DE707844C - Command system with several receivers - Google Patents

Description

Command system with several receivers For command systems with several Recipients must take care that the inclusion of the commands on all Recipients, regardless of how many recipients are connected to the system are. It is also desirable to have a control at the sending location: that all recipients have correctly adjusted to the given command.

The solution to the task posed creates particular difficulties in such command systems, where the electrical transmission of the commands Lines assigned to the elements of a combination system take place: How will be shown further below, can fall out of step in such a system a recipient can cause a permanent disturbance.

According to the invention, the safe setting of all recipients this ensures that the transmission takes place in a cascade manner in such a way that -Each receiver is mechanically connected to an encoder and adjusts it in such a way that that the giver has corresponding potentials leading from him to the next recipient Creates management.

An embodiment of the invention is shown in Figs. I and a for a system shown according to the combination system. Fig. 2 shows four electrical interconnected apparatus. Anyone else can do this from any device Apparatus can be controlled. Each apparatus is electric only with the one in-line following connected. The latter mechanically controls contacts, through which potentials to the lines leading to the next device. So it arises with four apparatuses four electrical sections. The necessary wire vex connections of a section are shown in Fig. i. The latter should first be explained will.

Fig. I shows the transmitter G of the device A and the receiver E of the device B. The commands are given according to the known combination systems. For example, the five-part system is used, with which, as is well known, up to 32 commands can be transmitted. For this purpose, apparatuses A and B are connected to one another by five signal lines i to 5 and a collecting line 6. The five signal lines are connected to the five control contacts 1 to V of the transmitter and receiver. For example, the five contacts are distributed symmetrically around the circumference of a disc which has cams for controlling the contacts. The cams can be arranged so that a different contact combination is given in each of the 32 possible positions of the disc. Transmitter and receiver can be completely identical, and the reception can be controlled by means of a single drive magnet D. The contacts of the transmitter and receiver are connected to one another in such a way that the drive magnet 1) remains switched on until corresponding transmitter and receiver contacts assume the same switch position. This is achieved in Fig. I in that the contacts are designed as changeover contacts. The contacts corresponding to the central springs are connected to one another. One type of external spring is attached to the drive magnet, the other type to the battery return line. As can be readily seen from Fig. I, there is always a circuit for the magnet Ft when mutually corresponding contacts on the transmitter and receiver have different positions. If, for example, contact I of the encoder is on a cam, but the corresponding contact I 'of the receiver is in a slot, there is a circuit for I) via: earth, contact I, line i, contact I', line 6, D, -. The disk E is now rotated until the contact I 'comes to a cam. The line 6 is thus interrupted. A circuit via the line 6 is also established when the contact I is in a groove while the contact I 'is still resting on a cam. The existing circuit (earth, I ', line z, I, line 6, D, battery, earth) is only interrupted when the contact I' also comes into a slot. As can be seen without further ado, the other contacts trigger corresponding control processes.

The magnet D can either be used as a motor or as a magnet for a stepper drive be trained. In the latter case, it is advisable to replace the one in the drawing indicated direct current source uses a breaker. The magnet could also be D interrupt yourself.

The implementation of the type of control shown in Fig. I makes now difficulties if instead of the one receiver E several receivers are arranged should be. The contacts I to VI would be switched multiple times across all receivers then a disturbance could easily occur if two recipients are out of the way Kick fall. It would then be possible for all apparatuses to continue rotating would come. Another disadvantage of such a multiple circuit exists in particular for ship systems in that the line faults, for example the derivation of all line sections add up.

Such deficiencies are inventively by the arrangement according to the Fig. 2 eliminated. The transmitter GI of the apparatus A is with the receiver E2 of the apparatus B connected in the manner shown in Fig. I. Another recipient of the Device C is now controlled as follows: The receiver of device B Mechanically controls a transmitter G2, which, like transmitter G1 of apparatus A is trained. The contacts of the transmitter G2 now control their part completely independently from the line section A, B the receiver E3 of the apparatus C. In corresponding The receiver E4 of the device D is influenced by the transmitter G3 of the device C.

