KR810001458Y1 - Pole for measurement of oxidation and restoration potential - Google Patents

Abstract

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Description

Redox potential measurement electrode

1 is a perspective view illustrating the embodiment of the potential measurement electrode according to the present invention.

2 is a sectional view of the statue.

3A to 3E are schematic cross-sectional views showing modifications of ordinary metal electrodes, respectively.

4 and 5 are cross-sectional views of the main parts each showing another embodiment.

6A, 7B, and 7 are a sectional view and a partially cut-out front view which respectively show the prior art example.

The present invention, for example, in the lactic acid measurement method by a chemical oxygen demand (COD) measuring device, the electrode surface is coated with silver chloride (AgCl) reacted with chlorine ions in the test liquid The present invention relates to an electrode for measuring redox potential (ORP), which has been devised by such means as preventing contamination of the electrode surface, causing delay in response, and preventing the measurement from becoming unmeasurable.

For example, as shown in FIG. 6A, the metal pole 1 is mounted on the tip of the plastic body 2 by pressing the screw 6 and the packing 5, and then placed at the inner end of the metal pole 1; The electrode for ORP measurement in which the lead wire 8 was drawn out with the relay thin wire 7 interposed therebetween, or as shown in FIG. 6B, the metal electrode installed at the tip of the glass body 2 ( When measuring the ORP by immersing the ORP measuring electrode and the comparative electrode (not shown) in which the lead wire 8 is drawn by inserting the relay fine wire 7 at the inner end of 1) in the test liquid. AgCl or the like is coated on the surface of the metal electrode 1, or other dirt is attached to the surface of the metal electrode 1, which often hinders normal measurement.

Therefore, in the past, attempts have been made to maintain the normal measurement function by periodically cleaning the metal poles periodically.

FIG. 7 shows an example thereof. The jet cleaning nozzle 16 is disposed to face the tip of the metal electrode 1 immersed in the test liquid, and the cleaning of the air jet or the like is controlled by the controller 17 prepared in advance. The medium is attached to the metal electrode 1 to remove AgCl or the like.

In the ORP measuring electrode of this type, it is necessary to accurately set the positional relationship between the metal electrode 1 and the jet cleaning nozzle 16, but the cleaning medium supply pipe 18 in the liquid is used for the reaction of the air jet ( It is easy to swing due to the reaction and the water flow. Therefore, it is difficult to adjust the position of the nozzle 16, and it is difficult to effectively clean the surface of the metal electrode 1, and furthermore, apart from the metal electrode 1 and the like. Since the jet cleaning line 16, piping unit, and the like are provided near the metal electrode 1, there are drawbacks such as a complicated structure and a combination which tend to become expensive.

This invention solves these drawbacks by making a metal pole into a hollow cylinder, and giving a metal nozzle itself a nozzle function. An embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1 and FIG. 2, the inner diameter 2- of the metal electrode 1 made of a noble metal such as gold and platinum is closed. It is formed in a hollow cylinder of about 4 mm, and the upper end side of this ordinary metal electrode 1 is formed in the inner hole of the glass or plastic body 2. (3) and secured by an annular packing (5) contacting the inclined end portion (4) formed on the inner surface of the inner hole (3) and a pressing screw (6) screwed to the body (2). At the same time, the lead wire 8 is drawn out from the upper end of the ordinary metal electrode 1 by sandwiching the relay thin wire 7 made of the same or different type of metal as the pole 1.

On the side of the body 2, a connecting medium 10 for connecting the cleaning medium supplying pump (or tank) and the cleaning medium supplying unit 9, which is an electromagnetic valve, to the inner hole 3, is provided. A plurality of cleaning medium supply ports 11 communicating with the inner hole 3 are provided in the circumferential direction on the upper side wall portion of the upper side wall, and inclined to the side wall portion on the lower side of the normal metal electrode 1. A plurality of cleaning medium ejection openings 12 directed downward; … Zigzag shape, spiral shape and so on.

13 is an electrode cap.

