DE1513471C3 - - Google Patents

Description

mum monitoring are relatively complex and prone to failure. Usually it is a special design.

The invention is based on the object of maximum monitoring with automatic switching off and on To create reconnection of several consumer circuits, in which the device effort considerably reduced and therefore the circuit and wiring can also be simplified. The inventive Maximum monitoring system is characterized in that one of the drive shaft the measuring period pointer driven camshaft is provided on which a number of cam disks, is preferably adjustable, attached, each with an electrical cam contact pair in such a way is assigned that these contact pairs depending on the angle of rotation of the camshaft one after the other are opened, and that each contact pair of the auxiliary relay one of the cam contact pairs is connected in parallel is. So only minor changes need to be made to the usual maximum guard in order to to make this useful for a maximum monitoring system. For the plant then needs In addition, only one auxiliary relay can be provided, the normally closed contact pairs of which are assigned by the associated Contact pairs are bridged.

The invention is explained in more detail with reference to the drawing. It shows in FIG. 1 the circuit with the devices shown schematically. 1 with a contactor counter is referred to in the usual way a normal counter measuring mechanism, a counter and a contact mechanism. A send contact 2 is closed briefly after the counter rotor has covered a certain angle of rotation, whereby a current pulse is given to a reception trigger 3 of a setting gear 4, which booster motors 5 and 6 has. The adjusting gear 4 is between the contactor counter 1 and a maximum monitor 7 are switched in order to set the limit power to be monitored as required to be able to. It essentially acts as a pulse rate converter. The outgoing pulses given to a receiving device 9 of the maximum monitor. At 10 there is an associated Booster motor called.

F i g. 2 shows a perspective view of the maximum monitor. A measure or power pointer 11 is driven by a gear 12 from the motor 10, which from the receiving device 9 accordingly the performance is controlled. A measuring period pointer 13 is at a constant angular velocity driven by a synchronous motor 14 via a corresponding gear ratio. One Wave 15 of the measuring period pointer 13 and a wave

16 of the power pointer 11 are via gears, each with a sun gear of a differential gear

17 in drive connection. A cross shaft 18 connected to the planetary gear is overdriving a pin disk 19 to a signal contact 20. The signal contact 20 is always actuated when the Power pointer 11 changes from overrun to forward run in relation to the measuring period pointer 13. At 21 and 22 coupling relays are designated, which are decoupled after the measurement period has elapsed so that the both pointers 11 and 13 under the action of reset rakes 23 and 24 in their starting position can return. These two relays are controlled by a timer 25 (FIG. 1) via a relay 26 de-energized for galvanic isolation at the end of a measuring period.

From the shaft 15 of the measuring period indicator 13 of the maximum monitor 7 are three cam disks 30, 31 and 32 driven, which interact with corresponding pairs of cam contacts 33, 34 and 35. The cams 30, 31 and 32 are such

ίο trained that they have their associated contact pairs 33 and 35 after the set running time has elapsed, d. H. after a certain angle of rotation, release to open. The cam disks are preferably adjustable in themselves so that their expiry time is continuously adjustable.

As FIG. 1 shows, the cam contact pairs 33, 34 and 35 lie parallel to the normally closed contact pairs 36, 37 and 38 of an auxiliary relay 39, which is connected to voltage by the signal contact 20 of the maximum monitor can be and so that the power supply to the contactors 40, 41 and 42 can interrupt, which switch consumer circuits I, II and III.

The system works as follows: At the end of each measuring period there are two pointers 11 and 13 of the maximum monitor in the zero position, the signal contact 20 of the maximum monitor is open, the relay 39 has therefore dropped out, so that when the line 43 is live, the contactors 40, 41 and 42 are connected to voltage via the normally closed contact pairs 36, 37 and 38 and the voltage associated therewith Consumer circuits I, II and III are switched on. The cam contact pairs 33, 34 and 35 are closed.

If the signal contact 20 of the maximum monitor speaks within the expiry time of the first cam disk 30 7, the auxiliary relay 39 is connected to voltage and opens the contact pairs 36, 37 and 38. The contactors 40, 41 and 42 can not fall off, since their coils over the cam contact pairs 33, 34 and 35 are live. Within the first predetermined by the cam disk 30 This means that the consumer circuits are not switched off after the expiry time. Stay until At the end of the first expiry time, the set power is exceeded, then by opening of the contact pair 33 brought the contactor 40 to drop at the end of the first expiry time. Through this the consumer circuits are switched off. As a result, only the performance indicator remains behind the measuring period pointer back, the signal contact 20 is opened again, the auxiliary relay 39 drops out and thus puts the contactor 40 and thus also the associated consumer circuits I on again. If within the second expiry time specified by the cam disk 31, the If the set power is exceeded, the consumer circuits I are switched off again via the contactor 40. Since the pair of contacts 34 is also opened at the end of the second expiration time, when the output to be monitored is exceeded, both consumer groups I and II are switched off. At the end of the third expiry time specified by the cam disk 32, the pair of contacts also opens 35, so that if the output to be monitored is exceeded, all consumer groups immediately be switched off.

