KR102306268B1 - Water treatment device for water quality stabilization that is easy to maintain - Google Patents

Abstract

The present invention relates to a water treatment device for water quality stabilization capable of facilitating maintenance and repair. The disclosed present invention includes: a housing having an inlet pipe on one side and an outlet pipe on the other side around an installation space; a cover that opens and closes an entrance on the upper side of the installation space; and a rotary reaction tube that is rotationally installed in the installation space. Accordingly, the present invention prevents the inflow of foreign substances into the water treatment device, suppresses corrosion by strengthening the cohesive force of zinc, can check the amount of zinc ion elution in real time, minimizes the generation of noise as the rotary reaction tube is formed into polygons and provided with through holes on the outer peripheral surface and corners thereof, promotes fluid movement, increases a friction area with a fluid, can further improve performance of water treatment by maximizing the amount of zinc ion elution through fluid cavitation activation, improves the installability of the rotary reaction tube by improving the rotational structure of the rotary reaction tube, and doubles durability and efficiency of maintenance.

Description

Water treatment device for water quality stabilization that is easy to maintain

The present invention relates to a water treatment device installed between pipes, and more particularly, to effectively suppress and remove foreign substances on the inner wall of a pipe generated by a fluid passing through the pipe, increase the efficiency of water treatment, and promote the stabilization of water quality. It relates to a water treatment device for stabilizing water quality that is easy to maintain.

In general, waterworks pipelines pressurize water treated at a water purification plant at a pump station to stably supply it to faucets in households, etc. in good water quality.

It is difficult to maintain good water quality and continuously supply water immediately after new installation of water pipes, repair of water pipes, and replacement of old water pipes.

In addition, if scale due to corrosion occurs inside the pipe due to long-term use of the water supply pipe, aging due to oxidative corrosion, sediment accumulation, or bacterial microorganisms are attached for a long period of time, the water flow area decreases and the water quality is severely polluted do.

For this reason, a separate water treatment device that is economically burdensome, such as a water purifier and a water heater, is used.

In addition, a water treatment system for suppressing and removing contaminants such as corrosion and scale is applied to a portion of the pipe to supply water of stable quality even when water is supplied to a power plant.

As a water treatment system for water quality stabilization, a scale filter or scale buster, which is a reaction means, may be configured together with a valve, and at the same time ionize the fluid moving through the valve along the pipe and impurities ( It is configured to filter out foreign substances).

That is, inorganic substances and salt components are dissolved in the supply water in the pipe. Therefore, inorganic salts and the like are dissolved in the water. Therefore, water such as mineral salts There melt flow component, and this ^{Ca 2 +, Mg 2 +,} Na 2 + cation and the like, HCO ₃ -, SO ₄ -, exists as an anion such as Cl-.

Various components contained in these fluids combine with cations and anions according to temperature change to form scale, and mainly CaCO _{3 ,} MgSO, SiO _{2 It} is attached to the 7㎛ scale needle structure in the pipe.

As such, in a water treatment system having a reaction means such as a scale filter or a scale booster, the main function reaction tube is composed of zinc (Zn) that generates anions (-), and generates a predetermined current value that reacts with anions inside the reaction water tube. A tourmaline (referring to an iron tourmaline as an example) is provided.

Therefore, as the zinc of the main function reaction tube is activated by continuously generating negative ions by the current generated from the tourmaline, impurities adhering to the inner surface of the pipe are continuously decomposed by the negative ions to remove contaminant foreign substances such as corrosion, rust and scale. It can be suppressed and eliminated.

For example, an example of the corrosion prevention and scale removal process is expressed as a chemical formula as follows.

First, when explaining corrosion protection, zinc (Zn) is constantly ionized by the principle of galvanic ion exchange of zinc, and zinc (Zn), which has a greater tendency to ionize than iron, first combines with oxygen (O2) in water, so that iron and oxygen can no longer react, thus inhibiting corrosion.

This can be expressed as a chemical formula as follows.

