KR20160001258U - Reference electrode of dual structure for potential measurement - Google Patents

Abstract

The present invention discloses a reference electrode having a dual structure for measuring an electric potential. In this embodiment, a double reference electrode made of a different material is formed in a single housing. Thus, even if the reference electrode is installed for a long period of time, And it is possible to reduce the cost due to the short replacement period of the reference electrode and to improve the corrosion state monitoring performance of the pedestrian by the reference electrode.

Description

Reference electrode of dual structure for potential measurement [

The present invention relates to a reference electrode for measuring a corrosion state of a corrosion object such as gas piping, oil pipeline, water supply and drainage pipe, various tanks of a petrochemical complex, and other underground metal structures, and more particularly, It is possible to construct a double reference electrode composed of different members in a single housing so as to improve the use period of the reference electrode installed for measurement so that the measurement of the potential of the reference electrode for potential measurement can be performed for a long time without any error, And a reference electrode having a double structure for potential measurement, which can improve the corrosion state monitoring performance.

Generally, the term "corrosion" refers to "a phenomenon in which a metal is consumed by an external action ", and is mostly caused by an electrochemical reaction due to the movement of electrons.

Also, the term " system "refers to the removal or suppression of one or more of the factors causing corrosion.

One of the most widely used methods in the field of the art is the electric method, which suppresses the anodic reaction. The principle of the electric method is that the corrosion of the metal occurs in the portion where the current flows out through the electrolyte from the metal surface. Therefore, when a DC component (direct current) is injected into the metal surface through the electrolyte, the negative electrode reaction occurs on the metal surface, .

When such an electric method is used, a positive electrode is disposed at a predetermined distance from the subject of the method, and a voltage difference between the positive electrode and the subject is determined within a predetermined range (for example, -850 To -1500 mV). In this case, the voltage difference between the anode and the resting object should be controlled by feeding back the potential of the reference electrode.

At this time, the reference electrode is disclosed in Korean Utility Model Registration No. 20-0377964 (published on March 3, 2005).

That is, the reference electrode of the line registration technique is constituted by coupling an upper cap having a copper electrode fixed to an upper portion of the case while containing copper sulfate solution (CuSO ₄ ) inside the case, and a lower cap And a porous tip is connected between the case and the lower cap so that a small amount of copper sulfate solution can be flowed out to allow current to flow.

However, the reference electrode of the line registration technique has a disadvantage that its period of use is limited.

That is, when the reference electrode for measuring electric potential is installed on or around the subject of the walk way, particularly when a reference electrode is provided in the ground for measuring the electric potential of the underwater way subject, leakage of the copper sulfate solution contained in the case occurs. There has been a problem that the measurement of the potential of the reference electrode becomes poor due to the leakage phenomenon.

Therefore, the technique of preventing the unnecessary leakage of the copper sulfate solution in the line registration technology has been proposed. However, in the line registration technique, the effect of the reference electrode is inevitably reduced when the reference electrode is installed for a long period of time. There has been an inconvenience to be replaced.

That is, if the replacement period of the reference electrode is prolonged, an error occurs in the measurement of the potential by the reference electrode. Since the user can not confirm such an error, conventionally, the reference electrode has only to be replaced from time to time.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a double reference electrode made of different materials in a single housing, And to improve the corrosion state monitoring performance of the subject by the reference electrode while reducing the cost due to the short replacement period of the reference electrode.

In order to achieve the above object, the present invention provides a reference electrode having a double structure for measuring a potential, comprising: a single housing; A first reference electrode received within the single housing; And a second reference electrode fixed to the upper end of the first reference electrode inside the single housing; And a first measurement line and a second measurement line are connected to the first reference electrode and the second reference electrode for transmitting potential measurement information, respectively.

The first reference electrode may include a case in which a copper sulfate solution (CuSO ₄ ) is accommodated; An upper cap sealingly coupled to the upper portion of the case through a first sealing material; A copper electrode passing through the upper cap and connected to the first measurement line at one end and extending to the copper sulfate solution at the other end; A lower cap sealingly coupled to a lower portion of the case through a second sealing member; And a porous tip coupled between the case and the lower cap and enabling current to flow therethrough; .

The second reference electrode is a metal electrode which is fixed to the upper end of the copper electrode, which is the first reference electrode, at the inner upper end of the single housing and to which the second measurement line is connected.

The metal electrode may be one of a zinc (Zn) electrode, a saturated calomel (SCE) electrode, and a silver chloride (Ag / AgCl) electrode.

