circuit arrangement of such a forwarding. With 28, 29 ... the key contacts are referred to, which are connected in series. One behind the other to these key contacts are the switching contacts 27, which are connected in parallel to one another. The starter relay An can only respond if a marking has been made and the respective button has returned to its original position. The ON relay then continues via its own contact and via the segment work contact s. This is closed when the respective segment position is left and then opens again as soon as the next segment position has been reached again. The two springs of the indexing spring set 27 are actuated by the respective marking spring in connection with the stationary segment 22. This working position is shown in FIG. As soon as the respective movable segment, for example I, leaves the area of the fixed segment when indexing, the one spring of the spring set 27, as shown in FIG. 6, goes back to the starting position. This opens the starting circuit for the on relay, as shown in FIG. However, the on relay remains until the segment normally open contact s opens again. If necessary, the drive can also be started directly without interposing the starter relay An.

So that the dimensions of the segments can be kept small, it is useful to arrange the keys in two rows. Such an arrangement is shown in FIG. The outer buttons 24 T2, T4 ... are then provided with angles (not shown) so that they can reach over to the marker springs.

In Fig. 8 a structural arrangement is shown in principle, in which the lamellae are actuated with the aid of magnetic forces. To the A fixed coil 30 is attached to axis 1. Also on this one is Marking arm 2, corresponding to FIG. 1, which, however, has no weighting. This In addition to marking the respective lamella, the marking arm has the task of ending of the turning process and the coil 30 by touching the contact ring 31 to be switched on. During the rotation, the marking arm is lifted by the centrifugal force. This type of closing of circuits can also be used, for example, for through-connection of speech cores for voters. The marker arm is isolated on the Axis 1 attached. The ground potential is supplied with the help of a cam disk, which is not shown. When the armpit comes to a standstill, the following circuit is established closed via coil 30: earth, Marking arm 2, contact ring 31, Coil 30, spring 32, spring 33, minus. A magnetic field is generated in the coil. The magnetic flux goes over: axis 1, marker arm 2, lamella 6 - this is in the present example made of magnetic material -, ring 34. The lamella 6 is this is pulled to the marker arm and reaches the marker side of the storage ring 23. With the pimple on the auxiliary spring 35, the spring 32 is now lifted so that the circuit via the coil 30 is interrupted. The magnetic field breaks also together. The lamella6 is, however, in the working position by the ring23 held. The other slats are marked in the same way. The springs 32, 33, 35 are arranged on the side of the marker arm 2 and are held by the pen holder 36 firmly attached to the armpit. The auxiliary spring 35 is wider at the front, so that by the respective slat can be operated.

A further exemplary embodiment is shown in principle in FIG. 9, in which the actuation of the storage device takes place on a magnetic basis. A coil 30 is arranged on the axis 1 , with which the magnetic field is generated after the axis is stopped. The respective magnetic circuit is formed by the armpit, the marker arm 2, the bracket 40 and the ring 34. The angle 40 is rotatably mounted on 41. When the coil is switched on after the armpit has come to a standstill, the angle 40, which is provided individually for each license plate, is pulled towards the ring 34. A locking pin 42 is assigned to each angle, which falls down when the angle is tightened and prevents the angle from going back into the starting position after the coil has been switched off. The spring 43 is actuated with the other arm of the bracket. The electrical indicator is connected to the spring 44. The identifier can now be tapped on the spring 43. The triggering takes place with the aid of an electromagnet, one pole 45 of which is arranged above the pins 42, in cooperation with the auxiliary rail 46. This is first pressed downwards according to the arrow shown. The auxiliary rail 46 is rotatably mounted at both ends and is designed to be circular in accordance with the ring 7 in FIG. This rail 46 is assigned the task of eliminating the jamming of the pins 42 while the electromagnet 45 is attracted. After switching on the electromagnet, ie tightening the pins 42, the rail 46 is brought back into the starting position. The angle 40 can now also go back to the starting position. The storage device is now ready for occupancy again.

The invention will now be explained in more detail with reference to a few circuit examples. In Fig. 10 a circuit arrangement for the construction of Fig. 1 is shown. The storage takes place on a numerical basis. For example, the number 5, 1st position should be saved. The axis is then rotated by five steps, the marker arm marks the lamella assigned to the number 5 and then moves to the next starting position. A starting position is arranged after every tenth step. All marker springs of a decade, in Fig. 1 these are denoted by 8, are combined and led to an output of a tap selector. The outputs of the tap selector are labeled St1, St2 ... In FIG. 10, the numerical values are marked by time-shifted pulses EP 1 .... In the present case, the time-shifted pulse EP5 is then connected to St 1. If the number of the number of impulses is used to pass on the identification, the identification impulses are passed on with the beginning or after the synchronization impulses until a time-shifted impulse occurs. After a predetermined interval, the system then switches to the next position. In FIG. 10, 1 to 10 are the respective springs combined to form a decade, denoted by 8 in FIG. 1.

