KR101165348B1 - Water purification device using scale buster - Google Patents

Abstract

PURPOSE: A water treatment apparatus using an ion crystallization catalyst device is provided to actively remove scales and rust from the inside a water pipe without energy supply or chemical treatment. CONSTITUTION: A water treatment apparatus using an ion crystallization catalyst device comprises a butterfly valve(13), an inspection hole(15), a scale buster, and a cleaning polly pig. The butterfly valve opens and close a disc(12) to control a fluid flow in a water pipe. The inspection hole is integrally extended from one side of the butterfly valve and has an inlet(14) for washing and inspecting the inside the water pipe. The scale buster is installed inside the water pipe through the inlet of the inspection hole and prevents the inside the water pipe from being corroded. The cleaning polly pig is put into the water pipe through the inlet of the inspection hole and removes scales and dust from the inner surface of the water pipe.

Description

Water purification device using ion crystallization catalyst device

The present invention relates to a water treatment apparatus using an ion crystallization catalyst device installed in a water supply pipe (for example, installed every 500m to 1000m pipe).

More specifically, a water supply shutoff valve (a butterfly valve is used as an example) installed in the water supply pipe and an inspection port for cleaning and checking the inside of the pipeline are integrated, and a corrosion prevention device by an ion crystallization catalyst device is provided. The present invention relates to a water treatment apparatus using an ion crystallization catalyst device that prevents scale, corrosion, scale, and rust in a pipe and removes rust and corrosion in a pipe by a cleaning polly pig.

The water supply pipe pressurizes the purified water in the water treatment plant at the pumping station, and stably supplies water to a faucet such as a home. Immediately after the new installation of the water supply pipe, immediately after the repair of the water supply pipe, and immediately after the replacement of the old water pipe, it is difficult to supply water in a good water quality state.

On the other hand, if long-term use of water pipes causes scales due to corrosion inside the pipes, ages due to oxidative corrosion, deposits accumulate, or adheres to bacterial microorganisms for a long time, water flow area is reduced and water quality is seriously contaminated. do. For this reason, a separate water treatment device that is economically burdened such as a water purifier and a water heater is used.

In general, corrosion and scale cause reactions between various minerals (containing metal cations such as calcium (Ca ++), potassium (K ++), sodium (Na ++) and magnesium (Mg ++)) and elements in water. The cause of scale generation is that calcium (Ca) and magnesium (Mg) ions dissolved in water are converted into low soluble forms of carbonate (CaCo₃, MgCo₃) by heating.

On the other hand, rust (Fe) or manganese (Mn) is converted to rust and contaminates water as it combines with oxygen molecules in the water. That is, the iron (Fe) component contained in the water pipe loses electrons due to friction with the fluid and is converted into iron ions, and iron ions react with oxygen in water to produce iron oxide. This is represented by the chemical formula below.

Fe = (Fe² ++) + (2e-)

(Fe² +) + (O₂) + (H₂0) = Fe₂O₃

Therefore, it is necessary to clean the water pipes in a timely manner. The cleaning cycle of the water supply pipe is different depending on the water quality of the water supply and the pipe flow rate depending on the pipe network configuration. It is required every 2-3 years.

The washing method of the water supply pipe includes a flushing method in which a certain section of the water supply network is bundled into one independent loop and cleaned by water supply of a hydrant, and a certain section of the water supply network is bundled in one independent loop, which is slightly smaller than the diameter of the network. The pigging method is used to inject a poly pig of a large (e.g., 5% in diameter) elastic material (e.g., a urethane material) and force it by hydraulic pressure. do.

The above-described flushing is a method mainly used for cleaning a tube free of sediments and suspected adhesion of bacterial microorganisms in the tube, and pigging is a method used for cleaning a generated tube of intravascular deposits.

On the other hand, the total length of domestic water pipes is about 45,000km, which is more than 15 years old. The leakage rate of water supply is about 14.1%, which causes economic loss of more than about 3 trillion won annually, costing KRW 800 billion in repairs annually, and 76% of leaks are pointed to the cause of aging due to pipeline scale and rust. to be. Therefore, it is absolutely required to supply clean and safe tap water by preventing and removing rust, scale and scale of the water supply pipe.

For this reason, according to the Water Law Enforcement Rule, which was promulgated on December 30, 2007 to meet users' demand for safe drinking water and tap water, According to the result of this, an inspection hole for cleaning and rehabilitation of the pipeline should be installed at the required position (it should be installed every 1000m of the water pipe).