The underground mounting portion 40 is formed with a step 42 with a terminal terminal 41 connected to the underground object and the first pipe lead L3, The first and second mounting holes 51 and 52 are formed in the lid 50 and the first and second mounting holes 51 and 51 are formed in the lid 50, The terminals 60 connected to the terminal terminal 41 and the second pipeline lead L4 are installed to be exposed on the ground surface so that the potential measurement for the object to be measured can be made on the ground, A single housing 10 having the first reference electrode 20 or the second reference electrode 30 is installed to be exposed on the ground surface.

As described above, in the present invention, a double reference electrode made of different materials is formed in a single housing, thereby preventing errors in the measurement of the potential even if the installation period of the reference electrode is prolonged, It is possible to expect the effect of improving the corrosion state monitoring performance of the object to be protected by the reference electrode.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a reference electrode having a dual structure for potential measurement according to an embodiment of the present invention; FIG.
FIG. 2 is an assembled cross-sectional view of a dual structure reference electrode for potential measurement as an embodiment of the present invention; FIG.
3 is a cross-sectional schematic view showing a state in which a reference electrode having a dual structure is buried in the ground as an embodiment of the present invention.
FIG. 4 is a schematic cross-sectional view showing a single housing having a first reference electrode and / or a second reference electrode installed to be exposed on the ground surface according to another embodiment of the present invention; FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of a reference electrode having a double structure for measuring an electric potential according to an embodiment of the present invention, FIG. 2 is an embodiment of the present invention, 1 is a schematic cross-sectional view showing a state in which a reference electrode having a dual structure is buried in the ground.

Referring to FIGS. 1 to 3, a reference electrode having a dual structure for measuring an electric potential according to an embodiment of the present invention includes a first reference electrode 20 and a second reference electrode 20 in one single housing 10, A first measurement line L1 is connected to the first reference electrode 20 and the measurement line independent of the first reference electrode 20 and the second reference electrode 30, And a second measurement line L2 is connected to the second reference electrode 30 so that the first reference electrode 20 or the second reference electrode 30 is used, And the electrodes 20 and 30 are all used.

The first reference electrode 20 includes a case 21 in which copper sulfate solution CuSO ₄ is accommodated and an upper cap 22 sealingly connected to the upper portion of the case 21 through a first sealing member 22a. A copper electrode 23 penetrating through the upper cap 22 and connected to the first measurement line L1 at one end and extending to the copper sulfate solution at the other end and a second sealing member And a porous tip (25) coupled between the case (21) and the lower cap (24) and allowing current to flow therethrough. The lower cap (24) One reference electrode 20 has the same or slightly different deviation as the reference electrode described in the background art of the present invention, but the operation is the same.

On the other hand, the second reference electrode 30 is fixed to the upper end of the copper electrode 23 constituting the first reference electrode 20 at the inner upper end of the single housing 10, and the second measurement line L2 (SC) electrode, and a silver chloride (Ag / AgCl) electrode as a metal material.

Meanwhile, when the first and second reference electrodes 20 and 30 are formed in one single housing 10 as described above, the first and second reference electrodes 20 and 30 When a single housing 10 including a plurality of electrodes is buried in or around the perimeter of the pedestal object 100 and the method potential of the pedestal object 100 or the system potential is measured by the pedestal system, By connecting test rods of the potential measuring device (not shown) to the first measurement line L1 and / or the second measurement line L2 connected to the first reference line 20 and / or the second reference electrode 30, The potential value of the object 100 can be measured.

In this case, when the potential measurement is performed using only the first reference electrode 20, the potential measurement is performed using the positive electrode of the potential measuring apparatus, the object 100 to be measured, the ground, the porous tip 25, The electric potential measurement value for the object to be measured 100 can be displayed on the electric potential measuring apparatus while the electric current flows to the common electrode of the electric potential measuring apparatus through the solution, the copper electrode 22 and the first measuring line L1 It is.

When the potential measurement is performed using only the second reference electrode 30, the potential measurement is performed using a positive electrode of the potential measuring apparatus, the object 100, the ground surface, zinc (Zn Current flows from one electrode among the electrodes (electrode), the saturated calomel electrode (SCE) electrode and the silver chloride (Ag / AgCl) electrode to the common electrode of the electric potential measuring apparatus through the second measuring line (L2) ) Can be displayed on the electric potential measuring apparatus.

Here, if both the first and second reference electrodes 20 and 30 are used, the accuracy of the potential measurement value for monitoring the corrosion state of the pedestrian 100 can be improved.

That is, when measuring the potential for monitoring the corrosion state of the pedestrian 100 in a state where the reference electrode is installed in the ground, an error in the potential measured by the first reference electrode 20 and the second reference electrode 30 When a potential value measured at each of the first and second reference electrodes 20 and 30 is displayed on the potential measuring device when the generated potential is not able to be detected at which electrode, When a deviation occurs, the user can determine that an error in the measurement of the potential has occurred in any one of the first and second reference electrodes 20 and 30, and thus the electrode in which the error has occurred can be replaced.

