KR20190105266A - Adaptor assembly for corrosion inhibition in pipe - Google Patents

Abstract

The present invention provides an assembly for suppressing corrosion in a pipe. According to an embodiment of the present invention, the assembly for suppressing corrosion in a pipe includes: a housing in which one side of a fluid inflow unit and one side of a fluid discharge unit are covered by a cover and are integrated by being coupled by a screw form; an impeller rotation body including a blade and a rotation body rotating as multiple magnets are inserted to rotate by a fluid flowing inside; a cavitation inducing spring inducing cavitation, wherein a space is charged in accordance with inflow pressure of the fluid; a stainless round plate with a fine hole and a static inducing rod, having a shape of finely splitting air bubble generated in the rotation body; and a spring formed on the rear of two sheets of charged plates and multiple ionization rods charged between the two sheets of charged plates facing each other in a flowing direction of the fluid. The static inducing rod is formed as a mixture of polytetrafluoroethylene and ceramic. The ionization rod is formed of at least one among copper, brass, zinc, silver, gold, platinum, and magnesium.

Description

Assembly for suppressing corrosion in pipes {ADAPTOR ASSEMBLY FOR CORROSION INHIBITION IN PIPE}

 The present invention is excellent in water treatment ability and has a simple structure, but the flow structure of the water can have abundant contact between the treated water and gold and can induce the potential difference between metals as necessary to use the potential difference excellent in removing foreign substances such as scale. An assembly for suppressing corrosion in a pipe.

Compounds or silicates, such as calcium and magnesium, which are inorganic salts within a short period of several months and a year, in a pipeline where there is a flow of liquid or water, such as water supply or heating piping, in the real life and industrial fields. ) Forms particles and adheres to the pipe in the form of a needle-like structure to form scale. Other similar forms of slime and sludge are also formed.

In addition, the water in the pipes, there becomes melted minerals and salts ingredient this Ca² ^+, Mg² ^+, positive and HCO₃ such as Na² ^{+ -,} SO₄ ^- positive and negative ions combined in accordance with the present and the temperature change as an anion such as ^-, Cl To form a scale, and is mainly composed of CaCO₃, MgSO ₄ and SiO₂ with a needle-like structure of 7㎛.

^{<Formula> Ca² + + 2HCO₃ - → CaCO₃} + CO 2 + H 2 O

^{Mg² + + 2HCO₃ - → MgCO₃ +} CO 2 + H 2

The scale, slime, and sludge can be removed by entering a cleaning brush or a brush head, which is a removal tool, by using an environmentally friendly and physical cleaning method. Doing. However, there are still some places where chemical cleaning liquids or components in the form of solids are used, which are not harmful to the human body. In addition, there is a problem that the coating is peeled off within a few months by epoxy coating inside the pipe to completely use the water supply pipe, and the same phenomenon is repeated again after several months using a temporary method of cleaning the inside of the pipe with a high pressure washer.

Due to a lot of efforts of the inventors concerned with the environment to compensate for these problems, in the field of pipe washing these days, a method of cleaning with environmentally friendly and physical cleaning methods are widely spread.

In addition, a water treatment apparatus using a potential difference between metals and a method of applying the same, and more particularly, the water quality is improved by using the principle of generating intermetallic electricity to corrode an iron pipe, and suppressing the occurrence of scale or rust in the pipe. A water treatment device and a method of applying the same have been developed, and the generation and accumulation of foreign substances in pipes, which are not only for purifying water by using ions generated by the potential difference, but also for cleaning the inside of the pipe, are easy to install and install. The suppressing apparatus is applied.

The physical cleaning technology and the ionized water treatment technology are complementary to each other, so that the two can be fused and used in a short period of time to clean and utilize the pipe, thereby purifying water and cleaning the inside of the pipe. It can be a system that suppresses the generation and accumulation of foreign substances in the pipe, which is easy to install the equipment.

When the ion water treatment device using the intermetallic potential difference described above is one of the embodiments of the present invention, Teflon, ceramics, etc., which play an auxiliary role to generate electricity based on the main metal elements copper and high purity zinc, are described. It is composed of the inserted mixture to have the effect of generating the potential difference, thereby supplying electrons to the cationic materials included in the treated water and removing the electrons from the anion materials. It is a device for the purpose of suppressing the generation and accumulation of foreign matter in the body.

