SU792405A1 - Device for protective disconnection of electric apparatus - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be used for fire protection of electrical installations.

A device for signaling and emergency shutdown of an object when a predetermined temperature is exceeded is known 1. The structure of this device includes a thermal sensor made on a thermal transistor and an electronic device that converts a signal from a thermal transistor into a signal to disconnect the actuator of the object (electrical installation) from the mains.

A disadvantage of this device is its complexity, the presence of a large number of elements with low reliability, and the fact that it does not turn off the operatively protected electrical installation during short circuits.

A device for thermal protection of electric megipins and apparatuses 2, containing thermal sensors connected through a threshold element on a Schmidt trigger to an actuator, and containing two additional Imidt triggers and logic elements AND and OR and a power source, is known.

The disadvantages of such a device are the complexity, the need to have a separate power source, a relatively long non-disconnection of overcurrents.

The closest to the technical essence of the invention is a device for overcurrent protection 31 containing a current sensor in one circuit of the power supply of the protected electrical installation, a triac, through a current limiting resistor connected to the terminals. power supply of the installation, a fuse connected to another power supply circuit of the electrical installation, as well as a unit

15 power, an optoelectronic pair yi a zener diode, and the control electrode of the triac is connected to the output of an optoelectronic pair, the input of which is through

20 zener diode connected with a current sensor.

The disadvantage of the device is its complexity, as well as insufficient reliability of operation. So,

25 for example, the interturn short circuit in the secondary winding of a transformer leads to a strong fire-hazardous overheating of the transformer, but the electrical installation disconnection circuit does not work, since at the indicated 30

However, the current in the primary winding of the transformer will increase slightly, increasing the current through the resistor - current sensor - will not and, as a result, the fuse will not work.

The aim of the invention is to simplify the device and increase the reliability of operation.

The goal is achieved by the fact that in the device, the fuse included in the power supply circuit of the protected electrical installation, the sensor of the monitored parameter, the output of which is connected to the control circuit of a triac connected through the current limiting resistor in parallel with the input pins of the protected electrical installation, one of the pins to the control electrode of the triac, the other pins of the thermistors are combined and connected to the common point of the newly introduced all three-way diodes connected to the input terminals of the protected electrical installation, and a resistor connected in parallel with the thermistors.

FIG. 1 shows the scheme of the proposed device. This device contains fuses 1, triac 2, thermistors 3, current-limiting resistors 4 and 5, adjusted resistor 6, diodes 7 and 8, input terminals 9 and 10 and output terminals 11 and 12.

Entrance zazhiki 9 and. 10 are connected to the mains. A protected electrical installation is connected to the output terminals 11 and 12. One pin of fuse 1 (which is included in the split circuit 9-11) is connected directly to the clamp 9. One pin of the other fuse 1 (which is included in the split circuit of circuit 10, 12) is connected directly to the clamp 10. Other fuse leads

I connected, respectively, to terminals 11 and 12.,

The main electrodes of the triac 2 through the current-limiting resistors 4 and 5 are connected to the output terminals

II and 12. Trimmer 6 and thermistors 3 in this circuit are connected in parallel. The control electrode of the triac 2 through a parallel connected resistor b and thermistors 3 is connected to the common connection point of the cathodes of the diodes 7 and 8. The anodes of the diodes 7 and 8 are connected, respectively, to the output terminals 11

and 12.

FIG. 2 shows a diagram of the proposed device for using it to protect an electrical installation operating on rectified current; Bridging rectifier circuit is performed on. diodes 13, 14, 15, 16.

Thermistors 3 are installed in those units or racks that receive power from the output terminals of the device. The resistance of thermistors is chosen so that during normal operation of the electrical installation (at nominal supply voltage, oriental nominal thermal mode in blocks, racks, etc.), the total current (through thermistors 3 and trimmer resistor 6) is triac control current 2, insufficient to turn on the triac 2.

In the circuit used triac with. bipolar control.

The device works as follows. During an emergency operation mode, for example, during a short circuit in a protected electrical installation, fuse 1 (or one or both) blows out and, thus, a faulty electrical installation is disconnected from the mains.

Small emergency current overloads caused by faults in the electrical installation do not usually cause blown fuses 1, but cause severe overheating of radio-electronic elements, cables and wires of the electrical installation, and fire. The heat of the overheated electrical elements, cables and wires, acting on the thermistors 3 located close to them, causes a decrease in the resistance of the thermistors. As a result, it increases to the value of the control opening current in the control electrode circuit of the triac 2, Triac 2 is turned on, which causes overcurrents to flow through the fuses 1, sufficient for blown fuses, and the electrical installation is disconnected from the mains supply.

When the fuse 1 blows out due to the switching on of the triac 2, a signal (in the form of voltage from the resistor 4) about the emergency disconnection of the electrical installation goes out along the circuit and.

The operability of the thermistor 3 circuits is monitored by the voltage between points b and c.

Resistors 4 and 5 serve to limit the current through the triac 2. Trimmer 6 sets the triac trigger (which can be changed against the calculated one, for example, when the thermistor is replaced)

The proposed device is simplified if the protected electrical installation is powered by a rectified bridge current (in this case, instead of diodes B and 7) similarly connected diodes are used, for example, 13 and 14, of a bridge rectifying circuit (Fig. 2).

The use of this device allows to protect the electrical installation from overcurrents, from the fire-hazardous heat release in it, increases the fire and electrical safety of the electrical installation.

Claims (3)

1. USSR Authorship Certificate No. 410425, cl. G 08 B 19/00, 1972. 2. USSR author's certificate number 542230, cl. H 02 H 5/04, 1974. five 3. Authors certificate of the USSR 431600, CL N 02 H 3/08, 1972. V 10 o j . f put. g