Zn ²⁺ (Zn->Zn ²⁺ + 2e ^- ) + H ₂ O -> Zn ²⁺ + 2e- + 2H ⁺ + O ^2- -> ZnO + H ₂

And to explain the rust removal process, Fe ₂ O ₃ (red rust) + FeO (iron oxide) + H ₂ O + 2e ^- (tourmaline electrons) H ₂ + Fe ₃ O ₄ As it is reduced to (black iron - magnetite) to remove the existing rust, it is transformed into stable iron that no longer undergoes oxidation reaction.

In addition, when describing the descaling process, CaCO₃ (scale) + CO₂+ H₂O = Ca(HCO₃)₂ (Calcium Bicarbonate) That is, Calcium Carbonate (CaCO) in which scale particles are in a solid state₃), which is not removed in the form of calcium bicarbonate (Ca(HCO₃)₂), so that the scale can be removed.

On the other hand, the fluid passes through the water treatment device in a state where the water treatment device is installed between the pipes. In the prior art, as foreign substances contained in the fluid are attached or accumulated on the inner wall of the water treatment device during this process, the efficiency of water treatment is decreased as well as the efficiency of the water treatment device. There was a problem in that it is not easy to check the foreign substances accumulated inside, and it is also not easy to remove the foreign substances.

In addition, in the case of a rotating reaction tube that is rotatably installed in a water treatment device, as the upper and lower rotating shafts are connected and rotated through bearings, the upper and lower shafts or bearings may be easily corroded or damaged in the course of use, and the shape (oval) is limited Therefore, the amount of zinc ion elution was not large, so it was difficult to expect effective water treatment performance.

Republic of Korea Patent Publication No. 10-2013-0018230 (published on February 20, 2013)

The present invention has been devised to solve the problems of the prior art, and effectively suppresses and removes foreign substances such as inorganic salts contained in the fluid passing through the water treatment device, while preventing noise and durability through the structural change of the reaction tube. It has one purpose to provide a water treatment device for water quality stabilization that is easy to maintain, which minimizes flow and pressure loss, activates cavitation, and maximizes zinc ion elution to double the efficiency of water treatment.

The technical problem to be solved by the present invention is not necessarily limited to the technical problems mentioned above, and other technical problems not mentioned are clearly to those of ordinary skill in the art to which the present invention belongs from the description below. can be understood

The present invention according to a preferred embodiment,

A housing having an inlet pipe on one side and an outlet pipe on the other side of the installation space as the center;

A cover that opens and closes the entrance on the upper side of the installation space, and

It is configured to include a rotatable reaction tube rotatably installed in the installation space.

More preferably, any one or both of the inside of the installation space and the outside of the rotatable reaction tube may be configured in a polygonal shape.

More preferably, the inside of the installation space and the outside of the rotatable reaction tube may be configured to have a hexagonal or square shape.

More preferably, the inlet pipe has a foreign material discharge portion extending on one side of the outer circumferential surface, the end of the foreign material discharge portion is opened and closed with an opening and closed, and a filter member is installed inside the foreign material discharge portion, the upper side of the filter member is the inlet tube It may be configured to be located in the conduit so that foreign substances passing through the conduit are filtered by the filter member.

More preferably, the filter member may be composed of a Teflon mesh or a copper mesh.

More preferably, the discharge pipe is provided with a Teflon ring having an outer diameter corresponding to the inner diameter of the inner pipe, both sides of the Teflon ring may be formed with a plurality of holes so that the fluid can move.

More preferably, the discharge pipe may be configured such that a zinc ion elution amount meter is provided in the front or rear of the Teflon ring to detect the zinc ion elution amount of the fluid passing through the hole of the Teflon ring.

More preferably, the zinc ion elution amount meter reading meter includes a short-range wireless technology, so that an Internet Of Things (IOT) function may be configured to check information on the zinc ion elution amount through interworking with a smartphone.

More preferably, an accommodating groove may be formed in the center of the bottom surface of the installation space, and a drain hole may be provided on the bottom of the housing to be connected to the accommodating groove, and the drain hole may be configured to be opened and closed by a drain valve.

