KR800000928Y1 - Electrode assembly for cathodic protection - Google Patents

Abstract

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Description

Electrocorrosion Prevention Electrode

1 and 2 are structural diagrams of electrodes for a conventional water heater.

2 is a structural diagram of an electrode for a water heater of the present invention.

The present invention relates to an electrode used to prevent corrosion of a container in a metal container such as a water heater, that is, to an electrode used for preventing electrical corrosion in which a current is passed between a container as a cathode and an electrode as an anode. .

Conventionally, an electrode for preventing corrosion of a water heater, such as a water heater, is made of an electrode 1 by decorating a platinum-plated line in a titanium line like a first tile into an elongated frame shape, which is formed on the tube wall by a silicone rubber 3. Is molded into the bushing 2 for attachment.

However, such an electrode structure causes the silicone rubber 3 to age due to immersion in hot water and cold water over a long period of time, resulting in poor water tightness and water leakage.

2 shows the structure of a conventional electrode using glass instead of silicone rubber in order to prevent leakage of water due to aging. The spiral wire 11 is filled with a glass 31 on the titanium wire and fixed. The jig 21 for attachment to the cylinder wall and the water heater cylinder wall are sealed by a ring 51. Reference numeral 41 is a lead wire.

The electrode 11 and the jig 21 for attaching to the tube wall have a structure of being sealed by the glass 31, but the electrode 11 is a titanium wire coated with platinum, so that the electrode 11 ) And the interface between the glass 31 was poor, and it was difficult to obtain a complete watertight structure.

Moreover, the difference in the coefficient of thermal expansion between the electrode 11, the glass 31, and the glass 31 and the jig 21 for attachment to the cylinder wall is large, and it is easy to be damaged by repetition of cold water and hot water, and there is a defect in reliability.

The inventors of the present invention, 99.9-55.0 mol% of iron oxide in terms of Fe ₂ O ₃ and MO (M represents Mn, Ni, Co, Mg, Cu, Zn or Cd) of 0.1-45 mol% A metal oxide sintered body having a spinel crystal structure of at least one of manganese oxide, nickel oxide, cobalt oxide, magnesium oxide, copper oxide, zinc oxide, or cadmium oxide is most suitable for use as an electrode having low electrical resistance and excellent corrosion resistance. It is proposed.

The present invention inserts one end of the electrode of the metal oxide sintered body into the hole of the bushing for attachment to the tube wall, and seals one end of the electrode and the bushing with glass through a ring of insulating sintered body. It has been found that an electrode with good heat resistance that can withstand sufficiently even when used for repetition of cold water and hot water can be obtained.

3 is an embodiment illustrating the present invention.

One end of the electrode 111, which is a metal oxide sintered body, is inserted into the hole of the bushing 211 for attachment to the tube wall, and the insulating property such as alumina, forsterite, etc. is interposed between the electrode 111 and the bushing 211. The ring 411 which becomes a sintered compact is inserted, and the clearance gap is sealed by the glass 311. As shown in FIG.

Reference numeral 511 denotes an insulating resin (epoxy, silicon, etc.) between the electrode 111 and the bushing 211 for attachment to the tube wall, and 611 denotes a terminal plate for taking out the lead wire 711. Is connected by a conductive adhesive. With the above structure, the metal oxide sintered electrode has a coefficient of thermal expansion of about 80 to 140 × 10 ⁻⁷ / ° C., so that the metal oxide sintered electrode can have a value equivalent to that of the sealing glass and the ring. In addition, the surface of the electrode and the ring is roughly damaged even by repeated cold water, and since the surface of the electrode and the ring is rough, the inflow of the glass into the gap between the electrode and the ring is more sufficient than when the metal electrode is used. The degree is also improved.

In addition, the steel bushing is used for the bushing for attachment to the tube wall, and the surface roughness is increased by oxidizing the surface in advance, so that the diffusion of the glass is good, and thus the adhesion between the ring and the bushing can be improved.

Claims (1)

One end of the rod-shaped metal oxide sintered body electrode 111 is inserted into the hole of the bushing 211 for attaching the tube wall, and one end of the electrode 111 and the bushing are interposed between the ring 411 which is an insulating sintered body. Electrode corrosion prevention electrode which seals 211 with the glass 311.