DE690712C - Remote control system - Google Patents

Description

Remote control system It has been proposed to be connected to a power network Receiving equipment of a remote control system by changing the power frequency actuate. Resonance relays can be used as receiving equipment. Is working The heavy current network is running at Hz, so the receiving relay can be set to 48 or 52 Hz and operate remotely by adjusting the mains frequency to these values. But since every resonance relay has a certain response range and the mains frequency only in whole. The number of possible remote control files can be changed within narrow limits limited.

The invention allows the number of remote control files to be increased significantly raise. According to the invention, each receiver has next to a drive that moves at a speed corresponding to the network frequency, another is moving Fixed speed drive and a dependent control element actuated by the difference in travel between the two drives.

The invention will be explained in more detail with reference to the drawing.

i is the heavy current network, 2 the synchronous generator feeding the network. By means of the step-up gear 3, it drives the first part 4i of a differential gear 4, the second part 42 of which is driven in the opposite direction by a motor 5 rotating at a constant speed, for example a clock. The third part 43 of the differential gear is connected to a pointer 6 which runs over a scale 7. 8 is a receiving apparatus with the small synchronous motor 9 connected to the high voltage network, which drives the first part iii of a differential gear ii via a back gear io, the second part 112 of which is driven in the opposite direction by a clockwork i2. The third part 113 of the differential gear is connected to a contact arm 13 to which current is supplied by means of the brush 14. In the way of the contact arm, the contacts 15 and 16 are arranged, which lead to the terminals a and b. The brush is connected to one power line and terminal c to the other. Between the terminals a and c there is, for example, a contactor for switching on the street lighting; any signaling device is connected between terminals b and c. - Contact 1 6 and terminal b can also be omitted.

The system works as follows: The speeds of the parts 41 and 42 of the differential gear 4 and the parts i i i and 112 of the differential gear i i are such adjusted so that both parts run at the same speed, when the mains frequency has its normal value of 50 Hz.

If the street lights are to be switched on, then the speed is des, generator 2 in any way decreases. Part 41 of the differential gear - # ' then runs slower than the part 42, as a result of the part 43 with the Move pointer 6 in the direction of rotation of the differential gear part 42 and gradually get from point S on scale 7 to point B. At this moment it will be again the normal mains frequency is established.

When the line frequency is reduced, the small synchronous motor g also runs more slowly; as a result, the part 113 of the differential gear i1 is moved in the direction of rotation of the part i 12, and the arm 13 comes to the contact i5. This closes the circuit for the contactor to turn on the street lights.

If the street lighting is to be switched off, it is again temporarily the mains frequency is reduced until the pointer 6 reaches the point on the scale o; simultaneously the arm 13 leaves the contact 15 and de-energizes the street lighting contactor.

If the signaling device located between terminals b and c is to be actuated, it is increased. The part qa of the differential gear q. then runs faster than part 422, part 4.3 and pointer -6 move from point o via point B to point S. At the same time, arm 13 comes to contact 1 6 via contact 15 Signal device actuated: In addition to the contacts 15 and 16, other contacts can be attached to the receiving apparatus 8 by means of the arm 13, to which other remote-controlled apparatuses can be connected, e.g. B. switching devices for tariff meters, switches for hot water storage tanks, etc. Instead of a single receiving device, these contacts can also be distributed to several devices, so that z. B. each relay that is to perform a certain remote control act, at a certain point in the circulation path of the arm 13 has one or more contacts.

The contact arm 13 is usually when transitioning from the one move to the other position via one or more contacts, their remote control should not always be intended. To avoid such remote control, you can connect the contactors, relays, control circuits of the devices to be operated with let any time delay work that only allows remote control when the arm 13 stops over a contact for a long time.

Instead of the contacts 15 and 16, one or more mechanical control parts can also be attached in the path of the arm 13, e @ @ ie execute the desired remote control act when actuated by the arm 13, for example to switch the double activation of a meter.

The contacts or control parts attached by way of the arm 13 can be arranged so as to be adjustable around the arm axis. Depending on the setting of the contact or of the control part, the receiving apparatus will then respond in one or the other position of the arm 13. In this case, all remote control relays are uniform and can be converted to other remote control files even after installation.

The arm 13 does not need to directly carry out the remote control act, but it can also be used to control circuits for another type of remote control prepare.

In the drawing, the arm 130 is indicated by dashed lines, which, when the contact 16o is touched, connects a resonance relay 18 tuned to audio frequency to the network i. The relay is through a. Audio frequency generator i8o remote-controlled. Instead of the resonance relay 18, a voltage reduction relay can also be used, which is remotely controlled by temporarily switching off or reducing the high-voltage voltage.

Claims (6)

PATENT CLAIMS: i. Remote control system for the purpose of remote control the power frequency of a power network used to connect the receiving equipment is lowered or increased to a small extent, characterized in that; that the receiving sets next to a drive whose speed corresponds to the mains frequency, another drive moving at a constant speed and a dependent from the travel difference of the two drives have control member. 2. Remote control system according to claim i; characterized; that the one drive (io) that consists of a known synchronous small motors connected to the high-voltage network, with the first part (i i i), the second, moving at a constant rate moving carriage (12) with the second part (112) of a differential gear (i i) is connected, the third part (1z3) of which actuates the control element (13). 3. Remote control system according to claim i, characterized in that in the path of the control member (z3) a number of contacts (i5, 16) or one or more adjustable contacts are attached, of which at least one is moved together with one moved by the control unit Contact is in the circuit of a fea. q .. Remote control system according to claim. r, characterized in that one or in the path of the control member several control parts, optionally adjustable, are arranged when actuated execute the remote control act by the control organ. 5. Remote control system according to claim z to q., characterized in that the control member (13o) in one or more Circuits positions for resonance relays (i8), voltage drop relays, etc. like prepared and that these relays by temporarily switching off or changing the high voltage voltage or superimposed control currents can be operated remotely. 6. Remote control system according to claim z, characterized in that at the transmission point next to a drive (Synchronous motor or generator 3) with one of the IV mains frequency corresponding Speed revolves, another revolving at an unchangeable speed Drive (clock 5) and .eine the difference in the paths of the two. Drives (3 and 5) indicating display device (6, 7) is available, which best shows the path difference indicates at which the individual receivers respond.