More preferably, the rotating reaction tube may have a polygonal outer circumferential surface, and a through hole through which the fluid passes may be formed in each of the outer circumferential surface and the corner.

More preferably, the through hole formed in the outer circumferential surface may be formed through in a direction perpendicular to or inclined with respect to the outer circumferential surface.

More preferably, the rotary reaction tube has an upper shaft protruding from the center of the upper end to be rotatably installed in the installation groove of the inner surface of the cover, and a lower shaft protruding from the center of the lower end to be formed on the bottom surface of the installation space. It may be rotatably installed in the groove.

More preferably, a magnet member may be provided inside the upper shaft and the lower shaft of the rotary reaction tube.

The water treatment device for water quality stabilization with easy maintenance according to the present invention has the following effects.

That is, according to the present invention, as the inlet pipe of the housing is provided with a foreign material discharge unit for removing foreign substances, it is possible to prevent the foreign material from being introduced into the housing,

As the discharge pipe of the housing is equipped with a Teflon ring and a zinc ion elution meter, it suppresses corrosion by strengthening the cohesion of zinc ions through static electricity generation, and has the effect of checking the amount of zinc ion elution in real time.

In addition, by configuring the rotary reaction tube in a polygonal shape and forming holes on the outer peripheral surface and corners, the generation of noise due to collision with the fluid is minimized, the movement of the fluid is facilitated, and the friction area with the fluid is increased. , has the effect of further improving the performance of water treatment by increasing the cavitation effect and increasing the amount of zinc ion elution.

Here, since the effects of the present invention described as described above are naturally exhibited by the configuration of the described contents regardless of whether the inventor recognizes them, the above-described effects are only a few effects according to the described contents, and all effects recognized or actual by the inventor should not be accepted as having been described.

In addition, the effect of the present invention should be further grasped by the overall description of the specification, and even if it is not described in an explicit sentence, a person of ordinary skill in the art to which the described content belongs through this specification has such an effect. If it is an effect that can be recognized as the effect, it should be viewed as the effect described in the present specification.

1 is an exploded perspective view showing a water treatment apparatus according to an embodiment of the present invention.
2 is a front cross-sectional view showing a water treatment apparatus according to an embodiment of the present invention.
3 is a plan cross-sectional view showing a water treatment apparatus according to an embodiment of the present invention.
4 is a plan cross-sectional view showing a reaction tube installed in a water treatment apparatus according to an embodiment of the present invention.
5 is an enlarged front cross-sectional view of the outlet side of the water treatment device according to an embodiment of the present invention.
6 is an enlarged front cross-sectional view of the inlet side of the water treatment device according to an embodiment of the present invention.

Hereinafter, the configuration and operation according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

This is intended to describe in detail enough to be easily implemented by those of ordinary skill in the art to which the present invention pertains, and this does not mean that the technical spirit and scope of the present invention is limited. .

In addition, in adding reference numerals to the components of each drawing, it should be noted that only the same components are marked with the same reference numerals as much as possible even though they are displayed on different drawings, considering the configuration and operation of the present invention. Therefore, the terms specifically defined may vary depending on the intention or custom of the user or operator, and the definition of these terms should be determined based on the content throughout this specification.

In addition, throughout the specification, when a part "includes" a certain component, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

First, the configuration of the water treatment device for water quality stabilization that is easy to maintain according to an embodiment of the present invention includes a housing installed between pipes, a cover for opening and closing the upper inlet of the housing, and a fluid rotatably installed inside the housing. It can be divided into a rotary reaction tube having an upper shaft and a lower shaft reacting with, and each component according to an embodiment of the present invention will be described in more detail with reference to the illustrated drawings below.

First, the housing 100 is,

It is installed between the pipes, and a space of a predetermined size is provided therein so that a rotary reaction tube 300 to be described later can be installed.

The housing 100 may be made of aluminum or brass, which is a diamagnetic material, and may be coated inside and outside with a Teflon component to generate static electricity smoothly.

Since the inside of the housing 100 is coated with a Teflon component, a tourmaline material capable of generating anions, such as tourmaline or germanium, may be configured in a powder form, etc., and may be included in the Teflon component to be coated.

