KR200270471Y1 - Device for detecting current through anti-corroded object in an electric anti-corrosion system - Google Patents

Abstract

The present invention relates to a current flow detector for detecting the flow of current to the object in the electrical system for preventing corrosion of the pipes buried underground.

That is, the present invention forms a fastening portion 30 having a screw hole 32 in the upper and lower ends of the semi-circular body in which the induction coil 20 is wound, and a pair of measurers coated with the insulator 40 as a whole. (10) (11), butt bolted to the circumference of the object 90 to be electrically operated using an external power source, the lower end of the induction coil (20) of the two measuring instruments (10) (11) conducting wire (50) Connected to each other, the upper end of the induction coil 20 of the one side measuring instrument 11 and the ground measuring instrument 60 is connected to the conductor 51 by covering the conductor connecting portion and the bolt nut coupling portion with the insulator 41 It can not only improve the safety of the object through the electrical method because it can accurately detect the abnormality of the method, but also it is easy to measure the current flow of the object using the ground gauge. The time can be greatly reduced, which is a very economical advantage.

Description

Electronic current flow detector of electric equipment {DEVICE FOR DETECTING CURRENT THROUGH ANTI-CORRODED OBJECT IN AN ELECTRIC ANTI-CORROSION SYSTEM}

The present invention relates to a current flow detector for detecting the flow of current to the object in the electrical system for preventing corrosion of pipes buried underground, more specifically induction around the object By installing a coil-wound detector to measure the amount of induced current of the detector on the ground, it is possible to identify the mode of the object and to find the point at the time of grounding or damage of the superficial body.

The electric method is a method of artificially controlling the potential of a metal structure to suppress the anodic reaction, which is a corrosion reaction, and by lowering the potential by artificially applying an electric current to a structure that is undergoing corrosion at a natural potential or higher. It is to prevent the corrosion of the structure by suppressing the anode reaction which is a corrosion reaction by cathodic.

Such electric methods include sacrificial anode method, external power method, and drainage method. A direct current power supply is connected between the anode and the object to be installed in the soil and the corrosion current is introduced into the object through the electrolyte (soil) from the anode. The external power supply method is commonly used, and this method is currently used for the pipes of Korea Gas Corporation.

However, since the electric method described above is non-permanent, it is essential to regularly check the state of the object. In general, since the object is buried underground, it is necessary to regularly check the state of the object. Although a ground measuring device is installed at every fixed section of the pipe to be used, the method is used to check the corrosion state of the object by measuring the corrosion potential, the corrosion current, and the potential of the sacrificial anode. The conventional method can only grasp the state of the corrosion of the object, and can not identify the abnormality of the specific part due to the leakage current of the subway or the grounding with other piping such as a water pipe. Even if found, it requires a lot of manpower and time due to the overhaul of the entire workpiece. There was.

The present invention has been made to solve the above-mentioned conventional problems, by installing a sensor with a built-in induction coil to detect the flow of current around the object to be detected of the object through the sensor By checking the flow of current through the measuring instrument on the ground, not only can the abnormality of the object be detected, but also the detector is installed at a certain interval on the object to easily detect the abnormality of the object in a specific section. This will be described in detail with reference to the accompanying drawings as follows.

1 is a cross-sectional view of the subject innovation

2 is an exemplary view showing an embodiment of the present invention

3 is an exemplary view showing the configuration of an external power supply method of a general electric method;

* Explanation of symbols for the main parts of the drawings

10, 11 measurer 20: induction coil

30: fastening portion 32: screw hole

40, 41: insulator 50, 51: lead wire

60: ground meter 70: power supply

80 durable electrode 90 body

A pair of measuring members 10 and 11 having a fastening portion 30 having a screw hole 32 formed on the upper and lower ends of the semi-circular body in which the induction coil 20 is wound and the whole body coated with an insulator 40. ), But the bolt nut is coupled against the periphery of the object 90 to be electrically operated using an external power source, and the lower ends of the induction coil 20 of the two measuring instruments 10, 11 are connected to each other with a conductor 50, After connecting the upper end of the induction coil 20 and the ground measuring device 60 of the one side measuring instrument 11 with the conductive wire 51, the conductor connecting portion and the bolt nut coupling portion is coated with an insulator 41.

