SU758389A1 - Capacitive-accumulating power plant electric energy accumulator - Google Patents

Description

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This invention relates to the field of electrical engineering and can be used in circuits with powerful capacitive drives, for example in capacitive-accumulating power stations.

Known electric drive, ⁵ soder- zhaschy successively in parallel rows capacitors [1].

The disadvantage of this circuit is that during a breakdown of a capacitor inside a drive, through a damaged capacitor, all capacitors of the drive begin to discharge. In this case, the current through the capacitors may exceed the permissible value, which will lead to the failure of the entire drive.

The known scheme of the electric power storage device consists of series-connected capacitors connected via fuses and formed in parallel rows with bridges using help of jumpers, switching circuits, _m formed by series-connected damping resistances and switching devices, as well as indicators of current increase, the output of which is connected to comm2

tiruyuschim apparatus [2]. This device is a prototype of the invention. The considered scheme allows you to protect the drive from emergency currents by overcharging an additional capacitor of the switching circuit in the event of a capacitor breakdown inside the drive.

A disadvantage of the known scheme is that it contains additional capacitors installed in the switching circuit, a large number of indicators for increasing the current and switching devices, which ultimately leads to augment and complication of the drive circuit, especially due to the inclusion of additional capacitors charged by outside στ source.

Due to the fact that the switching chain in the third scheme is also used to extinguish the arc in the inverter in the event of an accident in the external circuit, it is difficult to choose the parameters of the switching chain corresponding to the two disconnect modes. The purpose of this proposal is to simplify and cheapen the device.

In accordance with the proposal delivered

the goal is achieved by the fact that in the drive circuit

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electric power accumulating emkostno- (EAEC), consisting of posledovatolno connected capacitors included through fuses and formed in parallel rows by means of jumpers, com- ₅ mutating chains formed by the sequence / Tel'nykh included damping resistances and switching devices, and also increase the current indicators, the output of which is connected to switching devices, com- mutated chains ₁₀ are connected in parallel to each pair of parallel rows of capacitors and the input indicative and increasing the current crosscuts beaten into one of crosspieces at the center of each pair of parallel rows ₁₅

The operation of the device is explained in the drawing. Capacitors 1 forming capacitive

electric power storage device, connected via fuses 2 with jumpers 3 in series connected parallel rows. Parametrically, each pair of parallel rows of capacitors 1 includes switching circuits formed by switching on the switching devices 4 in series and damping resistances 5. ·

In the dissection of one of the jumpers 3, included in the center of each pair of parallel rows, the input of the current increase indicator 6 is turned on, the output 7 of which is connected to the corresponding switching device 4. · - - ~

In normal mode, the switches are open and all drive capacitors participate in the operation.

In the breakdown of all of the capacitors 1 vnutriNakopitelya remaining capacitors ₃₅ a discharged zhayutsya him. When ztom, under the influence of the fault current, the fuse blows fuse 2 connected in series with the damaged capacitor 1. Because of the large energy capacity capacitor ₄ θ 1 TURNED OFF sistent capacity fuse as well as any of the known switching device is insufficient to break the fault current arc. Therefore, when the capacitor I breaks down and the fuse 2 blows from the output 7 of the current increase indicator 6, a signal is given to turn on the corresponding switching device 4.

¹ 4

In this case, parallel to the breakdown place, two rows of capacitors 1 are turned on, and the charge of the connected row is opposite to the charge of the emergency row. As a result of capacitor overcharging, the current through the fuse 2 passes through zero, which causes the arc of this fuse to be extinguished and the damaged capacitor I is disconnected.

Subsequently, as a result of overcharging the connected series, capacitors 1 are discharged, and the working current of the storage device itself flows through the closed switching device 4.

Thus, the proposed scheme allows for trouble-free operation of the energy storage device without disconnecting it from the network in case of internal damage.

Claims (1)

Claim Electric power storage device of a capacitive-battery power station, containing rows of capacitors connected in series through fuses, switching circuits, each of which contains a series-connected damping resistance and switching device, and current increase indicators, the output of each of which is connected to the corresponding switching device, with connection points capacitors of series are interconnected by jumpers, characterized in that, in order to simplify the devices indicated by the switching circuits are connected in parallel to each two capacitors of one of the series in series, and the indicators for the increase in current are included in the jumpers Not connected to the switching circuits.