Here, the above-described tourmaline material may be, in addition to tourmaline or germanium, guiyangseok, hygerion, ocher, elvan, macsumseok, charcoal, and the like.

In another embodiment, the housing 100 may be manufactured to contain a tourmaline material by including the tourmaline material during the manufacture of the housing 100 , and a tourmaline material is coated on the inner surface of the housing 100 and then a Teflon component is applied to the coated surface. may be coated.

When the tourmaline material is provided in the housing 100 as described above, when the pressure or friction of the fluid is applied to the inside of the housing 100, strong electrons are emitted from the tourmaline material, and when these electrons come into contact with the fluid, they are decomposed into single molecules in the fluid. It combines with hydrogen ions to generate an anion of a surfactant called hydroxyl ion, and the generated hydroxyl anion has excellent penetrating power, washing power and decomposition power, and converts needle-like structure, which is the particle structure of materials such as rust, into spherical structure. As a result, contaminants such as rust and scale attached to the inner wall of the pipe are removed.

In addition, the anion of the surface active material reacts with the carbonate to convert the carbonate particle structure into a needle-like structure, thereby suppressing the generation of contaminating foreign substances such as scale in the pipe and removing contaminating foreign substances such as scale already formed. .

As another embodiment, the housing 100 is made of an aluminum material and coated with a mixture of nickel and chromium on the inner surface, or a mixture of charcoal and germanium, such as a material for a fire plate, so that antibacterial and purification performance and contaminant foreign substances in the housing are attached It may have a function of prevention.

In another embodiment, the housing 100 may be injection-molded with a PVC material to improve the convenience of manufacture, to improve strength, to prevent corrosion, and to eliminate the need for a separate coating operation.

In another embodiment, the housing 100 is formed by compression molding charcoal and germanium, such as a fire plate or a meat plate, to increase rigidity, prevent corrosion, and eliminate the need for coating on the inner surface, thereby improving manufacturability and purification. The function or sterilization function is improved, and the possibility of attaching foreign substances in the housing can be reduced.

In another embodiment, the housing 100 may be configured by adding up to 10% of copper to an aluminum material, thereby suppressing adhesion of foreign substances, enhancing strength, improving workability, and improving durability.

The housing 100 is preferably formed with an installation space 120 having a predetermined space in the center, and an inlet pipe 110 connected to one pipe is formed on one side of the installation space 120 as the center, As the discharge pipe 130 connected to the other pipe is formed on the other side, the fluid moved from one pipe to the inlet pipe 110 passes through the discharge pipe 130 through the installation space 120 and then falls out into the other pipe. will go out

The housing 100 preferably has a polygonal shape such as a hexagon as well as a square in order to activate zinc through the cavitation effect of the fluid in the interior of the installation space 120 when viewed in a flat cross-section. Of course, the interior of the installation space 120 does not need to be limited to a polygonal shape, and may be configured in a circular shape or an oval shape when viewed in a flat cross-section.

On the other hand, the inlet pipe 110 of the housing 100 has foreign substances or particulated inorganic salts removed before the fluid is moved to the installation space 120 so as to induce continuous activation of zinc ions. The foreign material discharge part 111 may be extended to protrude downward.

The foreign material discharging part 111 may preferably be formed to be inclined from the lower side on the outer circumferential surface of the inlet pipe 110 , and the end of the foreign material discharging unit 111 has a stopper to remove the foreign substances collected in the foreign material discharging unit 111 . An opening 112 such as a bolt or the like may be installed so as to be able to open and close.

In addition, a filter member 113 capable of blocking the movement of foreign substances is installed inside the foreign material discharge unit 111, and the filter member 113 has a lower portion inserted into the foreign material discharge unit 111 and fixed while the upper portion is an inlet pipe ( 110) may be installed to block the pipeline as a whole.

Therefore, as the fluid flowing in through the inlet pipe 110 passes through the filter member 113 and moves to the installation space 120 , it is possible to prevent foreign substances from being introduced into the installation space 120 . .