According to the invention, the method explained above can now also be used for this purpose at the first encoder A a control symbol for the correct setting of all To make receiving devices appear. The final recipient is also for this purpose D equipped with a G4 encoder. This controls a receiver egg on apparatus A. In this way a chain of apparatus is formed, the links of which are completely symmetrical are trained. At each point, e.g. B. B, can be a command, so in the example ain encoder G2, which securely controls the other devices C to A caused to run on. The occupation of the apparatus can then be carried out at the receiver E'2 B determine whether the command got through.

So that the use of each device as both a transmitter and can also be carried out conveniently as a receiver, according to the invention, each donor is with connected to the receiver by means of a one-way coupling. For example the receiver El carries a cam, which is in the indicated by the arrow Direction of rotation against a projection of the disc G1. So the disc G1 becomes when rotating the disk Ei is simply taken along, while the disk G1 is carried out by hand can be rotated clockwise without affecting the disc El for the purpose of broadcasting can.

It is not absolutely necessary to use separate transmitters and receivers in each apparatus; rather, according to the invention, receiver and transmitter can also be combined with one another, which results in a particularly simple apparatus form. For this purpose, corresponding send (I to V) and receive contacts (I 'to V') of an apparatus are combined with one another, for example in a contact set. One contact is made mechanically, e.g. B. by an isolation pimple, the other contact with. One transmitter and one receiver contact are therefore controlled at each point on the cam disk of the apparatus, which is only present once for each apparatus. With this simplified arrangement, too, a control as described for the apparatus equipped with two disks is possible. For this purpose, only the disk of the sending device needs to be blocked for as long as the transmission of the signal lasts. In practice, this is only a fraction of a second if the apparatus is designed accordingly. The disk can be blocked either by holding it, in that the sender holds the operating lever for a short time after the setting of a new command. Another type of blocking is to temporarily interrupt the circuit of the drive magnet of the device. Both the mechanical and the electrical blocking can take place automatically, in that a timer is activated after a new signal has been set. The time switch device can be designed in the manner of a clockwork or act electrically, for example as a hot wire contact. The operation of the simplified apparatus is then as follows: The new command is set at the sending point, for example B. If the disc stops after a short waiting time of at most a few seconds, this means that all other devices are synchronized. But if it pretends to be right after giving, then there is a disturbance.

In order to prevent a position immediately after receiving a command another sends out and thereby a concern for the staff and an inadequate one Evokes acknowledgment message, a timer can also be installed in each device be provided that the transmission of a signal a certain time after reception a new signal prevented. This can be done after setting the transducer disc this or its operating handle for a certain time automatically is being held.

Claims (1)

PATENT CLAIMS: i. Command system with several receivers and electrical transmission of the commands over the elements of a combination system assigned lines, characterized in that the transmission takes place in a cascade manner in such a way that each receiver is mechanically connected to a transmitter and adjusts it so that the transmitter corresponds to the corresponding potentials creates lines leading from him to the next receiver. z. Command system according to Claim i, characterized in that the last receiver (E1) is arranged at the transmission location (A) for the purpose of control. 3. Command system according to claim i, characterized in that each line (i to 5) at each end in the central spring of a changeover contact (I or I ', controlled by the cams of the transmitter (G) or receiver (E)) ) ends ,. one outer spring of which is on the drive magnet (D1) of the receiver (E) and the other outer spring of which is on the battery return line (earth). 4. Command system according to claim i, characterized in that each apparatus has a receiver code member (Ei) and a transmitter code member (G1) controlled by this. 5. Command system according to claim 4, characterized in that the encoder code member (G1) is coupled only in the direction of rotation with the receiver code member (Ei) so that the former can be used for transmission. 6. Command system according to claim i, characterized in that the receiver and transmitter contacts are controlled by the same code member. 7. Command system according to claim 6, characterized in that corresponding receiver and transmitter contacts are combined in a contact set. B. command system according to claim 6, characterized in that the receiving magnet remains locked after the transmission taking place from his apparatus for the time required to adjust all apparatus. G. Command system according to Claim i, characterized in that each apparatus is blocked from being used as a transmitter for a certain period of time after it has received a command.