DE437338C - Control device for the time shifting of power consumers connected to the same alternating current network - Google Patents

Description

Control device for time shifting to the same AC network connected electricity consumers. Electric carriers and other larger ones Electricity consumers that are connected to a common three-phase network, experience has shown that when starting at the same time, strong load shocks and thus associated voltage fluctuations. This occurs especially with asynchronous motors driven conveyors, mill motors, roller drives, etc. Mains except with active current still load with wattless electricity. A Simultaneous start-up is possible, especially when they are far away from each other generally do not avoid lying manholes or electricity consumers, unless there are special and usually expensive signal lines between the individual consumption points are relocated, a temporal shift of the individual Enable start-up periods.

The present invention remedies these inconveniences without the use of special signal or control lines laid between the individual operating points in the simplest way as follows: For example, the conveyor motors or other electricity consumers bi, b2, b3 that are offset in time against each other are connected to the common three-phase network a. Small synchronous motors or synchronously running devices c, c., C3, which are also connected to the network a, are attached to the machine operator's stand. They drive pointers e., E., E3 by means of transmission gears dl, d2, d3 , which rotate on scales f 1, f 2, fz. It is clear that all pointers e1, e2, e3 etc. must rotate at the same angular speed, since the number of periods in the network is the same everywhere and thus the synchronous motors cl, c2, c3 also rotate at the same speed. If you mark a sector g1 on scale f1, a sector 92 on scale f2 and a sector ä3 on scale f3, as shown in Fig To approach circumstances when the pointer e1, e2 or e $ revolving on the station is currently in the relevant marked sector. For example, it is conceivable that the hands just make one full revolution every minute, then the machinist in the first station could only use a period of 20 seconds in every single minute to start up. Once this period has elapsed, the machinist on the next station has the further 20 seconds and so on. If he has not used the 20 seconds to start off for any reason, every machinist can only start after another. Get back into the cycle for 40 seconds. If the pause of qo seconds is too long, for example in mining operations, the pause can easily be shortened to any small amounts. If one proceeds, for example, with the division of the sectors according to Fig. 3, it is obvious that every conveyor machine operator can use a sector of to seconds each to start up twice in every minute and that he only needs to observe a pause of 20 seconds.

The whole arrangement has the great advantage for practical operation, that in a large three-phase network, any power consumers can be relocated at any time can be achieved against each other without the need to lay special signal cables. It is also conceivable that the small synchronous motor or synchronous drive or the pointer mechanism directly or indirectly to block the starting or control equipment used.

Claims (2)

PATENT CLAIMS: e.g. Control device for the time shifting of electricity consumers connected to the same AC network, characterized in that that at every point of consumption small synchronous motors connected to the mains or synchronous drives actuate pointing devices, the pointers Continuously circulate synchronously on special, time-graded scales, their observation makes simultaneous start-up or simultaneous operation impossible. 2. Control device according to claim r, characterized in that the synchronous motors or synchronous drives can also be used to control devices of the individual motors mechanically or electrically in their chronological sequence to lock against each other.