SU773535A1 - Apparatus for measuring distance till short circuit in electric network - Google Patents

Description

The invention relates to devices for determining the distance to a short circuit in an aerial electric network by the magnitude of the emergency mode current, primarily in a distribution network with a voltage of 6-10 kV. A device for measuring the distance to a short circuit or in an electrical network is known, comprising a negative sequence current filter connected in series, a triggering element, a delay element, a switch and an indicator 1. However, the known device does not have a sufficiently high measurement accuracy. The purpose of the invention is to improve the measurement accuracy. The goal is achieved in that the device containing a negative current sequence filter connected in series, a trigger, a delay element, a key and an indicator are equipped with a load current transformer connected in series, an additional delay element and a negative sequence current conversion unit whose other input is connected to the output the negative sequence current filter, and the output - with the control input of the key, while the input of the load current conversion unit is connected to the input of the filter reverse current sequence. This makes it possible to increase the accuracy of determining the distance to the damage site when the load of the network varies within operating limits. The measurement error due to the influence of the load current is characterized by the magnitude - negative sequence CURL for a two-phase short circuit; 3 (4d is the component of the negative sequence current due to the load. After the transformations, the indicated expression has the form "2 /

"Where cc is the nominal mains voltage

3c - load current; ZT - resistance of the reverse sequence of the system (transformer). Hz - resistance of the inverse sequence of the generalized load in relative units.

When the load current is equal to the nominal current of the transformer, the error value reaches 30%.

The load current conversion unit in the proposed device converts the load current value into an output signal & l with a correction defined by the expression (2). The correction is set by the operator manually.

The deceleration time of the additional delay element is chosen such that it exceeds the operating time of the fixation element, but it is shorter than the time of the dead time of the automatic reclosing cycle and the transmission lines leaving the substation.

The drawing shows a block diagram of the device.

The device contains a negative sequence current filter 1, latching element 2, a trigger unit 3, a load current conversion unit 4 that converts the load current value at the input to an output signal with a correction defined by the relation (2), the conversion unit 5 is a negative sequence current cadre that converts the output of the filter to the output of the conversion unit 4, the key 6, and the delay elements 7 and 8.

The device works in the following way.

With a small load, the conversion unit 4 outputs a signal through delay elements 8 to the control circuit of the converter 5.

During a short circuit, the negative sequence current is applied to the input of the filter 1, which triggers the triggering organ 3. After a period of time defined by delay element 7, the triggering organ 3 switches the fixing element 2 to the filter 1 through the conversion unit 5. fixation of a controlled value. - As a load current conversion unit 4, a discrete converter with relay elements can be used, the settings of which are adjusted for expression (2).

At the same time to effect a delay

Relay elements can be applied with a delay to trigger and. return.

A potentiometer controlled by the contacts of the relay elements of the block 4 can be used as a conversion unit for the current.

The proposed devices are used primarily in electrical networks x 6-10 kV.

The use of devices makes it possible to speed up the location of damage sites and the restoration of power supply to consumers.

Claims (1)

1. USSR author's certificate 230981, cl. G 01 R 31/08, 6,07.72 (prototype),