However, the ion water treatment device using such a potential difference between metals has a small contact area with the treated water, so that the water treatment ability is insufficient, and a large burden is generally used for the cost part.

Accordingly, there is an increasing need for the development of an ion water treatment device which has excellent water treatment capability and has a simple structure, but the water flow structure can have abundant contact between the treated water and the metal and induce a potential difference as necessary.

The technical problem to be achieved by the present invention is excellent in water treatment ability, yet has a simple structure, the water flow structure can have abundant contact between the treated water and the metal and can induce the potential difference between metals as necessary scale, slime, sludge, etc. It is to provide an assembly for suppressing corrosion in a pipe using a potential difference with excellent foreign matter removal performance.

In order to solve this problem, according to an embodiment of the present invention, one side into which tap water or raw water is introduced is covered with the inlet housing cover 110, and the other side of the outlet from which the treated water is discharged is discharged housing. Through the hemispherical inlet filter 310 for filtering the incoming water when the raw water is introduced into the housing covered with the cover 120, the cavitation induction spring 320, which is freely adjusted according to the pressure is bubbled into the incoming water Rotating the impeller 300, the raw water introduced into the interior through the inlet of the impeller housing cover portion 210 of the rotating support of the impeller 300, which is a rotating body that rotates by the inflow water, causing the cavitation effect to sufficiently generate the To generate more bubbles. In addition, the small round bar magnet 380 inserted into one end of the impeller 300, which is a rotating body, may also have an effect of having magnetism in the inflow water discharged and discharged through the impeller 300, which is a rotating body. Inside the impeller housing, which is the rotational support, the inflow water from the outlet of the rotational support impeller housing body 220 passes through the stainless circular plate 230 in which the fine holes are formed, and processes the bubbles more finely, and the polytetrafluoroethylene ( two charged circular plates 240 formed of various types of holes through which the polytetrafluoroethylene), (-CF2-CF2-) n and the ceramic are in contact with the round rod 330 mixed with water, and then allow water to pass therethrough; It is supported by the outlet side close-up maintenance spring 350 so as to be in close contact with each other, and touches and passes through the ionizing rod 340 formed of pure zinc or other 0.5V to 1.5V electricity. The assembly for suppressing corrosion in the pipe using the potential difference that can make the treated water coming out through the hemispherical discharge filter 390 that acts as a filter The ball.

The inlet cavitation induction coil 320 may be a beneficial coating on the human body without stainless or corrosion and gives a cavitation effect on the influent.

The inlet hemispherical filter 310 for filtering the raw water and the treated water may be made of an advantageous material such as ceramic to remove foreign substances from the influent.

The impeller 300 which can generate abundant bubbles by rotating the inflow water can adjust its size according to the amount of bubbles generated, and four holes into which the round bar magnet 380 can be inserted at one side thereof are 90 ° in the circumferential direction. It is formed at intervals and may have a useful structure in the treatment of magnetized water by inserting two or four round bar magnets 380.

The holes of the stainless circular plate 230 in which the fine holes are formed as a whole may adjust the size of the holes and the number of holes according to the amount of bubbles generated.

Water can flow into the inlet side cover 210 and the main body 220 of the impeller housing of the impeller housing, which is the rotatable support structure, to adjust the position and size of the hole according to the degree of rotating the impeller 300 which is the rotating body. This increases the effect even more.

The material of the impeller housing cover 210, the impeller housing cover 220, and the impeller 300, the rotating body, is composed of polytetrafluoroethylene or other equivalents which are not harmful to the human body. Can be effective.

Between the stainless circular plate 230 having the fine hole and the circular copper plate 240 having the general hole formed therein, the round bar 330 in which Teflon and ceramic are mixed, and the ionized round bar 340 made of pure zinc, etc., have their sizes and shapes. There is no limitation on the material, and any material that can affect the induction of the potential difference between dissimilar metals can be used.

