DE311814C - - Google Patents

Description

In the previously known display devices in which the display by a Rotary body takes place, which by means of resilient feet. a membrane rests and through the vibrations of the latter are set in rotation, one is not yet in been able to have the rotating body via only one line or one line and earth so to influence that -he in certain situations

ίο is being held. There are already inhibitions, e.g. B. * has been provided in the form of ' stops for this purpose, which limit the rotation of the body. However, this type of inhibition requires the rotating body to be returned to its rest position by hand.

The invention is now directed to the design of the rotary indicator so that it in existing telegraph, signaling and similar systems, which are often only connected to one Line and earth are connected, can be used as a flag or busy signal can.

According to the invention, this is achieved by designing the flag as an anchor Solenoid system achieved via the only * line by opening and breaking the power supply is controlled, and its electromagnets hold the flag as it passes between their poles can without being able to move from one fixed position to the other bring.

Embodiments of the invention are shown in the drawing.

According to Fig. 1 and 2: the electromagnet system consists of two electromagnets 1 and 2 offset by 90 ° with poles 3 and 4, between which the rotating body 5 moves as an armature and whose force of attraction when an electromagnet is excited is sufficient to hold the rotating body in place as soon as it comes to stand between the poles of the excited magnet as it rotates. The small forces acting on the rotation of the rotating body in this position, caused by a high-frequency current, are not able to rotate it any further as long as the state of excitation of the electromagnet continues and lines of force flow through the flag. Only at the moment when the magnetic flux disappears; the rotating body can move until it comes to a standstill ^{again in the force line field 1 of an excited electromagnet.}

To control the electromagnet ■ systems and the indicator from a remote issuing body via the The only line is a relay 6 connected to the line, the armature 7 of which is a circuit from the battery 8 via the electromagnet 2 when de-energized the relay closes. the Battery 8 also serves to power the relay 6 and the electromagnet 1 via the Line line and earth. If the distances are great, the battery can also be divided as shown. A second battery 9 is then expediently on set up by the issuing body. .If enough

large end battery 9 can also switch the battery 8 from the line line and only be placed in the circuit of the relay armature 7, via which they feed the electromagnet 2 causes.

A buzzer 10 actuated by a low-voltage current for generating the high-frequency currents is assumed at the transmitter point and is fed by a battery 1.1. In the circuit of the buzzer is the primary winding 12 of a transformer, the secondary winding 13 of which is connected to the line line.

The transmitter device consists of switching springs 14, 19, which are actuated by a switching lever 20 being controlled.

The arrangement is operated as follows:

In the rest position shown, only the springs 16, 17 are in the closed position. the Battery 9 is connected to the battery via these springs, transmitter coil 13 and relay coil 6 8 in connection, and the current flows from there through the winding. of the electric magnet ι to earth. The winding of the electromagnet 2 is de-energized because the current flowing through it Relay 6 keeps its armature tightened. The flag S is in his Position of rest between the poles 3 of the electromagnet 1.

If the rotating body should now appear in front of the viewing opening facing towards the Magnet 2 is arranged between the poles 4, the shift lever 20 is in the dotted Location 21st brought. Here, the contact springs 16, 17 are interrupted and the Springs 18, 19 closed. This is used to switch on the buzzer 10 (battery 11, buzzer 10, transmitter coil 12, spring 18, spring 19, back to the battery). At the contact springs 16, 17 the short circuit is one Capacitor 21 is lifted, which paves the way for the current coming from battery 9. As a result, the relay 6 is de-energized and the circuit for the electromagnet 2 closed via the falling relay armature 7. The high frequency current induced in the secondary coil 13 by the buzzer current flows on the one hand at the transmitter point via the capacitor 21 and the battery 9 and on the other hand from the secondary coil 13 via the capacitor 23 and the flag electromagnet 24 to earth. Another way is not possible for the high-frequency current because the electromagnet 1 as Choke coil works.

The rotating body 5 of the indicator now rotates under the sole influence of the vibrations of the membrane until it comes into the area of the pole shoes 4 of the energized electromagnet 2, whereupon it is held. In this position it is located below the viewing opening and remains there until the flow of lines of force in the pole shoes ceases and the rotating body continues its movement under the influence of the membrane vibrations. For this purpose, the lever 20 must be brought into position 22. In this the contact springs 14, 15 are closed, by means of which a new current path is established for the buzzer 10 , while the old one is interrupted at the contact springs 18, 19. At the same time, however, the current path for the battery 9 is closed again via the contact springs 16, 17, which results in the re-energization of the relay 6 and consequently the interruption of the circuit for the electromagnet 2. This is de-excited while the electromagnet ι is flowed through by current. Under the action of the high-frequency currents, the indicator, which is no longer held by the electromagnet 2, continues to rotate in the same sense until it comes back between the pole pieces 3 or into its starting position. Here it is held by the electromagnet 1, also when the shift lever returns to its central position, because the electromagnet 1 remains energized. The design of the indicator according to the invention therefore offers the advantage, in addition to its detection in certain positions, that it is not brought out of these positions by accidental vibrations or the like.

The rotating body can also be supplemented by an attached disc that bears numbers or letters, and makes it possible _# to bring characters with different meanings in front of the viewing opening. An embodiment of this kind is shown in FIG. 3, according to which the disc is provided with consecutive numbers 1 to 4, which can be brought in front of the viewing opening as desired.

In the embodiment according to FIG. 3, according to which only four different indicators are provided, the two electromagnets 1 and 2 are sufficient to hold the indicator in the various display positions. B. eight, as assumed in Fig. 4, a corresponding number of pole pieces 1, i °, 2, 2 ^{a must be} provided. In this arrangement, the pole pieces 1 and 1 '' and the other time the pole pieces 2 and ¹ 2 ° are excited so that the rotating body can turn 45 ° each time. Such an arrangement could also be used advantageously for calls in telephone systems.

So that when one or the other of z. B. eight different signals the issuing authority can recognize whether and when this

Claims (1)

the respective desired signal at the receiving point has been correctly transferred to the viewing position, the arrangement of the receiving station will of course be repeated at the issuing station; it . is therefore at the point of application -a flag rotated by membrane vibrations in the same arrangement and design as in the other places. ■ Patent claims: i. Indicator set in rotation due to membrane vibrations for Telegraph and signal systems, characterized by the design of the indicator (5) as a swivel anchor from the encoder station via the line of the Station of controllable electromagnet system for holding the flag in certain locations. ao 2. Indicator according to claim!, thereby characterized in that the electromagnet system consists of two alternately by closing and interrupting the Stromzuführungsleituhg energized electromagnet (1, 2) consists of 90 ° with Relation to each other are offset (Fig. 1 and 2). 3. Indicator according to claim 2, characterized in that the two Electromagnets (1,2) with a larger one distributed over the circumference of the indicator Number of poles are provided for the purpose of determining the flag in several different positions (Fig. 4). 4. Indicator according to claim 1, 2 or 3, characterized by .the execution of the swivel armature with a full sign corresponding to the number of poles Disc for the purpose of emitting various signals (Fig. 3 and 4). 1 sheet of drawings.