Even if the leakage of the copper sulfate solution from the first reference electrode 20 or the measurement error occurs in the state where the first and second reference electrodes 20 and 30 are simultaneously formed in the single housing 10 as described above, Since the potential can be measured through the second reference electrode 30 which is another electrode included in the single housing 10, it is possible to measure the potential at the time of measuring the potential with respect to the hinged object 100 using only a single first reference electrode 20. [ It is expected that the discomfort, that is, the inconvenience that the reference electrode always needs to be checked regularly at all times, can be expected.

4 illustrates another embodiment of the present invention in which the single housing 10 and the terminal 60 constituting the first reference electrode 20 and / or the second reference electrode 30 are exposed to the ground So that the potential measurement on the hinged object 100 can be performed more easily on the ground.

For this purpose, in another embodiment of the present invention, as shown in FIG. 4, a step 42 in which a terminal object 41 connected with the first pipeline lead L3 is installed is provided in the underground way object 100 The ground opening portion of the underground mounting portion 40 is configured to be hermetically sealed by the lid 50 covering the step 42 while the lid 50 is structured so as to be closed, A terminal 60 connected to the terminal terminal 41 through the second pipe lead L4 is connected to the first installation hole 51 after the first and second installation holes 51 and 52 are formed And a single housing 10 having a first reference electrode 20 and / or a second reference electrode 30 is installed in the second installation hole 52 so as to be exposed on the ground surface .

Then, even if the user does not open the lid 50 on the ground, the lid 50 may include the terminal 60 exposed on the ground surface and the first reference electrode 20 and / or the second reference electrode 30 The first reference electrode 20 of the single housing 10 can be easily measured by connecting a potential measuring device to the single housing 10, And / or the maintenance of the second reference electrode 30 can be performed more easily on the ground.

Although the technical idea of the dual structure reference electrode for potential measurement of the present invention has been described above with reference to the accompanying drawings, it is to be understood that the present invention is by way of example only and is not intended to limit the present invention.

Accordingly, it is intended that the present invention not be limited to the particular preferred embodiments described herein, and that it will be apparent to those skilled in the art that various modifications may be made thereto without departing from the spirit of the invention, It is to be understood that such changes and modifications are within the scope of the claims.

10; A single housing 20; The first reference electrode
21; Case 22; Upper cap
22a; A first sealing member 23; Copper electrode
24; A lower cap 24a; The second sealing material
25; Porous tip 30; The second reference electrode
40; An underground installation part 41; Terminal terminal
42; Step 50; cover
51; A first installation hole 52; Second installation hole
60; Terminal L1; The first measuring line
L2; A second measurement line L3; The first pipeline lead wire
L4; Second piping lead wire

Claims (5)

A single housing;
A first reference electrode received within the single housing; And
A second reference electrode fixed to the upper end of the first reference electrode inside the single housing; / RTI >
Wherein the first measurement line and the second measurement line are connected to the first reference electrode and the second reference electrode, respectively, for transmitting the potential measurement information to the first reference electrode and the second reference electrode. The plasma display apparatus of claim 1, wherein the first reference electrode comprises:
A case in which a copper sulfate solution (CuSO ₄ ) is accommodated;
An upper cap sealingly coupled to the upper portion of the case through a first sealing material;
A copper electrode passing through the upper cap and connected to the first measurement line at one end and extending to the copper sulfate solution at the other end;
A lower cap sealingly coupled to a lower portion of the case through a second sealing member; And
A porous tip coupled between the case and the lower cap and allowing flow of current; The reference electrode having a double structure for potential measurement. The method according to claim 1,
Wherein the second reference electrode is a metal electrode fixed to an upper end of the copper electrode forming the first reference electrode at the upper end of the inner housing and connected to the second measurement line. Of reference electrode. The reference electrode according to claim 3, wherein the metal electrode is one of a zinc (Zn) electrode, a saturated calomel (SCE) electrode, and a silver chloride (Ag / AgCl) electrode. The method according to claim 1,
Wherein the underground installation part is formed with stepped ends provided with terminal terminals connected to the first type of pipeline lead wires,
Wherein the ground opening of the underground mounting portion is configured to be closed by a cover that covers the step,
The lid has first and second mounting holes,
A terminal connected to the terminal terminal and the second pipe lead wire is installed in the first installation hole so as to be exposed on the ground surface,
And a single housing having the first reference electrode or the second reference electrode is installed in the second installation hole so as to be exposed on the ground surface.

Images