As described above, according to the embodiment of the present invention, the water treatment ability is excellent and has a simple structure, but the water flow structure can have abundant contact between the treated water and the metal and can induce the potential difference between metals as necessary to scale It is excellent in removing foreign substances such as slime, sludge, etc. In addition, it is easy to manufacture.

1 is a perspective view of an assembly for suppressing corrosion in a pipe according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line AA of FIG. 1.
3 is an exploded perspective view of an assembly according to an embodiment of the present invention.
4 is a view showing a connected state of the assembly and the pipe according to the embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In order to clearly describe the present invention, parts that are not related are omitted in the description, and like reference numerals designate like elements throughout the specification.

Since the size and thickness of each component shown in the accompanying drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to the illustrated.

In addition, in the drawings, in order to clearly express various layers and regions, there is also a part that is arbitrarily enlarged. In the drawings, some of the layers and regions may be exaggerated for clarity.

And, throughout the specification, some portions "include" certain components. In this regard, this means that, unless specifically described and described to the contrary, other components may be included instead of other components.

The following items will be described in detail with reference to FIGS. 1, 2, and 3 with respect to the assembly for inhibiting corrosion in the pipe according to an embodiment of the present invention.

1 is a perspective view of an ion water processor according to an embodiment of the present invention,

2 is a cross-sectional view taken along the line A-A of FIG.

3 is an exploded perspective view of an assembly for suppressing corrosion in a pipe according to an embodiment of the present invention.

1 to 3, the assembly 100 for suppressing corrosion in a pipe according to an embodiment of the present invention is an assembly housing covered with a raw water inlet housing cover 110 and a treated water discharge housing cover 120. An impeller 300 part which is a rotating body for rotating the hemispherical filter 310, the cavitation guide spring 320, and the introduced fluid to rotate and generate foam particles along the direction in which water flows, Induction of a plurality of electrostatic charges filled between the front surface of the stainless circular plate 230 formed fine holes to further double the foam particles, the previously described stainless circular plate 230 and the charging circular plate 240 formed of two normal holes facing each other Round bar 330, ionized round bar 340 of pure material, which induces a potential difference between a plurality of dissimilar metals filled between two circular holes facing each other and a circular plate 240 formed with two common holes, the two bars Includes for the rotary plates 240, and the two kinds of ionized metal round bar 340 is in close contact spring 350, for which can effectively contact the filled therebetween.

Hereinafter, each structure is demonstrated in detail.

Inlet cover housing 110 and outlet cover housing 120 of the assembly 100 for inhibiting corrosion in the pipe according to an embodiment of the present invention and the inlet and outlet which can be introduced and discharged fluid on one side thereof; Together with a threaded connection for connection with the pipe.

The inlet cover housing 110 may be a cylindrical hollow structure, but is not limited thereto and may be formed in various shapes.

The discharge part cover housing 120 may have a tapered shape in which the discharge part side is tapered in a cylindrical hollow body structure, but may be formed in various shapes without being limited thereto.

The inlet cover housing 110 and the outlet portion of the other side of the discharge cover housing 120 includes an inlet and a discharge port through which the fluid is introduced and discharged together with the connection thread is formed on the inside for connecting the pipes The screw thread is not limited to the inner side but may have a connecting portion formed outward.

The inlet cover housing 110 and the outlet cover housing 120 may be formed of stainless steel, copper, brass, silver, gold, platinum, magnesium, or the like, or may be formed of plastic, but are not limited thereto. Can be formed.

The inflow connection part and the discharge connection part of the inlet part cover housing 110 and the discharge part cover housing 120 may be screwed with the pipe to form a flow path continuous with the flow path of the pipe through which the fluid moves.

In the above, the fluid may be water, but is not limited thereto and may include various fluids.

The hemispherical filter 310 positioned at the coupling portion between the screw connection part formed in the inlet cover housing 110 and the pipe may remove foreign substances of the fluid flowing into the inlet cover housing 110 along the connection part. .

The hemispherical filter 310 described in the above section may have fine holes or holes of various shapes in contact with the incoming fluid to generate bubbles, and may be formed of polytetrafluoroethylene (PTFE), and Static friction can cause static electricity and friction of fluid bubbles.

