SU890516A1 - Spark-proof power supply system - Google Patents

Description

The invention relates to electrical engineering, in particular, to devices for supplying intrinsically safe systems, for example, for supplying electropneumatic converters, and can be used in the coal industry in underground mine workings, including gas or dust hazardous, as well as in explosive rooms and outdoor installations, in which explosive mixtures of gases, vapors or dusts with air may form. An intrinsically safe power supply is known, in which to limit the currents to an intrinsically safe value and to provide the power supplied to the load, a short-circuit diode current limiter is used that forms a load characteristic with a hard working section ij. A disadvantage of the known device is the low reliability of the power supply to the load through a cable of large length :. The closest to the proposed device is an intrinsically safe power source containing a battery, limiting resistors, a charge capacitor, a recovery thyristor and a protection thyristor. In order to increase the intrinsically safe power delivered to the load, in the circuit of an intrinsically safe power source, parallel to positive and polarized terminals are included Hbi: before limiting resistors - a recovery thyristor, and after limiting resistors - a protection thyristor 2l. A disadvantage of this device is low reliability when powering the load through a long cable, in which a power source can be closed through one core and ground. If there are damages in the cable of this kind (the negative pole of the power source and the positive one through the conductor at the far end of the cable are closed to earth), the cable core inductance is so large that the resulting circuit is sparking even with an intrinsically safe output power source circuit (at 38 the short-circuit between the conductors in the cable (the effect of inductance is largely compensated for by the capacitance). The purpose of the invention is improving reliability, which allows improving the safety of mine rescuers. The goal is achieved by the fact that, in a known device containing a constant voltage source, limiting resistors, two protective thyristors, a diode and a zener diode, the limiting resistor is connected in series to the negative pole of the constant voltage source, and the first protective thyristor anode is connected to a positive the source of the constant voltage source, its control electrode to the anode of the first Zener diode, the cathode of which is connected to the negative pole of the source of the constant voltage after about restrictors resistor, a cathode of the first thyristor Protective Nogo connected to the negative pole of the DC voltage. The two other protective thyristors are connected in series and connected between the poles of the source after the limiting resistor by the second thyristor anode to the positive pole, the third thyristor's cathode to the negative one, while the control electrode of the second protective thyristor is connected through a diode in the direction of current flow from two resistors and connected between the poles of the source after the limiting resistor. The connection point of the thyristors with each other is grounded and connected through one resistor to the control electrode a third of its protective thyristor, and through two other series-connected resistors to the positive pole of the source, and the connection point of these resistors is connected to the negative pole of the source. Such an embodiment of the device as compared with the known one allows to increase reliability when powering the load through a cable of long length. The drawing shows a diagram of the proposed device. The device contains a source of constant voltage 1, protective thyristor 2, zener diode 3, resistors 4 and 5, diode 6 | protective thyristors 7 and 8, resistors 9-11, zener diode 12, oi-terminating resistor 13. 6 Protective thyristor 2 with an anode is connected to the positive pole of the constant voltage source, and the cathode to a negative one. The control electrode of the protective thyristor 2 is connected to the anode of the Zener diode 3, the cathode of which is connected to the negative pole of the source after the limiting resistor 13. The cathode of the second protective thyristor 7 is connected to the anode of the third protective thyristor 8 and is connected to the positive pole of the source, the cathode of the thyristor 8 - to the negative. The control electrode of the thyristor 7 through diode 6 is connected to a voltage divider composed of resistors 4 and 5. Resistor 4 is connected to the positive pole of the source and resistor 5 to negative after the limiting resistor 13. The ground point of the circuit is connected thyristor electrode 8, and through series-connected resistors Yu and 11 to the positive pole of the source. The connection point of the resistors Yu and 11 is connected to the cathode of the Zener diode 12, the anode of which is connected to the negative pole of the source. Intrinsically safe power source operates as follows. From a constant voltage source through a limiting resistor 13, the voltage is applied to the output terminals + and the intrinsically safe power source. When the output terminals of the intrinsically safe power supply are short-circuited or through a small resistance of the cores of the cable, the limiting resistor 13 produces a voltage sufficient to break the Zener diode 3 and turn on the protective thyristor 2. The latter turns on and shorts the constant voltage source. At the output terminals of the device, the voltage disappears. The intrinsic safety of the current in the arising circuit is ensured by reducing the time of current flow. When one of the poles or one of the output terminals of an intrinsically safe source is connected to ground, a circuit arises to turn on thyristors 7 or 8. For example, when the positive pole or output terminal + closes to earth, a circuit is created to connect the thyristor 8 via the circuit: + source, resistor 9, control electrode - thyristor cathode 8, protective resistor 13, - source. Tirisztor 8 is turned on and shorts

Claims (2)

The claims 20 An intrinsically safe power supply system containing a constant voltage source, limiting resistors, two protective thyristors, a diode and a zener diode, characterized in that, in order to increase reliability, it is additionally equipped with a third thyristor, a zener diode and resistors, while the limiting resistor is connected in series with ³⁰ the negative factor of the DC voltage source, the first protective thyristor is connected to the positive pole of the DC voltage source, its control electrode is ³⁵ rod-to the anode o Zener diode, the cathode of which is connected to the negative pole of the DC voltage source after the limiting resistor, the cathode of the first protective thyristor is connected to the negative pole of the DC voltage source, two other protective thyristors are connected in series and connected between the poles of the source after the limiting resistor ano, the house of the second thyristor is positive the pole, and the cathode of the third thyristor to the negative, while the control electrode of the second protective thyristor through the diode in The current transmission phenomenon is connected to a voltage divider, of two resistors connected between the poles of the source after the limiting resistor, the connection point of the thyristors to each other is grounded and connected through one resistor to the control electrode of the third protective thyristor, and through two other series-connected resistors to the positive pole of the source, moreover, the connection point of these resistors is connected to the cathode of the second zener diode, the anode of which is connected to the negative pole of the source. ¹ Sources, information taken into account during the examination 1. USSR copyright certificate No. 254635, cl. H 02 hi 7/06, 1966. 2. USSR author's certificate No. 412601, cl. C 05 £ 1/58, 1971. VNIIIPI Zakad 11021/85 Tirad 678 Signed Branch of PPP 'Patent', g7 Uzhhorod, st. Project, 4