RU203139U1 - Automatic protective current distributor - Google Patents

Abstract

The utility model refers to the means of electrochemical protection (hereinafter referred to as ECP) and can be used at gas distribution stations (hereinafter referred to as GDS) for corrosion protection of underground technological equipment that does not have a galvanic connection with overhead grounded pipelines. The technical problem of the claimed utility model is the creation of a device, allowing to provide automatic distribution of the ECP current to the underground technological equipment of the gas distribution station in the range from 0 to 10 mA. The technical result consists in ensuring the automatic distribution of the ECP current to the underground technological equipment of the gas distribution station in the range from 0 to 10 mA. The technical result in the automatic protective current distributor containing a fiberglass board with a circuit printed on it, which has an input that is an output for connecting to a current source and is an input of a distributor containing current regulation channels, is achieved by the fact that each of the current regulation channels, of which from 6 to 10, contains an adjustable current stabilizer, the control input of which is connected to the output of the protective potential sensor, and the output of each of the current stabilizers is the input for connecting to the equipment. 1 fig.

Description

The utility model refers to the means of electrochemical protection (hereinafter - ECP) and can be used at gas distribution stations (hereinafter - GDS) for corrosion protection of underground technological equipment that does not have a galvanic connection with overhead grounded pipelines.

Known diode-resistor unit containing a cabinet with distribution channels (from one to four), each of which has six identical wire resistors, which can be switched using jumpers to change the total resistance of the channel; diode, providing the required direction of the current in the protected structure; a shunt designed to measure the channel current using a portable device; jumpers used to obtain the required value of the channel resistance and bypass the channel diode, if necessary [patent of the Russian Federation No. RU 38077, IPC H01C 10/00 authors Bondarenko A.V. and others, priority date 08.01.2004, publ. 20.05.2004, bul. No. 14].

The disadvantages of the known unit are the stepwise regulation of the output current, a high diode opening threshold, and a low range of adjustable resistance.

Known joint protection unit with variable resistor, made of nichrome wire, fixed on ceramic insulators. The decrease or increase in the resistance value is carried out by jumpers moving along the wire. The advantage of this unit is the smooth adjustment of the output current of the channel [Control and measuring point of the instrumentation of the HS "Mendeleevets". Operating manual for KhIMS.01.032.RE, approved by 07/29/2013 -Z JSC "Production Company" Himservice "named after A.A. Zorin "].

The disadvantages of this design are a high diode opening threshold (0.6-0.7 V), a low range of adjustable resistance, inconvenient adjustment of the output current, a limited number of channels (maximum 4).

There is a known model of a joint protection unit with a rheostat, in which the required current value of each channel for setting a given protective potential on a protected underground structure can be set by choosing the required channel resistance by changing the position of the rheostat handle [Control and information points. Specifications 3435-027-24707490-2010: introduced. 04/01/2013 - CJSC "Pipeline Systems and Technologies"].

The disadvantages of this design are a high diode opening threshold (0.6-0.7 V), a low range of adjustable resistance and a limited number of channels (maximum 2).

There is a known model of a joint protection unit with electronic regulation, in which the required current value at the protected underground structure can be set automatically depending on the potential at the protected object [Joint protection units PCR1x-x. Specifications 3415-008-75203732-2018: introduced. 06/01/2018 - LLC "Reasonable House"].

The disadvantages of this design are the insufficient range of the regulated current (0.01-1 A) and the limited number of channels (maximum 1).

Known protective current distributor, selected by the applicant as a prototype, having six channels, each of which is an independent current control circuit in the joint protection system and allows you to connect one underground metal structure that has no connection with grounded equipment. Each channel of the distributor has a tuned resistor (0-2.2 kOhm) for smooth current regulation, a Schottky diode with a low opening threshold that provides the required direction of current in a protective structure, a two-electrode arrester for protection against atmospheric (lightning) overvoltages [patent of the Russian Federation No. RU 154345, IPC C23F 13/20 authors Sharipova Sh.G. and others, priority date 07.11.2014, publ. 08/20/2015, bul. No. 23].

The disadvantage of the prototype is the need for manual adjustment of the resistance on each channel, depending on the parameters of the protected equipment, the degree of its polarization and changing seasonal factors.