The filter member 113 installed in the foreign material discharge unit 111 is preferably configured to be cleaned or replaced as necessary, and more preferably, by installing an airtight ring on the upper edge of the filter member 113, the inlet pipe ( When the filter member 113 is installed as 110), as the airtight ring is in close contact with the inner circumferential surface of the inlet pipe 110, foreign substances do not pass through the filter member 113 and the gap between the filter member 113 and the inlet pipe 110 can be prevented from escaping.

Here, the filter member 113 may be made of a metal mesh such as aluminum or stainless steel, or a plastic mesh such as PVC, PE, or PP, more preferably, a Teflon mesh or a copper mesh.

In addition, the discharge pipe 130 of the housing 100 may be provided with a Teflon ring 131 having an outer diameter corresponding to the inner diameter of the inner pipe and having a plurality of holes 132 formed on both sides in the direction in which the fluid flows.

Accordingly, as the fluid discharged to the discharge pipe 130 passes through the hole 132 of the Teflon ring 131, the cohesive force of zinc ions is strengthened through the generation of static electricity, so that the corrosion inhibiting ability can be further improved.

In addition, as the zinc ion elution amount meter reading meter 133 is installed in the front or rear of the Teflon ring 131 in the discharge pipe 130 of the housing 100, before passing through the hole 132 of the Teflon ring 131 or By accurately detecting the amount of zinc ion elution of the fluid after passage, it is possible to easily determine the state of the zinc ion elution of the rotary reaction tube 300 .

In addition, as the zinc ion elution amount meter 133 includes a short-range wireless technology such as Bluetooth, the zinc ion elution amount meter 133 can be linked with a smartphone to easily and quickly check the state of the zinc ion elution amount with a smartphone. By using the Internet of Things (IOT) function that can be determined, maintenance such as replacement or washing of the rotary reaction tube 300 can be performed more effectively.

On the other hand, on the bottom surface of the installation space 120 , a receiving groove 123 , which is recessed in the center thereof, is formed, and a drain hole 124 that is opened and closed by a drain valve 125 is formed on the outer bottom surface of the housing 100 . By forming and connecting to the receiving groove 123 , when foreign substances generated in the installation space 120 are collected in the receiving groove 123 , the drain valve 125 is opened to remove the foreign substances to the outside.

The housing 100 may be provided with at least one inspection window on either surface, and a coating layer may be formed on the surface of the inspection window. And, if the inspection window is a double-glazed window, it may be formed on the inner surface of the inspection window located on the inside and the outer surface of the inspection window located on the outside.

The coating layer of the above-described inspection window prevents contamination of the inspection window by fluid, facilitates cleaning of the inspection window, and reinforces the strength of the inspection window, thereby improving durability.

The coating layer may be composed of a plurality of layers, for example, an optical silicone layer adhered to the inspection window, a PET layer or tempered glass film layer coupled to the optical silicone layer, and such a PET layer or tempered glass film A hard coating layer coupled to the layer, and an oleophobic coating layer or a superhydrophobic coating layer coupled to the hard coating layer may be sequentially coupled.

The optical silicone adhesive layer is preferably configured to have a transmittance of about 142 standards, the PET layer is preferably made of a transparent synthetic resin, and the tempered glass film layer is preferably configured to have a high hardness of about 8 to 9H. , the hard coating layer is preferably configured to have a hardness of about 3-4H.

In addition, the housing 100 may have a function of suppressing and removing corrosion in normal times in which a fluid flows depending on the material or the coating state therein.

In addition, when the fluid is blocked for maintenance, the inside may be diagnosed or inspected using an image acquisition device after separating the rotary reaction tube 300 .

In addition, after separating the rotary reaction tube 300 when the fluid is blocked for maintenance, a cleaning device for cleaning foreign substances such as rust and scale of the tube may be inserted and used.

In addition, as the outside of the housing 100, including the flange of the inlet pipe 110, is configured in a polygonal shape, production as well as storage such as the loading of parts and finished products is advantageous, and the promotion of the product is advantageous due to the external differentiation from other products. In addition, it can be expected to increase sales by giving consumers a strong impression of the product.