The fluid flowing through the hemispherical filter 310 of the above paragraph is caused by the cavitation effect in the temporary decompression state due to the cavitation guide spring 320 which can secure a space inside the inlet cover housing 110 having an enlarged cross-sectional area. You will have more bubbles. The cavitation induction spring 320 may be coated with stainless steel or polytetrafluoroethylene (PTFE) and ceramics and other materials that are not harmful to the human body.

The inflowed fluid, which has caused bubbles in the cavitation phenomenon described above, is introduced into the inlet formed in the impeller housing cover 210, which is a rotational support of the impeller 300, which is a rotating body, so that the impeller 300, which is a rotating body, rotates. One direction of the impeller housing body 220, which is a rotational support body so as to rotate, exits the outlet formed in the impeller housing body 220. At this time, more bubbles are generated, resulting in an easy form of treated water. The rotating support and the rotating body may be formed of polytetrafluoroethylene (PTFE) or other materials.

The fluid flowing through the outlet formed in the impeller housing body 220 together with the bubbles formed while the impeller 300, which is the rotating body, rotates, is formed of a thin stainless steel having fine holes shown in the cross-sectional views and the internal structural diagrams of FIGS. Passing through the steel circular plate 230 and the bubble is more finely divided form can be a structure that is easy to generate static electricity and induction electricity. The shape of the micro holes may be in the shape of a cross, a garden, or an ellipse in order not to disturb the flow of the fluid, and may be formed of the same polytetrafluoroethylene (PTFE) as the impeller 300 which is the rotating body, so that the impeller is a rotating body when friction with the fluid. In conjunction with 300 may also induce the generation of more static electricity.

The fluid which becomes rich in bubbles through the thin stainless steel circular plate 230 in which the fine holes are formed as described above is formed of a plurality of mixed ceramic and polytetrafluoroethylene (PTFE) formed of ceramic and polytetrafluoroethylene (PTFE). Since the friction with the electrostatic induction round bar 330 is formed in a structure suitable for generating static electricity and induction electricity is easy to make the treated water.

The inflow water passed through the stainless steel circular plate 230 and the plurality of ceramic and polytetrafluoroethylene (PTFE) electrostatic induction round rods 330 of the above passage is formed with two general holes facing each other in a fluid flow direction. Due to the potential difference between dissimilar metals of the plurality of pure ionized round bars 340 filled between 240, static electricity of about 0.5V to 1.5V is generated and charged to the ionic material in the fluid. Quick and strong interaction between scales and scale generation factors coupled with ions released from the plurality of pure ionized rods 340 to be described, and relatively increase carbonate ions in the fluid, thereby preventing occurrence of scales or scales. At the same time, it can effectively remove the generated scale or scale.

It includes a plurality of pure ionized round bar 340 is filled between the circular charging plate 240 is formed with two normal holes facing each other in the direction of the fluid described in the above paragraph.

The circular charging plate 240 in which the general hole is formed should have a structure that can prevent the plurality of pure ionized round bars 340 from being separated from the outside, and have a plurality of hole shapes through which fluid can pass. It may include.

Circular hole plate formed with a general hole 240 The size of the plurality of holes (hole) may be formed to a size smaller than the minimum diameter or length of the ionized round bar 340, it may be formed in the shape of 1 ~ 4mm.

The reason why the size of the plurality of holes in the circular charging plate 240 described above should be smaller than the size of the shape of the ionization rod 340 is that the fluid when the plurality of holes formed in the circular charging plate 240 is less than 1 mm. This may be because a smooth flow of the ionization rod 340 may not be secured and a portion of the ionization rod 340 may be separated outward when the size of the ionization rod 340 is exceeded.

The circular charging plate 240 may be formed of at least one of magnesium and copper or brass, and the front circular charging plate 240 is formed of magnesium in the direction in which the fluid flows, and the rear circular charging plate 240 is formed of copper or brass. In another example, both the front and the back may be formed of magnesium, or in another example, both the front and the back may be formed of brass.

The plurality of ionizing rods 340 are filled between the circular charging plate 240 facing each other, may be in the form of blocks of various sizes, preferably for allowing fluid to pass smoothly between the ionizing rods 340 It may be a special shape that is less resistant to fluid.

