KR100839556B1 - electronic activation system - Google Patents

Abstract

The present invention relates to an electronic active water container, and in particular, in bonding the electrode and the upper end of the electrode case, the O-ring is fixed between the electrode and the electrode case by pressing, and the surface of the electrode is composed of an insulator having plasticity. The present invention relates to an electronic active water machine characterized by improving the fixing force of the electrode to the electrode case and the watertight force between the electrode and the electrode case.

The main features of the present invention,

In combining the electrode case of the electronic active water and the electrode embedded therein;

A flange portion is formed at an upper end of the electrode case, and an O-ring groove is formed at an upper inner circumferential surface side of the flange portion to communicate with the inside of the electrode case, thereby allowing the O-ring to be introduced thereto; The electrode covers an insulator having elasticity on its surface; The electrode case is formed on the flange portion of the electrode case; a cover plate for pressing the O-ring; the O-ring is deformed by the pressing force of the cover plate, and thus the water-tight and electrode case is formed by mutual deformation of the O-ring and the insulator by being in close contact with the insulator of the electrode. Electronically active water, characterized in that to obtain a fixing force of the electrode for.

Electromagnetic active water, Electrode, Electrode case, O-ring, Insulator

Description

Electronic activation system

1 is a cross-sectional view showing a coupling structure of the electrode and the electrode case of the conventional electronic active water

Figure 2 is an exploded cross-sectional view showing a coupling structure of the electrode and the electrode case of the electronic active water according to the present invention

3 is a cross-sectional view of the coupling state of FIG.

<Explanation of symbols for the main parts of the drawings>

10 electrode case 12 flange portion

12a: O-ring groove 13: O-ring

20: electrode 22: insulator

30: cover plate 31: pressure protrusion

The present invention relates to an electronic active water container, and in particular, in bonding the electrode and the upper end of the electrode case, the O-ring is fixed between the electrode and the electrode case, and the surface of the electrode is composed of an insulator having elasticity. The present invention relates to an electronic active water machine characterized by improving the fixing force of the electrode to the electrode case and the watertight force between the electrode and the electrode case.

The growth of living organisms, concrete strength, food production, drinking water, and supply of water to various facilities and buildings are made through piping. However, such pipes gradually accumulate scales of water therein as time passes, causing pipe blockage and water droplets. The scale of water occurs in the heat exchange surface in the case of water heating process such as boiler or condenser. This is because compounds of Ca and Mg substances dissolved in water have a characteristic that is difficult to dissolve in high temperature water. The solubility varies depending on the material, but increases according to heating or the concentration increases. Thus, the dissolved substances are necessarily scaled and precipitated. The characteristics of the scale generated in the pipe appear uniformly all over the heat exchange surface in contact with water. That is, the scale is not settled down by gravity, but the cations, anions, and suspended solids, etc., which are distributed throughout the heat exchange surface by electrical adsorption, are crystallized as they are by concentration and heat to form a uniform thickness. Dispersants such as antiscalants and detergents have traditionally been used to prevent scale in such pipes. It is a measure of the scale prevention technique that the distance between the ions accumulated at the interface can be widened. The dispersant chemically wedges the ions and neutralizes the potential difference generated at the interface.

By applying an electric field to the flowing water in a different way to prevent and eliminate scale in the pipe, it alters the physical and chemical properties of the water to electrically neutralize the electrical double layer that occurs at the metal interface of the pipe or the device, thereby eliminating the electrostatic force at the interface. This function can be used to prevent scale from growing in the water piping. The water treatment device using the electric field is manufactured by placing an electrode rod inside a cylindrical shape where water flows, and hanging a (+) electrode on an outer cylinder and a (-) electrode on an electrode.

The electronically active water device proposed in Korean Patent Application No. 10-1999-14686 is a water treatment device using the above-described electric field, and as shown in FIG. 1, the inner and outer insulating layers 1a, which surround the outer electrode plate 2, The side wall is formed by 1b), and the upper part is provided with the body 1 in which the flange part 1c was integrally formed. In addition, the inner electrode (3) is built in the interior of the body (1), the upper flange (3a) which is seated on the flange portion (1c) of the body (1) is integrally formed on the upper end of the inner electrode have. In addition, an O-ring 4 for watertight holding is interposed between the flange portion 1c and the upper flange 3a to prevent water passing through the inside of the body 1 from leaking to the outside. In addition, the fixing cover 5 is fastened to the upper flange 3a by a bolt b to prevent the internal electrode 3 from being separated.

However, in the conventional electronic active water group, the upper flange 3a is formed on the upper end of the inner electrode rod in fixing the inner electrode rod 3 to the body 1, and the upper flange is fixed to the lid 5 again. As a result of the fixing process, the material loss due to the formation of the upper flange on the inner electrode 3 together with the complicated structure of the coupling structure is also pointed out as a problem.

Accordingly, the present invention has been made to solve the conventional problems as described above, the main purpose of the present invention is to combine the top of the electrode and the electrode case by pressing the O-ring between the electrode and the electrode case to be fixed, Combination of the electrode and the electrode case of the electronic active water heater, which can improve the fixing force of the electrode to the electrode case and the watertightness between the electrode and the electrode case by simultaneously modifying the surface with an insulator having elasticity. In providing a structure.

