RU2154321C1 - Electric circuit breaking process - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: circuit opening device has its current- carrying circuit composed of two parallel branch circuits rated at different breaking capacity; each parallel branch circuit has at least one arc-control device; breaking process is as follows: when circuit carries currents lower than or equal to breaking capacity of first branch circuit rated at lower breaking capacity, arc-control device of the latter opens the circuit; in the process, contacts of arc-control device of second branch circuit rated at higher breaking capacity are held in normally open position; when circuit carries currents higher than breaking capacity of first branch circuit, arc-control device of second branch circuit is first to turn on and then arc-control device of first branch circuit opens; in the process, contacts of second-circuit arc-control device will be held closed until contacts of first-circuit arc-control device open and electric arc is suppressed whereupon contracts of second-circuit arc-control device open. EFFECT: improved service life of second branch circuit. 2 dwg

Description

 The invention relates to the field of electrical engineering, in particular to methods for disconnecting an electrical circuit.

 There is a method of disconnecting an electric circuit by a switching device, the current-carrying circuit of which contains two parallel-connected arcing devices with the same breaking capacity (US Patent No. 3441800, claimed 12.01.67, NCI 317-11), which consists in disconnecting the circuit when emergency currents of a certain magnitude flow through it .

 However, this method does not provide reliable shutdown when currents flowing in the circuit are higher than the current for which the switching device is designed. In this connection, emergencies are possible.

 The closest in technical essence and the achieved effect to the claimed solution is a method of disconnecting an electrical circuit with a switching device having a current-carrying circuit, consisting of two parallel branches with different breaking capacity, each of which contains at least one arcing device, in which leakage in the circuit of emergency currents, the circuit is disconnected (US Patent N 3671696, claimed 16.11.70, NKI 200-144).

 This method of disconnecting the circuit improves the reliability of its disconnection in the event of an emergency. However, in the known method of disconnecting the circuit, firstly, in normal mode, the current flows through both arcing devices and, secondly, when the emergency currents flow in the circuit, both arcing devices are also turned off.

 Considering that the mechanical resource of the second branch arrester with a higher breaking capacity is less than that of the first branch arrester, it turns out that with this shutdown method the second branch arrester with a higher breaking capacity wears out faster and to ensure reliable operation of the switching device and, therefore, reliable disconnection of the circuit requires frequent replacement of this arcing device, which leads to significant additional costs.

 The objective of the present invention is to reduce the number of operations of the arrester device branches with a higher breaking capacity.

 This problem is solved due to the fact that in the inventive method of disconnecting an electric circuit with a switching device, the current-carrying circuit of which consists of two parallel branches with different breaking capacity, each of which contains at least one arcing device, which consists in disconnecting the circuit during flow emergency currents along it, when currents flowing in the circuit are less than or equal to the breaking capacity of the first branch with a lower breaking capacity, the electrical circuit is disconnected with an arcing device of the first branch, while the contacts of the arcing device of the second branch with a higher breaking capacity are in a normally open position, and when currents flowing in a circuit exceeding the breaking capacity of the first branch, the arcing device of the second branch is turned on first, and then the arcing device of the first branch is turned off while the contacts of the arcing device of the second branch are in the on position until the contacts open and the electric symmetric with the arc in the arc extinguishing device of the first branch and then made contact opening Interrupters second branch.

 The proposed method of disconnecting the circuit allows to reduce the number of operations of the arrester of the second branch with a higher breaking capacity, to increase the mechanical resource of the apparatus and the reliability of its operation.

 The figure 1 shows a diagram of the current-carrying circuit of the switching apparatus when currents flowing through it equal to or less than the breaking capacity of the branch with less breaking capacity, and figure 2 - when the currents flowing through it, greater than the breaking capacity of the branch with less breaking capacity.

 The switching device has a current-carrying circuit, consisting of two parallel branches. The first branch contains an arcing device 1 with a tripping current of 20 kA. The arrester 2 of the second circuit is designed to disconnect currents 40 kA.

 The circuit is disconnected as follows.

 In nominal mode, the arcing device 1 is in the on position, the contacts of the arcing device 2 are normally open. When currents flowing in the circuit are less than or equal to 20 kA, the contacts of the arcing device 2 are in the normally open position, the circuit is disconnected by the arcing device 1. If the current exceeds 20 kA, the contacts of the arcing device 2 are turned on first, and then disconnecting the arcing device 1. The contacts of the arcing device 2 will be in the on position until the contacts of the arcing device 1 open and the arc is extinguished in its intercontact Actual space. After that, the contacts of the arcing device 2 will open.

 Using the claimed method of disconnecting the circuit will reduce the number of operations of the branch arrester with a higher breaking capacity, which will lead to an increase in its service life and, therefore, the switching apparatus as a whole, to increase the reliability of the apparatus and disconnect the circuit in the event of an emergency, to reduce costs associated with with the replacement of the arcing device of the second branch, and the cheapening of the circuit protection system as a whole.

Claims (1)

 A method of disconnecting an electric circuit by a switching device, the current-carrying circuit of which consists of two parallel branches with different breaking capacity, each of which contains at least one arcing device, which consists in switching off the switching device of the circuit during emergency currents, characterized in that when the flow in the circuit of currents less than or equal to the breaking capacity of the first branch with a lower breaking capacity, the circuit is disconnected by an arcing device the first branch, while the contacts of the arcing device of the second branch with a higher breaking capacity are in the normally open position, and when currents flowing in the circuit exceeding the breaking capacity of the first branch, the arcing device of the second branch is turned on first, and then the arcing device of the first branch is turned off, when the contacts of the arcing device of the second branch are in the on position until the contacts open and the electric arc is extinguished in the arrester m first branch device, which is performed after opening of the contacts arcing device of the second branch.

Images