RU149335U1 - SENSOR FOR MEASURING THE POTENTIAL OF INTERNAL SURFACES OF STRUCTURES AND EQUIPMENT - Google Patents

Abstract

A potential measuring sensor for the internal surfaces of structures and equipment, comprising a dielectric housing with steel electrodes fixed therein with threaded steel rods and measuring wires, characterized in that it is further provided with a steel sleeve with a thread for introducing the sensor into an opening on the inner surface of the structure or equipment, a test lead connector with a cover, a reference electrode and a steel cover, while the dielectric body and the steel cover are threaded to cut bu steel bush.

Description

The utility model relates to the protection of metals from corrosion and monitoring, namely: to measure the corrosion rate and the potentials of metals in protecting against corrosion of the internal surfaces of structures and equipment and can be used in a wide variety of industries, construction, utilities and agriculture.

A three-electrode sensor in a Teflon housing is known, on the threaded rods of which the same cylindrical electrodes of the steel under test are screwed on to determine the corrosion rate of steel of structures and equipment with the Expert 004 corrosion meter using the linear polarization resistance method, consisting of the following elements: steel electrodes, threaded rods, dielectric housing, means for attaching electrodes to the housing and test leads [1].

The disadvantage of the existing sensor is that it is portable and can determine the corrosion rate of steel during fluid withdrawal into the cell, i.e. in stationary conditions, outside the zone of the inner surface, for example, an existing pipeline, this does not take into account the flow rate of the liquid and the potential value as the innermost surface of the pipe, incl. corroded and steel sensor electrodes protected to a metallic sheen.

The technical result of the utility model is to improve the quality of determining the corrosion rate and values of corrosion potentials, protecting the internal surfaces of existing structures and equipment, as well as saving during measurements.

The technical result is achieved by the fact that the sensor for measuring the potential of the internal surfaces of structures and equipment comprises a dielectric housing with steel electrodes fixed in it with threaded steel rods and measuring wires, while the sensor for measuring the potential of the internal surfaces of structures and equipment is additionally equipped with a steel sleeve for inputting the sensor into internal hole of the surface of the structure or equipment, a test lead connector with a cover, a reference electrode and a linen cover, while the dielectric housing and the steel cover are threaded under the thread of the steel sleeve.

The features and essence of the claimed utility model are explained in the following detailed description, illustrated by the drawing, which shows the following.

In FIG. 1 shows a sensor for measuring the potential of the internal surfaces of structures and equipment, where:

1 - reference electrode;

2 - steel electrodes;

3 - dielectric housing;

4 - threaded steel studs;

5 - epoxy glue;

6 - steel sleeve;

7 - a sealing ring;

8 - nuts;

9 - dielectric sealant;

10 - measuring wires;

11 - heat-shrinkable tube;

12 - gasket;

13 - steel cover;

14 - screw;

15 - washer;

16 - a cover of a socket of measuring wires;

17 - connector test leads.

A sensor for measuring the potential of the internal surfaces of structures and equipment works as follows. When placing the sensor in the pipeline so that all three steel electrodes 2 are in the same plane perpendicular to the fluid flow, and the reference electrode 1 is located behind them. The steel electrodes 2 and the reference electrode 1 are connected by 4-core copper measuring wires 10 to a corrosion meter, for example, Expert 004, which allows measuring both the corrosion rate and the potentials of the steel electrodes 2 and the inner surface themselves. In this case, the reference electrode 1 is evenly spaced both from the steel electrodes 2 and from the inner surface of the structure, thereby achieving a better measurement of the potentials of corrosion and protection. Providing the sensor with a connector of the measuring wires 17 eliminates the mechanical connection of each measuring wire to the electrodes using nuts 8 and wrenches, which increases labor productivity and the quality of measurements. Providing the sensor with an additional steel cover for the thread of the steel sleeve allows the sensor to be removed after measurements for conservation and the steel 6 sleeve tightly closed.

The efficiency of using the utility model lies in the fact that the quality of determining the corrosion rate and the values of corrosion potentials and protecting the internal surfaces of structures and equipment and the productivity of personnel increase. And the additional supply of the sensor with a steel cover with a thread for the thread of the steel sleeve allows, after using the sensor, to remove it from the building for conservation and to reliably seal the hole, and use the sensor repeatedly, i.e. save on measurements.

Information sources:

1. Anufriev N.G. New possibilities of using the linear polarization resistance method in corrosion studies and in practice. // Corrosion: materials, protection No. 1, C 36-43, 2012.

Claims (1)

A potential measuring sensor for the internal surfaces of structures and equipment, comprising a dielectric housing with steel electrodes fixed therein with threaded steel rods and measuring wires, characterized in that it is further provided with a steel sleeve with a thread for introducing the sensor into an opening on the inner surface of the structure or equipment, a test lead connector with a cover, a reference electrode and a steel cover, while the dielectric body and the steel cover are threaded to cut bu steel bush.

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