Features of the present invention for achieving the above object,

As in claim 1 of the present invention,

In combining the electrode case of the electronic active water and the electrode embedded therein;

A flange portion is formed at an upper end of the electrode case, and an O-ring groove is formed at an upper inner circumferential surface side of the flange portion to communicate with the inside of the electrode case, thereby allowing the O-ring to be introduced thereto; The electrode covers an insulator having elasticity on its surface; The electrode case is formed on the flange portion of the electrode case; a cover plate for pressing the O-ring; the O-ring is deformed by the pressing force of the cover plate, and thus the water-tight and electrode case is formed by mutual deformation of the O-ring and the insulator by being in close contact with the insulator of the electrode. Electronically active water, characterized in that to obtain a fixing force of the electrode for.

In addition, as in claim 2 of the present invention,

The insulator is a coupling structure between the electrode and the electrode case of the electronic active water group, characterized in that any one of Teflon, polyethylene, polypropylene, urethane, rubber, and FB.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described in detail based on an accompanying drawing.

1 is a cross-sectional view illustrating a coupling structure of an electrode rod and an electrode case of a conventional electronic active water container, and FIG. 2 is a separated cross-sectional view illustrating a coupling structure of an electrode rod and an electrode case of an electronic active water container according to the present invention. 3 is a cross-sectional view of the bonding state of FIG.

As shown in FIG. 2 and FIG. 3, the present invention is composed of an electrode rod 10 to which a positive voltage is applied, and an electrode rod 20 to which a negative voltage is applied to the inside of the electrode case. As the water passes between the case 10 and the electrode 20 from the electronic active water to prevent the scale grow in the water pipe;

The electrode case 10 is composed of a tubular portion 11 having an inlet 10a and a drain 10b, and a flange portion 12 integrally formed on the upper end of the tubular portion. Here, an O-ring groove 12a communicating with the inside of the electrode rod case 10 is formed at the upper inner circumferential surface side of the flange portion 12, and an O-ring 13 having a larger diameter than the O-ring groove is seated inside the O-ring groove. .

The electrode 20 is composed of an electrode body 21 and an insulator 22 coated on the surface of the electrode body. In this case, the insulator is made of a material capable of elastic deformation, for example, Teflon, polyethylene, polypropylene, urethane, rubber, and FVC.

In addition, a cover plate 30 having a pressing protrusion 31 for pressing the O-ring 13 is mounted on an upper portion of the flange portion 12, and the flange portion 12 and the cover plate 30 are mutually connected. Bolted together.

Then, the pressing protrusion 31 depresses the O-ring 13 so that the O-ring deforms from side to side, and the insulator 22 and the O-ring 13 of the electrode 20 are in contact with each other by this deformation. . At this time, since the insulator 22 and the O-ring 13 are made of a material capable of elastic deformation, the contact area is increased while causing mutual deformation in the process of contact with each other, so that a good watertight effect can be obtained, and the O-ring 13 As a result, the electrode 20 can be firmly fixed.

Referring to the bonding process for the present invention in more detail as follows.

The electrode rod 20 is inserted through the open upper portion of the electrode case 10, and the O-ring 13 is inserted into the O-ring groove 12a formed on the flange portion 12 of the electrode case 10. After the cover plate 30 is seated on the upper portion of the flange portion 12, the flange portion and the cover plate are bolted to each other to be in close contact with each other.

Then, since the pressing protrusion 31 formed on the lower surface of the cover plate 30 presses the o-ring 13, the o-ring deforms into a shape that spreads laterally. O-ring is in a state of being in strong contact with the insulator 22 of the electrode 20 by the deformation form of the O-ring, the elastic insulator 22 and the O-ring 13 is mutually deformed by this strong contact force Since the contact area becomes large, a good watertight function can be obtained.

In addition, by depressing the insulator 22 while the O-ring 13 is deformed, the electrode rod 20 is firmly fixed to the electrode case 10 by the O-ring 13.

This coupling process, the present invention has the advantage that the watertight and the electrode can be combined at the same time by both deformation of the O-ring and the insulator.

As described above, the present invention can improve the watertight force by increasing the contact area by the mutual deformation force of the O-ring and the insulator while simplifying the coupling relationship between the electrode and the electrode case as compared to the conventional, and without a separate structure There is an advantage in that the electrode can be fixed by the deformation force of the O-ring and the insulator.

Claims (2)

In combining the electrode case of the electronic active water and the electrode embedded therein; A flange portion is formed at an upper end of the electrode case, and an o-ring groove communicating with an inside of the electrode case is formed at an upper inner circumferential surface side of the flange to be in close contact with the electrode when deformation of the O-ring introduced thereto; The electrode covers an insulator having elasticity on its surface; The cover plate is coupled to the flange portion of the electrode case, and provided with a pressing protrusion protruding downward to press the O-ring; when the cover plate and the flange portion of the electrode case is coupled, the pressing protrusion portion The O-ring is deformed by the pressing force, so that the close contact with the insulator of the electrode by the mutual deformation of the O-ring and the insulator to obtain a water-tight and the fixing force of the electrode to the electrode case. The method of claim 1, The insulator is any one of Teflon, polyethylene, polypropylene, urethane, rubber, and FBC.

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