The cover 200 is

It opens and closes the inlet 121 provided on the upper side of the installation space 120 of the housing 100 , and may be configured in a circle or polygonal shape such as a square as illustrated in the drawings according to the shape of the top surface of the housing 100 .

The cover 200 may be coupled to the flange of the inlet 121 through a bolt, and a see-through window may be provided on the surface of the cover 200 if necessary.

The rotary reaction tube 300 is

It is rotatably installed in the installation space 120 of the housing 100 to prevent descaling and corrosion of the fluid passing through the installation space 120 to stabilize water quality.

The rotary reaction tube 300 may be made of, for example, zinc or anodized aluminum material, and an outer surface thereof may include an electrostatic generating coating layer in contact with a fluid.

As another example, the rotary reaction tube 300 may be made of a material of magnesium or copper, or may be made of a material in which magnesium (or copper, etc.) is mixed with zinc.

As a preferred embodiment, the rotary reaction tube 300 may be made of a special zinc material. This is because zinc is constantly ionized by the galvanic ion exchange principle of zinc, so that zinc, which has a greater ionization tendency than iron, first combines with oxygen in water. Since iron and oxygen can no longer react, corrosion can be suppressed.

A plurality of through-holes 330 are formed in the rotary reaction tube 300 to allow a fluid to pass through the outer circumferential surface 310 , and a catalyst for water treatment may be provided therein.

The catalyst may be made of the same material as the rotary reaction tube 300 , but may be made of different materials.

That is, when the rotary reaction tube 300 is made of a special zinc material, the catalyst is made of a zinc material and a plurality of materials such as germanium, tourmaline, and charcoal, or may be composed of only zinc material, Different from the material of the rotary reaction tube 300 for efficiency, it may be composed of materials such as germanium, tourmaline, and charcoal.

The catalyst may, for example, be configured in a circular or spherical shape to receive less resistance to the flow of a fluid, and may emit a large amount of negative ions through full contact with the fluid.

In another embodiment, the catalyst may be sintered or powder metallurgically molded to have a porous structure. When the catalyst has a porous structure, the fluid can penetrate into the pores, so the surface contact area with the fluid is spherical with a smooth surface. Since it increases significantly compared to , a large amount of negative ions can be released into the fluid.

Therefore, in the case of a fluid with a high concentration of inorganic salts in the fluid, the catalyst having a porous structure repels a large amount of (-) electrons and diffuses into the fluid, so scale and corrosion caused by hydroxyl action or surface activity action are decomposed and removed It not only improves the ability to clean water, but also maximizes the overall water treatment capacity, such as preventing corrosion on the inner wall of the pipe.

The material of the rotary reaction tube 300 is composed of a diamagnetic material in which a maximum of 0.5% of a copper material is added to a zinc material in one embodiment, thereby inhibiting the adhesion of inorganic salts and contaminated foreign substances to continuously activate the elution of zinc ions. have.

As for the material of the rotary reaction tube 300, in another embodiment, by adding a maximum of 0.3% of a bismuth material to a zinc material, the tissue density of zinc metal during casting is strengthened to improve the durability of the rotary reaction tube through the management of a constant amount of zinc ion elution. may be improved.

As another embodiment of the material of the rotary reaction tube 300 , the zinc ion elution amount may be maximized by adding up to about 0.5% of a magnesium material to a zinc material.

The outer shape of the rotary reaction tube 300 may be configured in a hexagonal shape as in the illustrated drawing when viewed in a flat cross-section, but may be configured in a circular or oval shape without being limited thereto. It may be composed of polygons of various shapes.

As such, when the rotary reaction tube 300 is configured in a polygonal shape, when the fluid comes into contact with the rotary reaction tube 300, it collides with the outer circumferential surface 310 and the corner 320, causing a cavitation effect and a vortex phenomenon. By circulating and generating air bubbles, the effect of improving water quality can be further improved by activating the elution of zinc ions.

