LT4089B - Device for inhibiting corrosion by cathodic protection - Google Patents

Abstract

Device is intended for metal equipment protection against underground corrosion and may be used in electrical engineering as a power supply source. The device is an electronic voltage regulator (5) sequentially connected to the primary transformer winding (2) and the secondary transformer windings (3) which are connected directly to a voltage rectifier diode bridge (4) by input terminals. The electronic voltage regulator (5) consists of a variable resistor (13), force thyristor (14), force thyristor control unit (15) and a diode bridge (16).

Description

The invention relates to the field of corrosion protection of metals and can be used to protect pipelines and other metal equipment from underground corrosion. It can also be used in the field of electrical engineering as a power source for heating units, battery charging, galvanic baths, electric drives for various mechanisms.

There is known a device for cathodic protection of equipment against underground corrosion, which includes a lowering transformer for lowering the voltage of the AC mains and regulating the magnitude of the lower voltage consisting of primary and secondary windings. The secondary windings have terminals connected to the ironing block via contact flanges. The reduced transformer voltage supplied to the rectifier unit is regulated by switching said flanges. (See KaTOAHafi ceTeBafl CTamui / isi Tuna KCC. Τθχημηθοκοθ onucaHue w HHCTpyKųns no SKcnjiyaTaLLnn, 1977).

The prototype of the proposed device is a device for cathodic protection against corrosion, consisting of a lowering transformer, the primary winding of which is connected to the terminals of an automatic switch of the AC mains with a continuously connected current relay. Between these terminals there are two interconnected earthing arresters connected to each other, their midpoint being grounded. The transformer has two secondary windings, one of which is divided into several parts which are connected to each other via contact flanges and connected to the input of a voltage rectifier, which is a diode bridge. When the mains voltage is disconnected, the voltage supplied from the transformer secondary windings to the rectifier and thus the output voltage of the device are controlled by switching the contact flanges. A current measuring device is connected to the negative output of the rectifier diode bridge output. An anode grounding rod is connected to the positive outlet of the rectifier via a fuse, and to the negative terminal, through said current measuring device, a metal corrosion protected underground installation, such as a bus pipe, is connected. Among the diode-bridge output outputs, other earth-leakage arresters with a mid-point grounding (see npeo6pa3OBaTerib ιοτο, π, ηομ 3auj, nTbi Tun Π / BB-1,2-Y1. NacnopT, 1994) are switched on analogously. USSR-US company Ατ / iaHTHK HHTepH3LUHn together with production company ΠροΜτβχ according to / TK3T ΒΗΜΜΓΑ3 technical task).

The disadvantage of the aforementioned devices is that, in order to adjust the output voltage, which necessitates changing natural conditions, it is necessary to switch the transformer winding contact flanges, which necessarily requires disconnecting the device from the mains voltage. After switching the flanges, the unit must be switched on again so that the measuring devices can see the output voltage set. This switching off and switching on the measuring network must be repeated until the desired voltage is set at the output by switching the contact flanges. This kind of regulation is very messy, time consuming and, in addition, rude.

The object of the present invention is to simplify the regulation of the output voltage of a device and at the same time to improve its operating conditions.

The purpose is achieved by providing a cathodic protection against corrosion in a transformer, a diode-bridge voltage rectifier, a voltage regulator, lightning protection and measuring devices. The transformer primary winding terminals are connected to the terminals of an AC circuit breaker with a series of lightning discharge protection elements connected in series. The midpoint of these elements is grounded. The secondary transformer windings are interconnected and connected to the input terminals of said voltage rectifier diode bridge. Other sequentially interconnected lightning arresters are connected between the output terminals of this bridge and their midpoint is also grounded. The aforementioned measuring device is connected to the negative output of the rectifier diode bridge output.

The proposed device differs in that said voltage regulator is an electronic voltage regulator, the primary winding of the transformer is connected to a terminal of an AC circuit breaker via this voltage regulator and the secondary windings of the transformer are directly connected to the input terminals of said voltage rectifier diode bridge.

The electronic voltage regulator is comprised of a variable resistor, a power thyristor, a power thyristor control unit and a diode bridge, the voltage regulator a variable resistor is energized at the input of the power thyristor control unit, a power thyristor is connected between the first and second outputs of the thyristor control unit. the thyristor control electrode to the third output of the thyristor control unit. One of the other two output terminals of the diode bridge, which also forms the output of the electronic voltage regulator, is connected to one output of the transformer primary winding, and the other one of the two remaining terminals of this diode bridge, which is also the input of the electronic voltage regulator. of said AC mains circuit breaker terminal. Lightning discharge elements are varistors. The said measuring device is a current measuring device and the device additionally has a voltage measuring device connected between the output terminals of the rectifier diode bridge. An additional current measuring device is connected to the negative terminal of the voltage rectifier diode bridge.

The invention is explained in the drawing, which shows the principle electrical diagram of the proposed device.

the device comprises a lowering transformer 1 with a primary winding 2 and two secondary windings 3, a voltage rectifier which is a diode bridge 4, an electronic voltage regulator 5, a current measuring device 6 and 7, a voltage measuring device 8, lightning discharge elements there are varistors 9, 10 and 11, 12. The electronic voltage regulator 5 comprises a variable resistor 13, a power thyristor 14, a power thyristor control unit 15, and a diode bridge 16. In the voltage regulator 5, the variable resistor 13 is applied at the input of the power thyristor control unit 15. The power thyristor 14 is coupled between the outputs of the first and second power thyristor control units 15 and simultaneously to the diagonal of the diode bridge 16. The control electrode of the force thyristor 14 is connected to the third output of the force thyristor control unit 15.