1 sheet of drawings

Claims (1)

Claim: Maximum monitoring system with automatic shutdown of one or more consumer circuits if a specified limit power is exceeded within a Measuring period and preferably automatic restart of all previously switched off Consumers within or after the end of the measurement period, using a maximum monitor, in which a first pointer (measuring period pointer) from a timer with a speed corresponding to the limit power and a second pointer (power pointer) under the influence of a counter, in particular a contactor counter, can be adjusted from an initial position and in which the drive shafts of both pointers are connected via a differential gear whose cross shaft actuates a signal contact as soon as the power pointer reaches the measuring period pointer obsolete, with the signal contact in the circuit of an auxiliary relay that has a number of normally closed contact pairs for controlling the consumer circuits, characterized in that that one of the drive shaft (15) of the measuring period pointer (13) driven camshaft is provided on the one Number of cam disks (30, 31, 32), preferably adjustable, is attached, each one electrical cam contact pair (33, 34, 35) is assigned in such a way that these contact pairs as a function from the rotation angle of the camshaft are opened one after the other, and that each Contact pair (36, 37, 38) of the auxiliary relay (39) one of the cam contact pairs connected in parallel is. The invention relates to a maximum monitoring system with automatic shutdown one or more consumer circuits when a specified limit power is exceeded within one measuring period and preferably automatic restart of all previously switched off Consumers within or after the end of the measurement period, using a maximum monitor, in which a first pointer (measuring period pointer) from a timer with one of the limit power corresponding speed and a second pointer (power pointer) under the action of a Counter, in particular contactor counter, can be adjusted from an initial position and in which the drive shafts Both pointers are connected via a differential gear, the cross shaft of which has a signal contact actuated as soon as the power pointer overtakes the measuring period pointer, whereby the signal contact is in the circuit of an auxiliary relay that has a number of normally closed contact pairs to control the Has consumer circuits. In a known maximum monitoring system of this type (Siemens publication "Siemens Maximumwächter", SSW 462.5 / 214 b, November 1963, AEG-Mitteilungen 53, 1963, 3/4, pp. 85 to 89) there is a time-staggered shutdown of the consumer circuits with the help of time relays, A time relay is assigned to each switching stage. The timing relays are activated at the beginning of a measuring period set in motion. The circuits of the consumer circuits are via the normally closed contact pairs of the timing relays switching contactor placed. So that the consumer circuits only when there is a risk of being exceeded the specified limit power are switched off, the break contact pairs are the Contactors controlling time relays of one normally closed contact pair of the one assigned to the maximum monitor Auxiliary relay bridged. A signal is only generated after the runtime of the first time relay has expired of the maximum monitor switching off the consumer circuits assigned to this time relay. After the second time relay has timed out, further consumer circuits are switched off, etc. One Latching via the auxiliary relay prevents the consumer from being switched on again Shutdown of the last shutdown stage. At the beginning of a new maximum measuring period, the consumers switched on again either manually or automatically. In this known maximum monitoring system with automatic time-staggered shutdown of the When there is a consumer current crisis, a considerable amount of effort is required, especially when there are several shutdown stages. because a time relay is assigned to each contactor for the consumer circuits. Furthermore, a time relay is known (German Patent 495 730), in which a time element with a maximum counter having a contact device for electricity meters combined in this way is that after exceeding a certain amount of the controlled size the contact device comes into effect after an adjustable period of time. If a maximum is exceeded in this known relay in a time range immediately before the expiry of a measurement period is, then either no more shutdown of a partial load takes place or the shutdown the partial load occurs so late that the setpoint is still exceeded. Furthermore, there is a circuit arrangement for setting an average load in electrical systems by repeatedly switching a part of the system off and on by means of a switch that switches over a differential gear on the one hand from a performance counter and on the other hand from one of the middle ones Load corresponding constant power source is driven from, known (German patent 552 371), whereby the switch for switching several sections of the system has a corresponding Number of switching positions and at a speed equal to the difference between the instantaneous Load and the average consumption is proportional to that switching position swings, which is closest to the maximum load. Finally, a maximum counter is also known (German patent 596 125) in which one with power supply rings provided insulating washer with constant speed corresponding to a predetermined power is driven, the power supply rings with according to the load faster or slower rotating drivers cooperated in such a way that at one Deviation of the movements a display or shutdown of individual consumer groups made will. The latter two arrangements for maximum