KR810001459Y1 - Pole for measurement of oxidation and restoration potential - Google Patents

Abstract

No content.

Description

Redox potential measuring electrode

1A and 1B are cross-sectional views showing electrodes for conventional ORP measurements.

2 is a cross-sectional view showing an ORP measuring electrode with a conventional cleaning device.

3 is a cross-sectional view showing an embodiment of the ORP measurement electrode according to the present invention.

4 is a cross-sectional view showing a modification of the metal electrode according to the present invention.

The present invention relates to an electrode for measuring a redox potential (hereinafter referred to as ORP), for example, in the acidic acid measurement method using a COD (Chemical Oxygen Demend) measuring device, It relates to an electrode in which a means of preventing the reaction surface from being coated by silver chloride (hereinafter referred to as AgCl) which is generated by reaction with ions, causing a delay in response and becoming unmeasurable.

Conventionally used ORP measuring electrodes are as shown in Figs. 1a and b, and little consideration has been given to the removal of coating of silver chloride or the like on the electrode surface.

The electrode shown in FIG. 1a is an electrode for measuring ORP used in a conventional COD measuring apparatus, and the electrode (1) is protected by a plastic body (2). , Tends to be coated on AgCl.

In addition, the electrode shown in FIG. 1b is a measurement electrode which is generally used, in which the platinum electrode 1 'is sealed with a glass body 2', but is coated with AgCl in the same manner as the electrode of FIG. 1a. Easy to be

In addition, (1) and (3 ') are electrode caps (4) and (4'), respectively, among the 1a, b.

FIG. 2 shows a conventional ORP measuring electrode equipped with a special cleaning device in consideration of the removal of the coating of silver chloride and the like. The air supply pipe 5 is located next to the metal electrode 1 ″. The tip nozzle 5a of the feed pipe 5 is placed under the metal electrode 1 ″, and an air jet is blown off the surface of the metal electrode 1 ″ from this nozzle 5a to produce a coating of AgCl. It is forbidden to squeeze, but the air supply pipe 5 in the water is oscillated due to the reaction of the jet or the water flow of the jet. Therefore, it is difficult to adjust the position of the nozzle 5a and Effective cleaning is difficult.

In addition, there is a method in which bubbles are released from the nozzle 5a to generate ultrasonic waves by rupture of the foam, thereby cleaning the electrode surface. However, the problem of alignment of the nozzle is not changed as described above.

Again, the conventional electrode as shown in FIG. 2 has a drawback that the washing apparatus becomes complicated, takes up extra space, and becomes expensive.

The present invention solves the above-mentioned drawbacks, and one embodiment of the following will be described with reference to FIG.

3 shows an electrode for measuring ORP used in a COD measuring apparatus, for example, in a glass or flanking cylindrical body 12 having an inner diameter of 2 to 3 mm, and having a diameter of 1 to 2 mm, for example. Insert the golden electrode 11 of the metal 11 to cover the middle portion of the golden electrode 11 with the body 12, and at the same time, the lower end of the metal electrode 11 protrudes only a proper length from the bottom of the body 12 to the bottom. A hollow body 13 made of plastic (e.g. polyethylene) is placed on the upper portion of the metal pole 11, and the lower end of the body 13 is placed on the upper end of the ordinary body 12 again. The body 13 and the body 12 are screwed together with the fastening screw 15 fixed to the body 12 at the lower position of the bush 14 while being caught by the installed seal bush 14. On the other hand, the upper part of the body 13 is a state in which the seal bush 16 through which the golden electrode 11 is penetrated deeply inserted into the central part thereof, and the joint protection part 17 of the hollow body. ), And the upper end of the metal electrode is joined to the lead wire 18 in the inside of the protective part 17 (the joint part is indicated by 11a). On top of the protective part 17, a cap 19 is attached. In addition, the seal bush 16 and the protective part 17 prevent the inspection from rising to the surface tension and contaminating the joint 11a.

Then, the air supply pipe 21 in the air pump 20 provided outside is connected to the air inlet 22 provided in the middle portion of the body 13, for example, 0.1 to 0.13 kg / cm 2. Air at a flow rate of 200 ml / min to 2 l / min is fed into the body 12 in the body 13. The air inlet 22 may be angled on the normal body 12 itself.

According to the electrode having such a configuration, the air supplied into the ordinary body 12 is ejected downward from the lower end of the normal body 1 along the tip of the golden electrode 11 and becomes a bubble during inspection, and this bubble is the golden electrode 11 ) Is always cleaned and the coating such as AgCl at the tip of the electrode 11 is removed. In addition, since the AgCl is hardly prominent with respect to the glass surface, the ordinary body 12 is preferably formed of glass.

Although air is used as the cleaning medium in the above embodiment, nitrogen gas may be used, or not only such a gas but also liquid such as water or chemical liquid.

In addition, as for the golden electrode 11, it is not necessary to use a long thing like inserting into the inside of the normal body 12 necessarily, and as shown in FIG. You may connect with the lead wire 28 using (21).

In this case, the lead wire 28 is used having a coating material 28a. Again, as the metal electrode of the present invention, silver and platinum can be used in addition to gold.

In the above embodiment, the ordinary body 12 and the body 13 may be formed integrally.

As described above, the electrode for measuring redox potential according to the present invention is constituted by separating a common body on the outer circumference of the metal electrode, and providing a cleaning medium supplying portion of the metal electrode on the ordinary body. In this case, the coating on the surface of the metal electrode projecting end such as AgCl during inspection can be prevented, and thus stable instruction can be obtained over a long period of time.

In addition, since the cleaning medium is released into the inspection in the ordinary body, the inspection is agitated by this, and the representativeness of the sample is improved.

In addition, the electrode of the present invention is manufactured at low cost since the structure of the cleaning device is simple, and furthermore, it is not necessary to make the adjustment and the like as described in the conventional example shown in FIG.

In addition, since the features of the present invention are the same as described above, the present invention may have a configuration in which a cylinder provided with a cleaning medium supply port for a metal electrode is mounted on a conventional ORP electrode.

Claims (1)

As shown in the figure, the redox dislocation measurement is performed by placing the ordinary body 12 on the outer circumference of the metal electrode 11 and providing the cleaning medium supply port of the metal electrode 11 on the ordinary body 12. electrode.