In order to prevent economic losses such as distrust of the tap water and repair and replacement due to aging of the pipe, corrosion such as scale and rust generated by oxidation by dissolved oxygen dissolved in the tap water in the pipe Water treatment device that can remove the cause of the problem, cleaning device that can periodically clean and check the scale in the pipe due to aging and water pollution of the pipe, and prevent corrosion of the valve that controls the flow of fluid in the pipe Corrosion protection is required.

An embodiment of the present invention integrates a water supply shutoff valve (for example, should be installed every 500 m to 1000 m) and an inspection port (for example, to be installed every 1000 m of pipeline) for cleaning and periodically checking the inside of the pipeline. It is related to a water treatment device using an ion crystallization catalyst device to reduce the cost, installation and repair cost, and to ensure reliability by promptly responding to an abnormality in a valve.

Embodiments of the present invention relate to a water treatment apparatus using an ion crystallization catalyst device capable of actively preventing scale, corrosion, scale and rust in a water pipe without separate chemical treatment or supply of energy from the outside.

Embodiments of the present invention relate to a water treatment apparatus using an ion crystallization catalyst device in which the inside of a valve and a check opening are lined with polyurethane to maintain corrosion resistance, abrasion resistance, and ozone resistance, thereby extending their service life. .

Embodiments of the present invention relate to a water treatment apparatus using an ion crystallization catalyst device that eliminates distrust of tap water by removing rust and scale adhered to a pipe by a cleaning poly pig.

Water treatment apparatus using an ion crystallization catalyst device according to an embodiment of the present invention,

In the water treatment device of the water supply pipe for pressurizing the purified water in the water purification plant in the pumping station to supply to homes, etc.

A butterfly valve in which a disc is opened and closed to the valve body so as to control the flow of fluid in the water supply pipe;

The check valve is formed integrally extending on one side of the butterfly valve, the opening is opened to open and close so that the inside of the water supply pipe can be washed and checked;

A scale booster which is mounted inside the water supply pipe through the inlet of the inspection port and prevents scale and corrosion inside the water supply pipe by an ion crystallization catalyst device due to a potential difference between ceramic and zinc,

It is introduced into the water supply pipe through the inlet of the inspection opening, and includes a cleaning poly pig which is transferred as a fluid pressure in the water supply pipe to wash and remove scale and scale attached to the inner surface of the water supply pipe.

According to a further preferred embodiment, the valve body inner surface and the flange of the above-described butterfly valve, and the anti-corrosion polyurethane lining which is each coated with a thickness of 3 to 5 mm on the inner surface of the inspection port.

The above-mentioned scale booster may include any one of tourmaline, ear lapis lazuli, higerion, loess, elvan, gansumite, germanium, and charcoal to emit anion.

The water treatment apparatus using the ion crystallization catalyst device according to the embodiment of the present invention configured as described above has the following advantages.

It is economical to reduce the purchase cost by integrating the water shutoff valve installed in the water pipe and the inspection port, and it is easy to install to secure convenience.

In addition, it is possible to prevent water pollution by actively preventing scale, corrosion, scale and rust inside the water pipe without a separate chemical treatment or supply of energy from the outside.

In addition, since the inside of the valve and the check opening are lined with a corrosion-resistant, abrasion-resistant polyurethane material, it is possible to reduce the after-care costs by extending their service life.

In addition, by removing the rust and corrosion adhered to the pipe by the cleaning poly pig, it can contribute to the improvement of national health while ensuring the safety and reliability of tap water.

1 is a schematic view of a water treatment apparatus using an ion crystallization catalyst device according to an embodiment of the present invention,
2 is a state of use of the scale booster in the water treatment apparatus using the ion crystallization catalyst device according to an embodiment of the present invention,
3 is a state of use of the cleaning poly pig in the water treatment apparatus using the ion crystallization catalyst device according to an embodiment of the present invention,
4 is a state diagram of a water treatment apparatus using an ion crystallization catalyst device according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which is intended to explain in detail enough to easily practice the invention having ordinary knowledge in the art to which the present invention pertains. This does not mean that the technical spirit and scope of the present invention is limited.