In addition, the plurality of ionizing round bars 340 may all have a predetermined size or may have various sizes. Too large a shape is less in contact with the fluid and less in contact with the circular charging plate 240.

The plurality of ionizing rods 340 may be formed of a diameter of 5 ~ 7mm, a length of 5 ~ 8mm and described as an ionizing rod 340 for convenience of description, but also includes a ball shape or other shapes.

In addition, the reason for describing the size of the ionized round bar 340 is that the ion generating ability in the shape of 5 ~ 10mm can be maximized.

The ionized round bar 340 according to the embodiment of the present invention may be formed of at least one of copper, brass, zinc, silver, gold, platinum, and magnesium, but preferably, may be formed of zinc (Zn), and The charging plate 240 must be made of a material that is heterogeneous.

The plurality of ionizing rods 340 are formed in a stainless steel circular plate 230 having a fine hole and an impeller 300 which is a rotating fluid, and a round rod 330 in which ceramic and polytetrafluoroethylene (PTFE) are mixed. Abundant air bubbles are formed and crushed to induce a violent collision with the plurality of ionizing rods 340 to release a large amount of ions.

At the same time, by maximizing the potential difference effect between dissimilar metals, it is possible to suppress the generation of foreign substances such as scale, rust and slime in the pipe, and to remove the foreign substances already produced.

The rear surface of the circular charging plate 240 is a structure in which the ionization induction spring 350 is formed and continuously pushes the rear side of the two charging plates to strongly adhere the charging plate and the ionizing rod, and the ionizing rod is consumed. Even if becomes small, it becomes the shape which can induce a potential difference induction effect continuously.

Next, with reference to Figure 4 will be briefly described a form in which the assembly 100 for inhibiting corrosion in the pipe according to the embodiment of the present invention coupled to the pipe (P).

4 is a view showing a connected state of the assembly and the pipe for inhibiting corrosion in the pipe according to an embodiment of the present invention.

As shown in FIG. 4, the assembly 100 for suppressing corrosion in a pipe according to an exemplary embodiment of the present invention may be installed between pipes P to form a continuous flow path with a flow path of the pipe, and the fluid flowing between the pipes. Can be processed.

As described above, the assembly for suppressing corrosion in the pipe according to the embodiment of the present invention has a simple structure and is excellent in removing foreign substances such as scales inside the pipe.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

100: assembly for suppressing corrosion in the pipe
110: inlet part cover housing 120: discharge part cover housing 210: impeller housing cover 220: impeller housing body
230: Circular hole forming stainless steel circular plate 240: Normal hole forming circular charging plate
300: impeller 310: inlet hemispherical fill
320: cavitation induction spring 330: electrostatic induction round bar
340: ionization round bar 350: ionization induction spring
380: round bar magnet

Claims (4)

A housing in which one side of the fluid inlet part and one side of the fluid discharge part are covered with a cover,
An impeller rotating body including a rotating body and a blade that rotates by inserting a plurality of magnets to rotate by the fluid flowing into the housing, and a space varies according to the pressure of the fluid and induces a cavitation effect. A micro hole forming stainless steel circular plate having a shape that splits the bubbles generated by the cavitation induction spring and the rotor more finely, an electrostatic induction rod, and a plurality of ionizing rods filled between two charging plates facing each other along the flow direction of the fluid; And a spring formed on the rear side of the two charging plates, wherein the electrostatic induction round bar is formed by mixing polytetrafluoroethylene and ceramic, and the ionization ball includes at least one of copper, brass, zinc, silver, gold, platinum, and magnesium. Assembly for suppressing corrosion in the pipe formed as one. In claim 1,
An assembly for inhibiting corrosion in the pipe further comprises a cavitation induction spring to change the space in accordance with the pressure of the fluid flowing from the inlet side cover housing to induce a cavitation effect. In claim 1,
And an impeller rotating body including a rotating body and a blade rotating by inserting a plurality of magnets to rotate by the fluid flowing into the housing. In claim 1,
The spring formed on the rear side of the two charging plates has a structure in which the charging plate and the ionizing rods are closely adhered to each other, and the assembly for inhibiting corrosion in the pipe that can induce a potential difference induction effect even if the ionizing rods are consumed is reduced in shape. .

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