KR100492969B1 - ELECTROLYSIS TANK FOR GENERATION OF NaOCL - Google Patents

Abstract

The present invention relates to bath electrolysis for generating sodium hypochlorite, and more particularly to a flow of salt water into the pair of electrolysis hypochlorite (NaOCl ^-) generated hameuroseo electrolysis using the disinfecting water and water purification and disinfection The present invention relates to an electrolysis tank for generating sodium hypochlorite.

To this end, the present invention, the electrolysis tank is provided with a plurality of holes formed on one side of the inside of the first mesh of the titanium material is clogged end and the other side is open on one side to surround the outside of the first network and a plurality of the front Two holes are formed, and the other side is composed of a second mesh having an outlet hole, and the outer side is a transparent synthetic resin tube, both ends of which are joined by flanges and the electric wires are inserted into and coupled to flanges formed on both sides. It is characterized by being formed to be applied inside.

Description

ELECTROLYSIS TANK FOR GENERATION OF NaOCL

The present invention relates to a water purification water using sodium hypochlorite and an electrolysis tank in a sterilization apparatus, and more particularly, to disinfect water using sodium hypochlorite (NaOCl) obtained when electrolyzing salt water in an electrolysis tank. It relates to a sterilizer.

In general, most tap water or swimming pool facilities use ozone, ultraviolet rays, chlorine gas or chlorine gas to disinfect water. In particular, when sterilizing with liquefied chlorine or chlorine gas, it can smell in water and cause various skin diseases. Moreover, chlorine used as a disinfectant in swimming pools has serious problems causing diseases such as lung disease, skin disease, conjunctivitis, etc. there was.

The present invention has been made in order to solve such a conventional problem, by forming an electrolysis tank in the purified water and sterilization device, the salt obtained by electrolyzing the brine by flowing salt water between the electrodes formed in the electrolysis tank Sodium chlorate (NaOCl) is used to disinfect tap water and swimming pools, enabling environmentally friendly, strong and sustainable water disinfection, and forming a system together with microfilters, water softeners, and storage tanks. It is an object of the present invention to provide an electrolysis tank which generates disease-free, environmentally friendly sodium hypochlorite.

In order to achieve the above object, the present invention provides a first mesh of titanium material having a plurality of holes formed at one side and a closed end thereof, and having one side open at the other side of the electrolytic bath to open the outside of the first mesh. It is composed of a second net that wraps and a plurality of holes are formed on the front side, and an outlet hole is formed on the other side, and the outside is a transparent synthetic resin tube, both ends of which are joined by flanges, and wires are inserted into the flanges formed on both sides. By combining, it is characterized in that the current is formed to be applied inside.

Hereinafter, described in detail by the accompanying drawings as follows.

1 is a flowchart of a sterilization apparatus according to the present invention, FIG. 2 is an external perspective view of an electrolysis tank according to the present invention, FIG. 3 is an exploded perspective view of the electrolysis tank according to the present invention, and FIG. 4 is an electrolysis according to the present invention. A cross section of the jaw. As shown in FIG. 1, the incoming water is supplied as treated water through a micro filter 10, and the water passing through the micro filter 10 is supplied to the water softener 20 and passes through the water softener 20. One water is supplied to the brine storage tank 30, while the salt water storage tank 30 is salt input (60), at the same time the brine storage tank 30 is supplied to the electrolysis tank 40 and the electrolysis tank ( 40 is connected to the sterilant storage tank 50 and the sterilant storage tank 50 is connected to the treated water. The electrolysis tank 40 is connected to the rectifier 70 and at the same time connected to the pickling water storage tank 80, the pickling water storage tank 80 is connected to the electrolysis tank 40.

Referring to the operation of the present invention configured as described above is as follows.

The incoming water passes through the micro filter (10), where the foreign substances contained in the incoming water, sand, hair, etc., which are not dissolved in the water are filtered out of the filter, and the water passing through the filter becomes treated water, which is a water supply source or a swimming pool. It is supplied to the back.