Here, the cavitation effect is that vapor cavities are formed in the fluid to create a small area without liquid. This cavitation effect generates strong oxidizing and reducing agents, and efficiently decomposes and eradicates contaminated organic compounds as well as some inorganic salts. It can induce chemical reactions that cause

That is, the cavitation effect physically destroys or ruptures the cell wall or outer membrane of microorganisms and larvae, and also generates bactericidal compounds such as peroxides, hydroxyls, radicals, and the like, so that microorganisms can be eradicated.

Therefore, the fluid passing through the installation space 120 of the housing 100 collides with the outer circumferential surface 310 and the edge 320 of the rotary reaction tube 300 and moves to generate microbubbles through pressure change. After growing, these microbubbles dissociate various molecules in the fluid with a vortex phenomenon as they collapse in the pressure rising region to form free radicals, which are powerful oxidizing or reducing agents. Water quality can be purified as other contaminants are removed.

In addition, the rotary reaction tube 300 is configured in a polygonal shape, the interior of the installation space 120 may also be configured to form a polygon, and the fluid through the inlet tube 110 is a polygonal rotary reaction tube 300 . As the distance between the rotary reaction tube 300 and the inside of the installation space 120 is changed according to the rotation of the rotary reaction tube 300 at the same time as friction with the outside, the fluid moving in the space is accelerated or By generating a vortex and causing frictional impact, the cavitation effect of the fluid is further increased, so that the amount of zinc ion elution can be further maximized.

And when the exterior of the rotary reaction tube 300 is configured in a polygonal shape, it is advantageous not only for production but also for storage such as loading of parts and finished products. By creating a strong impression on the product, you can expect an improvement in sales.

In addition, the plurality of through holes 330 formed at regular intervals on the outer circumferential surface of the rotary reaction tube 300 may be formed in a regular or irregular arrangement, and in forming the through holes 330 on the outer circumferential surface 310 , a flat surface It may be formed by penetrating in a direction perpendicular to the outer circumferential surface, but when formed by penetrating in an inclined direction with respect to the flat outer circumferential surface 310 in order to maximize the surface friction force between the rotary reaction tube 300 and the fluid, the rotational reaction By increasing the friction of the catalyst located inside the tube 300, it is possible to further activate the anions.

In addition, by forming the through hole 330 in each corner 320 as well, noise generated during contact with the fluid is minimized, the fluid movement is evenly distributed, and the friction area with the fluid can be made wider, and the fluid It is possible to further activate the amount of zinc ion elution by activating cavitation, and to minimize the flow rate and pressure loss.

On the other hand, in the case of the upper shaft 340, in the case of the upper shaft 340, a separate installation on the inner surface of the cover 200 in a protruding state in the case of the rotary reaction tube 300 is assembled to the installation space 120 is installed to be supported and rotatable. The groove portion 210 may be rotatably installed in the installation groove portion 210 .

And in the case of the lower shaft 350 , it may be rotatably installed in the seat groove 122 formed on the bottom surface of the installation space 120 .

Here, a circular cap in the form of a sleeve and bushing made of Teflon or copper is assembled on the outer circumferential surfaces of the upper shaft 340 and the lower shaft 350 to facilitate rotation due to fluid friction impact and the upper shaft 340 and the lower shaft (350) can be prevented from being damaged.

In addition, as another embodiment of the upper shaft 340 and the lower shaft 350 , a magnet member may be assembled inside the upper shaft 340 and the lower shaft 350 , and the magnet member includes N and S poles. It can be a permanent magnet made of neodymium with magnetism.

As such, when the magnet member is provided inside the upper shaft 340 and the lower shaft 350, the magnet member inhibits or combines the inorganic particles of cations and anions contained in the fluid moving the rotary reaction tube 300 . It plays a role in separating the inorganic particles, which is very effective in improving the corrosion inhibition performance through the sacrificial anode principle of zinc and the decomposition performance of pollutants such as rust and scale using anions generated from the natural mineral of tourmaline. am.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the described content. Therefore, the scope of the described content does not need to be limited to the described embodiments, and should be defined by the claims and equivalents as well as the claims to be described later.