The present invention as described above is attached to the durable electrode 80 to the positive terminal of the external DC power supply of the power supply device 70 of the electrical method as shown in Figure 3 embedded in the durable electrode 80 underground In the external power method in which the anticorrosive current flows from the electrode to the to-be-tested object through the soil by connecting the negative terminal to the underground-to-be-formed object 90, the perimeter of the object to be buried underground After coupling the pair of measuring members (10) and (11) wound around the induction coil (20) to the bolt nut, the induction coils (20) of both the measuring members (10) and (11) are connected to each other by a conductor (50), thereby being integrated. The induction coil 20 is configured to connect the induction coil 20 and the ground measuring device 60 of one side measuring member 11 with a conductive wire 51.

Thus, when a certain amperage of current is supplied from the power supply device 70 to the object 90 for the electric method, the meter 10 and 11 coupled to the circumference of the object by the flow of this current. An induction current is generated in the induction coil 20 wound inside of the induction current, and the induction current is transferred to the ground measuring device 60 by taking the conductor 51. The ground measuring device 60 can measure the amount of current like a tester. Since the measurement by using a detector that can check the flow of current to the object 90.

That is, when the induction current value is measured by using the ground measuring device 60, when the current of a certain amp is supplied from the power supply device 70 for the electric method, it normally occurs in the induction coil 20 of the measurers 10 and 11. When the induced current value is shown, it can be seen that the current flows normally in the to-be-tested object 90, so that the electric method by the external power method is normally performed, but other pipes such as a water pipe are grounded to the to-be-tested object 90. Or other factors such that the current supplied through the power supply device 70 is grounded by other piping or other factors that are grounded to the object 90, so that current does not flow normally in the object 90. When the induction current does not normally occur in the induction coil 20 of the measurer 10 or 11, the abnormal flow of the current of the to-be-measured object 90 is confirmed by checking the ground current 60. Since it can be confirmed that will be able to detect the abnormality of the method to the object 90.

On the other hand, if the current flow detector of the present invention is installed at a predetermined interval on the to-be-tested object 90 and the normal flow of the current for the to-be-tested object 90 is measured for each section, a specific section of the to-be-tested object 90 If an abnormality occurs, it is easy to check the abnormality of the object 90, and the installation distance of the current flow detector can be from several meters to several tens of kilometers, but usually at intervals of about 300 meters. It will be the most economical to install.

In addition, the embodiment of the present invention is not limited to this as described based on the most preferred example, in particular, the shape of the measurer in consideration of the shape of the general pipe and described for the ease of fastening based on a semi-circular shape, but the arc or polygon is divided into Even if it is a form which is fastened to a to-be-formed object, any form may be said.

In addition, the material of the measurer is not limited, but silicon steel sheet is mainly used in consideration of various problems in production, and it is revealed in advance that various insulators such as synthetic resin PE, various insulating vinyl, and glue can be selectively used as the insulator coating the measurer. Two are.

Therefore, the present invention can not only improve the safety of the object through the electric method, but also by using the ground measuring device in the external power method of the electric method, because it can accurately detect the abnormality of the object. Since the current flow of the sieve is easy to measure, the manpower and time required for the inspection of the workpiece can be greatly reduced, which is very economical.

Claims (1)

A pair of measuring members 10 and 11 having a fastening portion 30 having a screw hole 32 formed on the upper and lower ends of the semi-circular body in which the induction coil 20 is wound and the whole body coated with an insulator 40. ), But the bolt nut is coupled against the periphery of the object 90 to be electrically operated using an external power source, and the lower ends of the induction coil 20 of the two measuring instruments 10, 11 are connected to each other with a conductor 50, After the upper side of the induction coil 20 of the one side measuring instrument 11 and the ground measuring instrument 60 is connected with the conductive wire 51, the electrical connection equipment and the bolt nut coupling part are covered with an insulator 41. Anticorrosive 90 Current Flow Detector