RU219257U1 - SWITCHING STAND FOR TROUBLESHOOTING OF ELECTROCHEMICAL PROTECTION SYSTEM AND CORROSION MONITORING - Google Patents

Abstract

The switching stand for troubleshooting the system of electrochemical protection and corrosion monitoring belongs to the field of electronic engineering and can be used to identify and diagnose inoperable system components. This utility model, which is a case made of composite material, on the front panel of which there are terminal blocks for connection and a screen for displaying the value of direct voltage at the measured terminals. Inside the housing there is a removable diagnostic unit with the necessary, depending on the type of cathodic protection installation, electrical boards. Allows you to determine the failed element of the system without dismantling it. The technical result of the utility model is expressed in reducing the downtime of cathodic protection installations and the prompt repair of corrosion monitoring systems.

Description

The switching stand for troubleshooting the system of electrochemical protection and corrosion monitoring belongs to the field of electronic engineering and can be used to identify and diagnose inoperable system components. At present, taking into account the significant improvement, but at the same time, the complication of electronic circuits for measuring, controlling, regulating, there are failures of elements of electrochemical protection and corrosion monitoring systems.

The purpose of creating this utility model is the timely and more accurate detection of malfunctions of units, modules, devices of the electrochemical protection system in order to reduce the downtime of cathodic protection installations and prompt repair of corrosion monitoring systems.

A device for checking electronic circuits is known (patent US 5315237 A), which consists of a control unit, a reference generator, a switch, a comparison device, an indication system and allows for continuous tolerance control of one hundred parameters with signaling that any of them are outside the established tolerances. At the same time, on the screen of the video monitoring device, information is generated about the current values of the monitored parameters, indicating their ownership, tolerance limits and numbers of parameters that have gone beyond the tolerance field. However, the mode of functional diagnostics used here (passive experiment) does not allow minimizing the diagnostic procedure: for example, in the specified device for monitoring by one hundred parameters, it is necessary to have one hundred poles for reading information from the object of diagnosis. In addition, the deviation of one or another parameter is controlled, but the structural unit of the diagnostic object is not detected, as a result of a malfunction of which the deviation of this parameter occurred.

A device for automated monitoring and troubleshooting in electronic equipment is known (patent RU 2309445). The device contains a control panel, a block for generating a matrix of permissible values, a circuit for indicating numbers of threshold sensors, a decoder for status codes, threshold sensors built into the control object, logical elements "NOT", a circuit for indicating a failed element, while the block for generating a matrix of permissible values consists of a block pairwise comparison of columns, block of logical transformations, blocks of formation of sets, block of comparison, block of selection of the minimum set.

The disadvantages of the known technical solution are:

technical complexity of the device - the need for threshold sensors, a circuit for indicating a failed element;

the lack of a solution for the search for reversible defects in the circuits under test: if at the time of checking the circuits the defect did not appear (was reversible), then it is not possible to identify it (the defect);

lack of solutions for testing circuits (devices) powered by autonomous sources (accumulators, batteries, etc.), as well as from other power sources with unstable (changing within certain limits) voltage by changing the supply voltage during testing.

This application proposes a switching stand for troubleshooting a system of electrochemical protection and corrosion monitoring (figure 1, figure 2), which is a housing made of composite material (1), on the front panel of which there are terminal blocks for connecting to corrosion monitoring contact groups (2 ) and means of electrochemical protection (3, 4), screen (5) for displaying the value of direct voltage at the measured terminals, power supply (6). Inside the housing there is a removable diagnostic unit (7) with the necessary, depending on the type of cathodic protection installation, electric boards (8). The connection between the block and the stand is carried out with the help of a block connector (9). Using the switching buttons (10), the measurement mode is selected "U _prot " (displaying the protective potential "pipe-to-ground") or "U _supply " (displaying the value of the supply voltage for corrosion monitoring).

If the control unit or the corrosion monitoring unit of the cathodic protection station displays the signal "ACCESS", the maintenance personnel must disconnect the cable data transmission lines at the control and measuring point, dismantle the measurement unit and the surge protection device. After that, proceed to the disassembly of the cases for instrumental or visual troubleshooting. All these operations are performed outdoors, regardless of weather conditions and temperatures. The principle of operation of the proposed switching stand is that using measuring wires with a crocodile clip, it is necessary to connect the stand's outputs in series to the corresponding terminals in the control and measuring point or cathodic protection station, thereby it is possible to determine the failed element of the system without performing it dismantling. This device allows you to get a positive effect, consisting in:

1. a significant reduction in labor costs and working time to detect a malfunction, due to the absence of the need to dismantle and disassemble the components of the ECP system;

2. determining the criticality and the impact of the failure on the further operation of the cathodic protection unit;

3. Reducing the downtime of the cathodic protection installation.

Claims (1)

Switching stand for troubleshooting the system of electrochemical protection and corrosion monitoring, including a housing made of composite material, on the front panel of which there are terminal blocks that provide the ability to connect to the contact groups of corrosion monitoring and electrochemical protection, a screen for displaying the value of direct voltage at the measured terminals, a power supply , buttons for switching between measurement modes, inside the housing there is a connector block with the ability to connect a diagnostic unit with the necessary, depending on the type of cathodic protection installation, electric boards.

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