1 to 4, the water treatment apparatus using the ion crystallization catalyst device according to an embodiment of the present invention,

In the water treatment device of the water supply pipe for pressurizing the purified water in the water purification plant in the pumping station to supply to homes, hospitals, etc.,

The water inside the water supply pipe (for example, 50 to 3000 mm in diameter) (10) to the valve body (11) to control the flow of the fluid (for example, to handle a capacity of 10 to 15 kg / ㎠ pressure) A butterfly valve (for example, mandatory to be installed every 500 to 1000 mm) in which a disc 12 is installed to be opened and closed (carbon steel may be used as an example) 13 and ,

The butterfly valve 13 is formed integrally extending on one side, the inspection opening is formed to be opened and closed to the opening 14 so as to periodically clean or check the scale, rust and scale, etc. stuck to the inner surface of the water supply pipe 10. (For example, mandatory installation every 1000 mm in the pipeline) (15),

It is mounted inside the water supply pipe 10 through the inlet 14 of the inspection port 15, and the ion crystallization catalyst device (for example, 10 ~ 15kg / ㎠ pressure fluid by the potential difference between the ceramic and zinc (Zn) Scale 16 in the water supply pipe 10 and a scale buster 17 for preventing corrosion,

The inside of the water supply pipe 10 is introduced into the water supply pipe 10 through the inlet 14 of the inspection opening 15, and is transferred as a fluid pressure in the water supply pipe 10 to wash the scale 16 and the scale that adhered to the inner surface of the water supply pipe 10. And a cleaning polly pig (eg, formed of a polyurethane material having high elasticity so as to be elastically compressed and restored) as shell or bullet shape to be removed.

Corrosion-resistant polyurethane lining (20) coated on the inner side and the flange (19) of the valve body (11) of the butterfly valve (13) and on the inner side of the inspection opening (15) as a thickness of 3 to 5 mm. ) May be included.

The above-described scale booster 17 may include any one of tourmaline, guinea pig, higerion, loess, elvan, macsumite, germanium, and charcoal to emit negative ions.

In the figure, reference numeral 23 denotes a handle for opening and closing the disk 12 of the butterfly valve 13.

Hereinafter, a use example of a water treatment apparatus using an ion crystallization catalyst device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 1 to 4, the above-described butterfly valve 13 and the check opening 15 is formed integrally has the following advantages.

Purchasing cost, installation cost, and repair cost by integrating the inspection port 15, which must be installed every 1000m of the water supply pipe 10, and the butterfly valve 13, which should be installed every 500 ~ 1000mm according to the revised water supply law. This has the economic advantage of reducing maintenance costs.

As a specific example, the price of the general butterfly valve 13 is 15 million won / unit, the checker 15 15 million won / unit, the scale booster 17 is 140 million won / unit, 168 million It costs 1 million won. On the other hand, when the functions of the butterfly valve 13, the checker 15, and the scale booster 17 and components are integrated, the estimated price is about 92 million won, which can reduce 45% per unit. Based on 50 units of annual use, it can save 166 million won × 50 (units) = 8.55 billion won × 0.45 = 3.7 billion won.

In addition, by installing the butterfly valve 13 and the check opening 15 integrally at one time to ensure the installation convenience, it can reduce the cost accordingly.

In addition, when inspecting the water treatment apparatus, the butterfly valve 13 is closed and inspected, and when an abnormality is found in the water treatment apparatus, it can be inspected and repaired through the inspection port 15, thereby maintaining maintenance.

As shown in FIGS. 1 and 2, the above-described valve body 11 inner surface and flange 19 and the inspection port 15 inner surface are each coated with a thickness of 3 to 5 mm (spiral on the inner surface of the valve body 11). After molding the grooves, the adhesive force is increased as the polyurethane material is molded by the mold.) Corrosion can be prevented by the polyurethane lining 20. That is, the corrosion resistance, abrasion resistance, impact resistance, ozone resistance by the polyurethane lining 20 to prevent self-corrosion (say rust generation) can be extended their service life. In addition, due to the low coefficient of friction of the polyurethane material, the torque during the disk operation is small, which can reduce the failure factor.

In addition, by lining the body and the flange part of the access port (15) integrally with polyurethane material, it prevents corrosion of the inner surface of the access port (15), and uses a separate gasket when connecting pipes to the access port (15). This becomes unnecessary.

As shown in FIGS. 1 and 2, when the inlet 14 of the inspection opening 15 is opened and the scale booster 17 is introduced and mounted, the fluid transferred along the water supply pipe 10 is scaled booster 17. Since it is contacted while passing through), it is possible to remove the scale in the water supply pipe 10, or to suppress or prevent the occurrence of rust and corrosion.