On the other hand, in order to disinfect bacteria and microorganisms contained in the treated water, it is necessary to add a disinfectant to the treated water.

Part of the treated water from the micro filter 10 is supplied to the water softener 20. The water softener 20 removes all the minerals magnesium and calcium contained in the water through the ionic resin, and the removed water is stored in the brine storage tank. 30 is supplied.

The salt water storage tank 30 is connected to the salt input (60), and the salt is added to make salt water by the stirring device to store the salt content at this time to be 30000 ~ 40000PPM.

 The brine prepared as described above is introduced into the first network 44 formed in the electrolysis tank 40 through the inlet part 41 and the holes 44 'formed in the first network 44. Brine is introduced into the second mesh 45 surrounding the outside of the first mesh, and the brine flows out through the hole 45 'formed in the second mesh 45. The spilled brine is again stored in the sterilant storage tank 50 via the outlet 42 through the outlet hole 48 formed in one side of the second mesh 45. In addition, the salt water flowing as described above is an anode of which a current of about 30 to 40 A flows as a voltage of 9.5 V DC applied through the flange 90 formed on both sides while passing through the first mesh 44 and the second mesh 45. The salt water of 30000 ~ 40000PPM passing through the two DC electrode anode and the cathode by the (+) line 46 and the cathode (-) line 47 is electrolyzed.

H ₂ O + NaCl + e ^- H ₂ + a → NaOCl and NaOCl is called the same procedure as set forth in which the sodium hypochlorite formed as described above, stored in the sterilizing agent reservoir (50). Sodium hypochlorite is also a disinfectant with strong and lasting bactericidal power.

On the other hand, since the foreign matter is attached to the first net 44 and the second net 45 of the electrolysis tank 40 during the electrolysis process can reduce the electrolysis capacity hydrochloric acid and the like in the pickling water storage tank (80) It is possible to remove the foreign matter by impregnating the electrode attached to the foreign matter.

Sodium hypochlorite (NaOCl) produced in the electrolysis tank 40 is stored in the disinfectant storage tank (5) and is connected to the treated water supply pipe by a pump device to supply the treated water. NaOCl) is sterilized with water and connected to the supply pipe of tap water or pool water.

As described above, the present invention uses hypochlorous acid (NaOCl), which is formed by electrolyzing salt water by forming an electrolysis tank in the water purification device without using chlorine in disinfecting and supplying water, thereby harming the human body. It has almost no skin disease, no eye disease, excellent sterilizing power, no smell, environmentally friendly, and uses salt to reduce maintenance costs, and it is possible to have semi-permanent lifespan by cleaning network with pickling water. .

1 is a flow chart of a sterilization apparatus according to the present invention.

Figure 2 is an external perspective view of the electrolysis tank according to the present invention.

Figure 3 is an exploded perspective view of the electrolysis tank according to the present invention.

Figure 4 is a cross-sectional view of the coupling of the electrolysis tank according to the present invention.

Claims (1)

The incoming water is supplied to the treated water through the micro filter (10), the salt (60) is added to the salt storage tank (30), and the sodium hypochlorite (NaOCl) is decomposed in the electrolysis tank (40). In the water purification and sterilization device to generate and store it in the storage tank 50 and use it as a sterilizer, The electrolysis tank 40 has a plurality of holes 44 'formed at one side and a first mesh 44 made of titanium, which is closed at an end thereof, and one side is opened at the other side thereof, so that the first mesh ( It is composed of a second mesh 45 which surrounds the outside of the 44 and a plurality of holes 45 'are formed on the front surface and the outlet hole 48 is formed on the other side, and the transparent synthetic resin tube 43 is transparent to the outside. The both ends of the furnace are coupled to the flange 90, the anode line 46 is formed on the inlet portion 41 side to the flange 90 formed on both sides, and the cathode line 47 is coupled to the outlet portion 42 to the current Electrolysis tank 40 for generating sodium hypochlorite, characterized in that the electrolysis tank 40 is applied to the inside to cause electrolysis to generate hypochlorous acid.