A circuit design of a memory according to FIG. 2 to 7 is shown in FIG. Each digit 1 to 10, corresponding to the keys 24, T 1 to T10, is assigned a time-shifted pulse. These impulses will be fed to the memory via cam disks 50. All spring contacts, in Fig. 3 with 26, which mark the same digits, are in parallel on the label feed side Z switched. On the license plate removal side A, all contact springs are the same Place connected in parallel and guided to a position marking cam 51. About the Cam contacts 52 then get the characteristics of the respective point at the output a pickup dialer. These outputs are labeled 1St, 2St ... As a pickup selector For example, a counting magnet can be used. The identifiers of the individual digits can then be given directly to the dialing system to be set.

The electrical marking can also be done using resistors of different sizes. The evaluation then takes place in such a way that, at each point, resistances are gradually connected to the respective marking resistance, starting with a large resistance. This must be done until a predetermined current comes about. When this current is reached, a switching means is controlled, which brings about the shutdown of the switching means switching on the comparison resistors. The comparison resistors can also be connected using centrally arranged contacts that are connected at different times. If these are intended for several storage units, decoupling rectifiers are also required in the supply circuits. In FIG. 12 a circuit arrangement is shown in which the comparison resistors Wi1, Wi2 ... are switched on via contacts Kl, k2 ... closing at different times. The digit switch is designated with ZM 1, the outputs with 1 st ... 8 st.

It should be noted that in these memories, for example also oscillating circuits of certain resonance frequencies or alternating currents of different Frequency can be used. The evaluation elements of such electrical characteristics are well known and will therefore not be discussed in detail.

Claims (7)

PATENT CLAIMS: 1. Arrangement for the storage and implementation of labels, in particular of series of numbered current impulses, in telecommunication systems, in particular telephone systems, characterized by the concentric arrangement of a non-rotatable spring ring Slats, each of which has a specific value to be saved and converted Identifiers, in particular numbered surge rows, is assigned and in a marking position actuates a contact to which a value of the label to be converted or Identifier corresponding to the numbered impulse series other kind is connected, a rail or a ring (7 in Fig. 1) and a marker, that, controlled by the characteristics to be saved and implemented, which correspond to the brings the respective value of the label into a marking position, in which it is held by the rail or the ring. 2. Arrangement according to claim 1, characterized in that the marker member and the lamellae are made of magnetic Material are made and around the axis of the former a fixed magnet coil is arranged (30 in Fig. 8, 9), which is switched on when the marker member is stopped is so that a magnetic circuit over the marker and the respective lamella is formed in such a way that a moment of force is exerted on the marked lamella, so that it is pushed behind the ring. 3. Arrangement according to claims 1 and 2, characterized in that between the axis and the arm of the marker member a fixed disk made of magnetic material is provided and each has to be marked Mark an angle (40 in Fig. 9) rotatably mounted in the marking direction magnetic material is assigned such that when the solenoid is switched on a moment of force is exerted on the angle that actuates the respective marker springs and at the same time releases a lock (42 in FIG. 9), which allows the Prevented angle after switching off the solenoid. 4. Arrangement according to claim 1, characterized in that the simultaneous unlocking of all in the working position The slats are brought in by shifting the lamellar ring or the ring, such that, for example, the plate carrier (8 in Fig. 1) is provided with a groove is (12 in Fig. 1), in which an angle (13 in Fig.1) engages which is fixed to the Axis is connected, and which is provided with a bulge so that when reaching the same is shifted in one direction by the angle of the plate carrier. 5. Arrangement according to claim 1, characterized in that on one axis (20 in Fig. 2) a contact spring holder (21 in Fig.2) and for each place and code number a marker spring set to be actuated by a button (Fig. 5) is provided and the Keys are arranged so that each time the key is pressed Marking pen pressed behind a ring (23 in Fig. 5) and thus a marking it is made that with or after each marking a further rotation of the axis takes place at an angle corresponding to the registration number and that the ring is on a predetermined point is interrupted in such a way that auto-Asian unlocking he follows. 6. Arrangement according to claims 1 and 5, characterized in that for the supply of the electrical characteristics to the with the movable adjustment member permanently connected contacts and for the acceptance of the license plate marked for each position Cam disks are provided which are fixedly connected to the axis of the adjusting member are (50, 51 in Fig. 11), and that on the feed side all contacts that the Mark the same identification (1st St., 2nd St., 1st Z-side in Fig. 11), and on the Acceptance side all contacts of the same point are connected in parallel so that on the position marking cams (51 in FIG. 11) the one marked at the respective position Identifier in the form of an electrical identifier is located. 7. Circuit arrangement according to claims 1 to 6, characterized in that for electrical marking staggered pulses, current levels, alternating currents of different frequencies or Resonant circuits of different resonance frequencies are provided. Considered References: British Patent Nos. 852 099, 874 321.