In other words, zinc (Zn) formed on the surface of the scale booster 17 is constantly ionized due to contact with the fluid and is first combined with oxygen in the water. As a result, iron and oxygen in the water supply pipe 10 can no longer react, thereby suppressing corrosion in the water supply pipe 10 to prevent scale and rust generation.

In addition, magnetite generated in the water supply pipe 10 due to ionization of zinc is reduced to iron (Fe) to remove rust (Fe₂O₃ → Fe₃O₄), and durability of the water supply pipe 10 can be secured (reduced iron ions). Afterwards, since zinc ions remaining in water have a greater tendency of ionization than iron ions, it is possible to fundamentally prevent the iron component of the metallic water supply pipe 10 from being dissolved in water).

At this time, by the zinc sacrificial anode method to continuously release the negative ions due to the potential difference between the tourmaline ceramic (catalyst) of the scale booster 17 and zinc to prevent corrosion in the water supply pipe 10 itself is used in the art Because of the technical content, detailed description thereof will be omitted.

As shown in FIGS. 3 and 4, the water supply pipe 10 is formed inside the pipeline of the water supply pipe 10 described above to expand the aging and water pollution of the pipeline (eg, scale, rust and scale). ), The cleaning poly pig 18 may be poured into the cleaning poly pig 18 to be periodically cleaned.

That is, after closing the butterfly valves 13 and 21 installed at a constant interval in the water supply pipe 10, the cleaning poly pig 18 is transferred to the water supply pipe 10 through the inlet 14 of the inspection port 15. Forced to One side of the butterfly valve 13 is opened to forcibly transfer the cleaning poly pig 18 by the fluid pressure in the water supply pipe 10. As a result, scale, impurities, and the like, which are removed from the inner surface of the water supply pipe 10, are discharged to the outside through the bypass pipe 22 installed adjacent to the other butterfly valve 21.

At this time, since the technical content itself of forcibly transferring the cleaning poly pig 18 by the fluid pressure in the water supply pipe 10 to remove the scale of the inner surface of the water supply pipe 10 is used in the art, the construction and operation thereof Detailed description thereof will be omitted.

In addition, pigs having various shapes and functions of the cleaning poly pig 18 can be freely selected. As an example, a probe cctv (not shown) may be mounted on the cleaning poly pig 18 to photograph an interior of the water supply pipe 10.

According to the water treatment apparatus using the ion crystallization catalyst device according to the embodiment of the present invention as described above, by reducing the purchase, installation, maintenance costs, etc. by integrating the check valve and the water supply shutoff valve installed in the water pipes Can be checked and repaired quickly. Water pollution can be prevented by actively preventing scale, corrosion, scale and rust inside the water pipe, and rust and corrosion stuck to the pipe can be removed by the cleaning poly pig. The insides of the valves and access openings can be lined with a corrosion-resistant polyurethane material to extend their service life.

10; Water supply piping
11; Valve body
12; Disk
13; Butterfly valve
14; Slot
15; Check
16; Scale
17; Scale buster
18; Cleaning polly pig
19; flange
20; Polyurethane lining

Claims (3)

In the water treatment device of the water supply pipe which pressurizes the purified water in the water purification plant at a pumping station and supplies it to a home.
A butterfly valve in which a disc is opened and closed to a valve body so as to control a fluid flow in the water supply pipe;
An inspection opening formed integrally with one side of the butterfly valve, the opening being opened to be opened and closed to clean and check the inside of the water supply pipe;
A scale booster mounted inside the water supply pipe through an inlet of the inspection port and preventing scale and corrosion in the water supply pipe by an ion crystallization catalyst device due to a potential difference between ceramic and zinc,
Ion crystallization is introduced into the water supply pipe through the inlet of the inspection port, it comprises a cleaning poly pig which is transferred as a fluid pressure in the water supply pipe to wash and remove scale and scale adhered to the inner surface of the water supply pipe. Water treatment device using a catalytic device. The ion crystallization catalyst device according to claim 1, further comprising a corrosion preventing polyurethane lining which is coated at a valve body inner surface and a flange of the butterfly valve with a thickness of 3 to 5 mm on the inner surface of the inspection port. Water treatment device used. The apparatus of claim 1, wherein the scale booster includes any one of tourmaline, guineastone, higerion, loess, elvan, maculite, germanium, and charcoal which emits negative ions.

Images