One of the other two outputs of the diode bridge 16, which is also the input of the electronic voltage regulator 5, is connected to the terminal 17 of the AC switch. Another of the two remaining terminals 16 of this diode bridge, which is also the output of the electronic voltage regulator 5, is connected to one of the primary windings 2 of the transformer 1. The second terminal 2 of the primary winding 2 of the transformer 1 is connected to the other terminal 17 of the AC circuit breaker. Thus, one of the terminals of the primary winding 2 of transformer 1 is connected to one terminal of an AC circuit breaker 17 via an electronic voltage regulator 5. Between terminals of the circuit breaker 17 are connected series-connected varistors 9 and 10 for protection against lightning discharge. the midpoint is grounded. In addition, a series circuit may be applied between the terminals of the AC mains circuit breaker 17: a resistor 18 and a signal light 19. This circuit is an indicator of the mains voltage. The secondary windings 3 of the earthing transformer 1 can be interconnected either in parallel or in series (in the diagram shown they are connected in parallel) depending on the desired range of adjustable output voltage and load current. These windings are connected directly to the current terminals of the rectifier diode bridge 4. Between the output terminals of this bridge 4 are varistors 11 and 12 for lightning discharge protection which are connected in series with one another and their center point grounded. Voltage measuring device 8 is also connected between the output terminals of this diode bridge 4. The positive terminals of diode bridge 4 are for connecting to the anode grounding rod and the negative terminals for fuses 20 and 21 and current measuring devices 6 and 7 for corrosion protection. one or two objects, such as a trunk pipeline.

The device works as follows.

By means of automatic switch 17, the device is connected to the AC mains. The indicator light 19 illuminates to indicate that the unit is on and that the power supply is on.

The variable resistor 13 is applied to the outputs of the control unit 15 of the power thyristor 14 in a manner which increases evenly from 0. Thyristor 14 gradually opens. Current through the diode bridge 16 flows through both supply voltage halves. This current flowing into the primary winding 2 of the transformer 1, as well as the voltage in the primary winding 2 and secondary 3, depends on the position of the slider of the variable resistor 13 and thus on the degree of opening of the thyristor 14. The voltage of the secondary winding 3 of the transformer 1 is equalized by the rectifier diode bridge 4. The required offset becomes the load current set by the variable resistor 13, which is measured by a voltage measuring device 8 and a current measuring device 6 and 7, respectively.

In each case, the operating mode of the device, i.e. The size of the protective potential is determined by taking into account the local conditions and the state of the insulation of the protected object against corrosion.

The advantages of the proposed installation are:

- the possibility of adjusting the protective potential without disconnecting the device from the mains and from the load evenly, with the aid of a variable resistor, makes it simple, convenient and safe to operate;

- an additional branch from the negative terminal of the rectifier with a current measuring device allows storing twice the length of the pipe;

- lightning discharge elements extend the life of the device by using varistors 5 instead of dischargers;

- The positioning of the thyristor regulator on the primary side of the transformer winding allows the thyristor to be protected from the effect of back-mains voltage.

Claims (4)

Definition of the Invention 1. A device for cathodic protection against corrosion, comprising a lowering transformer, a voltage rectifier in the form of a diode bridge, a voltage regulator, lightning protection elements and measuring devices, wherein the transformer primary winding terminals are connected to terminals of an alternating current mains circuit breaker said lightning-discharge earthing elements of said series connected in series, the secondary transformer windings are interconnected and connected to the input terminals of said voltage rectifier diode bridge, while other connected series terminals are connected between said bridge output terminals lightning discharge elements having a central point also earthed, and in addition to said negative output of said rectifier diode bridge is connected to said measuring device said primary voltage regulator is an electronic voltage regulator, the primary transformer winding is connected to one of the terminals of an AC circuit breaker via this voltage regulator, and the secondary transformer windings are connected directly to the input terminals of said voltage rectifier diode bridge. 2. The device of claim 1, wherein the electronic voltage regulator comprises a variable resistor, a power thyristor, a power thyristor control unit and a diode bridge. 3. A device according to claim 1 and 2, characterized in that in the electronic voltage regulator the variable resistor is switched on at the input of the power thyristor control unit, the power thyristor is connected between the first and second outputs of the thyristor control unit electrode - to the third output of the thyristor control unit, one of the others remaining 5 of the two terminals of this diode bridge, which is also the input of the electronic voltage regulator, is connected to the AC power supply terminal of said circuit breaker and the other of the two remaining terminals of this diode bridge which is also the output of the electronic voltage regulator, - to the transformer primary 10 windings for one conclusion. 4. Device according to claim 1, characterized in that the lightning protection elements are varistors. 5. A device according to claim 1, characterized in that said measuring device is a current measuring device and further comprising a voltage measuring device connected between the output terminals of a current rectifier diode bridge. 6. A device according to claims 1 and 5, characterized in that an additional current measuring device is connected to the negative terminal of the voltage rectifier diode bridge.