The ORP measuring electrode of the above-described configuration uses, for example, a pump of the supply unit 9 to supply air having a pressure of 0.1 to 0.3 kg / cm 2 and a flow rate of 0.21 / min to 21 / min. 3) Send to In this case, the air enters into the metal electrode 1 via the supply port 11, and is bubbled into the test liquid through the air outlet 12 of the open portion and the side wall portion of the lower end of the metal electrode 1, The dirt (attachment) on the surface of the pole (1) is removed.

In addition, according to the property of a test liquid, said washing | cleaning may be performed continuously in parallel with ORP measurement, and when it is a bad influence on a measurement value indication for continuous washing | cleaning, it shall be performed periodically and intermittently.

3A to 3E show modified examples of the normal metal electrode 1, respectively, and in FIG. 3A, only the lower end portion of the normal metal electrode 1 is formed of the normal precious metal 1a, and the other The part is formed of a double metal (1b), characterized by reducing the amount of precious metal used.

FIG. 3B shows the normal metal electrode 1 between the reinforcing cylinder 1A made of a suitable material such as corrosion-resistant metal, glass, plastic, etc., and the thin precious metal 1B normally detected on the outer circumferential surface thereof. The double layer structure is characterized by the reduction of the use of precious metals. FIG. 3c is the same double layer structure as in FIG. 3b, and the use of the precious metal is reduced. In the double layer structure having the same degree, the thin noble metal 1B is bonded to the inner circumferential surface of the reinforcing cylinder 1A.

FIG. 3D is characterized in that the noble metal 1 is usually formed in a user shape, whereby the cleaning medium is strongly ejected from the ejection port 12 of the side wall, thereby enhancing the cleaning effect. (e) is a point where the metal tip 1 is formed to have a small diameter as small as the open side of the lower end so that the cleaning medium is strongly ejected from the ejection opening 12 to enhance the cleaning effect. It is characterized by.

As the cleaning medium, an inert gas may be used in addition to air, and the same effect can be obtained by using washing water or a chemical liquid. Although not shown, the supply port 11 in the side wall portion of the upper side of the ordinary metal electrode 1. … In place of the above, the normal metal electrode 1 may be formed in the shape of an open top, and the open portion may be formed in the cleaning medium supply port 12.

The cleaning medium jet opening 12 may be installed in a downward direction, inclined downward, or inclined upwardly or laterally, or a combination thereof may be carried out in an appropriate direction. As shown in FIG. 4, the guide 14 of the cleaning medium may be provided along the upper portion of the jet port 12. FIG.

In addition, as shown in FIG. 5, when the protective cover 15 is formed by providing a suitable gap in the outer peripheral portion of the ordinary metal electrode 1, it is carried out. In addition to preventing damage to the ordinary metal electrode 1 due to contact with and contact with the liquid, the cleaning medium ejected from the ejection opening 12 is reflected from the inner surface of the protective cover 15 to stir the test liquid. The cleaning effect on the surface of the ordinary metal electrode 1 is improved.

As described above in accordance with each embodiment, according to the present invention, since the metal electrode is made hollow and normally has a nozzle function for cleaning the metal pole itself, as with the conventional apparatus described above, There is no need to adjust the position to find the optimum point in the installation of the nozzle unit, and there is no fear that the positional relationship between the two is wrong. Therefore, effective cleaning of the surface of the metal electrode is possible, and furthermore, since the metal electrode itself has a nozzle function, it is smaller in size than when a nozzle unit, such as a nozzle, a cleaning medium supply pipe, or the like is placed near the metal electrode. In addition, the connection parts for laying them, the labor is omitted, and it is economical as a whole.

In particular, when the normal metal electrode has a double layered structure of a thin thin noble metal and a steel cylinder for ordinary use, it can be carried out more economically by reducing the usage of the noble metal.

In addition, when the user metal or the tip is generally thin in the normal metal electrode, the ejection speed and the ejection amount of the cleaning medium at the ejection opening provided in the side wall portion can be increased, and the cleaning effect can be further enhanced.

Claims (1)

As shown in the drawing, the metal electrode 1 has a double layer structure of a normal noble metal foil 1B and a reinforcing cylinder A, which has a thin user shape and a tip, and is formed in a hollow shape. An electrode for redox potential measurement, characterized in that a supply opening (11) of a metal pole cleaning medium is provided above (1), and an outlet (12) of the cleaning medium is provided in a lower wall portion.