100: housing 110: inlet pipe
111: foreign material discharge part 112: opening and closing port
113: filter member 120: installation space part
121: entrance 122: seat home
123: receiving groove 124: drain hole
125: drain valve 130: discharge pipe
131: teflon ring 132: hole
133: zinc ion elution amount meter reading meter 200: cover
300: rotary reaction tube 310: outer peripheral surface
320: corner 330: through hole
340: upper shaft 350: lower shaft

Claims (13)

A housing 100 having an inlet pipe 110 on one side and an outlet pipe 130 on the other side of the installation space 120 as the center;
a cover 200 that opens and closes the inlet 121 on the upper side of the installation space 120; and
It includes; a rotary reaction tube 300 that is rotatably installed in the installation space 120 ,
The rotary reaction tube 300 has an outer circumferential surface of a polygon, and each outer circumferential surface 310 and corner 320 has a through hole 330 through which the fluid passes. For easy maintenance, water quality stabilization water treatment device. The method according to claim 1,
An easy-maintenance water treatment device for water quality stabilization, characterized in that any one or both of the inside of the installation space 120 and the outside of the rotary reaction tube 300 are formed of polygons. 3. The method according to claim 2,
A water treatment device for easy maintenance, characterized in that the inside of the installation space 120 and the outside of the rotary reaction tube 300 are configured to have a hexagonal or square shape. The method according to claim 1,
The inlet pipe 110 has a foreign material discharge unit 111 extending on one side of the outer circumferential surface, and the end of the foreign material discharge unit 111 is opened and closed with an opening 112, and a filter inside the foreign material discharge unit 111 is formed. Maintenance, characterized in that the member 113 is installed, the upper side of the filter member 113 is located in the conduit of the inlet pipe 110 so that foreign substances passing through the conduit are filtered by the filter member 113 A water treatment device for water quality stabilization that is easy to repair. 5. The method according to claim 4,
The filter member 113 is
An easy-to-maintain water treatment device for water quality stabilization, characterized in that it consists of a Teflon mesh or a copper mesh. The method according to claim 1,
The discharge pipe 130 is provided with a Teflon ring 131 having an outer diameter corresponding to the inner diameter of the inner pipe, both sides of the Teflon ring 131 are formed with a plurality of holes 132 so that the fluid can move A water treatment device for water quality stabilization that is easy to maintain. 7. The method of claim 6,
The discharge pipe 130 is provided with a zinc ion elution amount meter 133 in the front or rear of the Teflon ring 131, so that the zinc ion elution amount of the fluid before and after passing through the hole 132 of the Teflon ring 131 A water treatment device for easy maintenance, characterized in that it is configured to detect the water quality stabilization. 8. The method of claim 7,
The zinc ion elution amount meter reading meter 133 includes a short-range wireless technology, so that the Internet of Things function is included to check the information on the zinc ion elution amount through interlocking with a smartphone. water treatment equipment. The method according to claim 1,
A receiving groove 123 is formed in the center of the bottom surface of the installation space 120 , and a drain hole 124 is provided on the bottom surface of the housing 100 to be connected to the receiving groove 123 , and the drain hole (124) is a water treatment device for easy maintenance, characterized in that it is opened and closed by the drain valve (125). delete The method according to claim 1,
A water treatment device for easy maintenance, characterized in that the through hole 330 formed in the outer circumferential surface 310 is penetrating in a direction perpendicular to or inclined with respect to the outer circumferential surface 310 . The method according to claim 1,
The rotary reaction tube 300,
The upper shaft 340 is formed to protrude at the center of the upper end and is rotatably installed in the installation groove 210 provided on the inner surface of the cover 200, and the lower shaft 350 is formed to protrude at the center of the lower end, so that the installation space portion A water treatment device for easy maintenance, characterized in that it is rotatably installed in the seat groove 122 formed on the bottom surface of the 120 . 13. The method of claim 12,
A water treatment device for easy maintenance, characterized in that a magnet member is provided inside the upper shaft 340 and the lower shaft 350 of the rotary reaction tube 300 .

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