The technical problem of the claimed utility model is the creation of a device that allows the automatic distribution of the ECP current to the underground technological equipment of the gas distribution station in the range from 0 to 10 mA.

The technical result consists in ensuring the automatic distribution of the ECP current to the underground technological equipment of the gas distribution station in the range from 0 to 10 mA.

The technical result in an automatic protective current distributor containing a fiberglass board with a circuit printed on it, having an input, which is an output for connection to a current source and is an input of a distributor containing current regulation channels, is achieved by the fact that each of the current regulation channels, the number of which from 6 to 10, contains an adjustable current stabilizer, the control input of which is connected to the output of the protective potential sensor, and the output of each of the current stabilizers is the input for connecting to the equipment.

The claimed technical solution is illustrated by the schematic diagram shown in FIG.

The automatic distributor of protective current contains a board (not shown in the figure) made of fiberglass, on which the elements of the electrical circuit are installed, having an input, which is an output for connecting to a current source and is an input of the distributor. The board contains current regulation channels, and each of the channels, of which, for example, six, is an independent current regulation circuit in the joint protection system and allows you to connect one or more underground metal structures that are not connected to grounded equipment. Each of the channels contains an adjustable current stabilizer 1 ₁ -1 _6, respectively (the first current stabilizer 1 _{1 is the} sixth current stabilizer 1 ₆ ), the control input of which is connected to the output of the protective potential sensor 2 ₁ -2 _6, respectively (the first protective potential sensor 2 ₁ - of the sixth protective potential sensor 2 ₆ ), which together provide automatic regulation of the protective current of the corresponding channel. The output of each of the adjustable current stabilizers 1 ₁ -1 ₆ is the input for connecting to the underground technological equipment of the gas distribution station. The number of current regulation channels from 6 to 10 is determined by the number of protected objects connected to the device.

In an example of a specific implementation, adjustable current stabilizers 1 ₆ -1 ₆ are manufactured by the industry and are purchased units [adjustable stabilizer brand AMC7140 manufactured by ADDtek Corp. Taiwan], Protective potential sensors 2 ₁ -2 _{6 are} also manufactured by the industry and are purchased units [copper sulfate reference electrodes non-polarizing grade ESMS-VE.PVEK produced by OOO NPK Technoprom, Russian Federation].

Consider the proposed technical solution in use.

As a rule, GDS underground utilities include 5-6 process pipelines of various diameters with a length of 7 to 40 meters (spark plug line, line to the condensate collection tank, line to the odorant storage tank, fuel gas line, line from the gas heater to the reduction unit), condensate collection tank and odorant storage tank. For electrochemical protection of process pipelines, a low protective current in the range of about 10 mA is required, provided that they are not galvanically coupled to grounded equipment. The utility model is supposed to be used at the gas distribution station, using the protective current of the gas pipeline branch.

An input gas pipeline-branch is connected to the "Input" terminal, underground technological equipment of the gas distribution station is connected to the terminals "1 ... 6" with a copper cable with a cross section of 1.5-4 mm ² . Protective potential sensors 2 ₁ -2 _{6 of the} protected object are connected to the control input of the adjustable current stabilizers 1 ₁ -1 _{6 of each of the channels.} The installation of the protective potential on the protected structure is carried out by automatic adjustment of the protective current value of the corresponding distributor channel, depending on the value of the signal received from the protective potential sensor.

The proposed design of the current distributor provides automatic distribution of the ECP current to the underground technological equipment of the gas distribution station in the range from 0 to 10 mA. Thus, the technical problem has been solved and the technical result has been achieved.

The analysis of known technical solutions, carried out on the basis of scientific, technical and patent documentation, showed that the set of essential features of the proposed technical solution is unknown from the prior art, therefore, it meets the conditions of patentability of a utility model novelty.

The claimed technical solution is industrially applicable and manufactured on standard equipment using modern materials and technologies.

Claims (1)

An automatic protective current distributor containing a fiberglass board with a printed circuit board having an input that is an output for connecting to a current source and is an input of a distributor containing current regulation channels, characterized in that each of the current regulation channels, which are from 6 to 10 , contains an adjustable current stabilizer, the control input of which is connected to the output of the protective potential sensor, and the output of each of the current stabilizers is the input for connecting to the equipment.

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