SU1690074A1 - Device for current protection of electric installation - Google Patents

Abstract

The invention relates to the field of electrical engineering, in particular for the protection of electrical installations powered by direct current. The aim of the invention is to increase the temperature stability of the protection response threshold. According to the invention, the resistive and contact parts of the shunt are made of the same material as the relay coil, and the cooling surface of the shunt is selected taking into account the cooling surface of the relay coil, as well as the electrical resistance and heat transfer coefficient of the shunt and the relay coil. When the ambient temperature changes, the distribution of currents between the shunt and the winding of the relay changes slightly and the stability of the protection threshold increases. 1 il.

Description

The invention relates to electrical engineering, in particular, to devices for overcurrent protection of electrical installations powered by direct current.

The purpose of the invention is to increase the temperature stability of the protection trigger threshold.

The drawing shows a schematic electrical diagram of an electrical installation with a device for overcurrent protection built into it. The electrical installation contains a high-voltage source 1 of direct current, plus which through a resistor 2, a lamp of a high-voltage stabilizer 3 voltage - and a resistor 4 is connected to a parallel connected shunt 5 and winding 6 of the relay connected to a controlled circuit of the vacuum device 7 connected through a resistor 8 to accumulative

the capacitor 9, the capacitor 10, the resistor 11 and the minus of the high-voltage source 1 direct current; the capacitor 10 and the resistor 11 are connected to the amplifier 12 of the direct current in the control circuit of the high-voltage regulator 3 voltage, and the disconnecting relay 13 is connected to the AC circuit power supply of high voltage source of direct current 1.

The device for the current protection of the electrical installation contains a shunt 5 and a relay with a winding 6 and a contact 13.

In a device for current protection of an electrical installation, a shunt 5 connected in parallel with the winding 6 of an electromagnetic relay is used to obtain a threshold for triggering a larger threshold for a relay. For shunt 5, use the same material that the winding is made of

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6 relays, and this material should be the same for both the contact and resistive parts of the shunt 5. Choose the cooling surface of the shunt 5ш from the following condition to ensure that the object is heated by the current of the shunt and the winding

  Sp Rp - // p

JUID .a

 / Msh

where Sp, Rp ,, Mp and Ruh Rui.jMuj are the cooling surface, electrical resistance and heat transfer coefficient, respectively, of the relay (index p and shunt (index w), (with the shunt and relay placed in the same external temperature conditions).

The use of the same material as the relay winding for making the components of a shunt provides the same TKS (temperature coefficients of electrical resistance) of the relay and shunt windings, as a result of which the temperature changes their resistance according to the same law, and this eliminates temperature redistribution of currents between the shunt and the relay coil. As a result, the stability of the threshold of the relay is increased when the temperature fluctuates. In order for the shunt and relay coils, heated by their own working currents, to be in the same temperature mode, which is necessary to maintain the current ratios in the relay coil unchanged, the cooling surfaces and the heat transfer coefficients of the shunt and the relay coils are matched according to the design. In such a case, when the total current of the circuit of the protected object changes, the temperatures of these elements change in the same way if the shunt and the relay are placed in the same external temperature conditions.

In the device for the purpose of temperature stabilization of the protection threshold, shunt 5 was made in the form of a coil of copper wire, soldered directly to the terminals of the winding of relay 6, which provided the same external conditions for both the relay and shunt 5. The cooling surface of the copper shunt was chosen from the above conditions

Thus, compared with the known device, the temperature drift of the protection threshold in real conditions is reduced from 40 to 5%, which has led to the stability of the protection threshold

Claims (1)

Invention Formula A device for current protection of an electrical installation containing an electromagnetic relay for installation in a controlled current circuit, parallel to the winding of which a shunt is connected, the disconnecting contact of the specified relay is intended to be connected to the supply circuit of the protected electrical installation, characterized in that, in order to increase the temperature stability of the threshold, The contact parts of the shunt are made of the same material as the relay coil, and the cooling surface of the shunt 5sh is chosen from the condition with Sp Rp IR ° w P and where Sp, Rp, ftp cooling surface, electrical resistance and heat transfer coefficient of the relay coil, Ruj.jUui is the electrical resistance and heat transfer coefficient of the shunt, while the shunt and the relay are designed to set the same external temperature conditions. and To source food collector