KR100830147B1 - Ultraviolet rays sterilizer using electrolytic cell and ultrasonic waves - Google Patents

Abstract

An ultraviolet ray sterilizer using an electrolytic cell and an ultrasonic wave is provided to remove foreign matters which are not removed easily during a periodic washing with the ultrasonic wave, simply by means of a sodium hypochlorite generated by the electrolytic cell, and to prevent a secondary pollution by generating the sodium hypochlorite just using a salt dissolved in water. An ultraviolet ray sterilizer using an electrolytic cell and an ultrasonic wave includes: a water tank(1); an ultraviolet ray lamp(10), sterilizing water within the water tank; a vibration member(30), arranged adjacent to the ultraviolet ray lamp, and having an ultrasonic wave oscillator(20) for removing the foreign matters which are attached to the ultraviolet ray lamp; and an electrolytic cell(40), having two electrode boards with a corresponding electrode terminal, through which a voltage is supplied to the electrode boards so as to electrolyze a salt dissolved in the stored water, and generating a sodium hypochlorite so as to remove the foreign matters which are attached to the ultraviolet ray lamp, but not removed even by the oscillation of the vibration member.

Description

Ultraviolet Rays Sterilizer Using Electrolytic Cell and Ultrasonic Waves}

1 is a view showing a UV compound sterilizer using the electrolytic cell and ultrasonic waves of the present invention.

2 shows the main parts of the present invention.

3 is a view showing an example of an electrolytic cell of the present invention.

4 is a view showing another example of the electrolytic cell of the present invention.

* Description of the symbols for the main parts of the drawings *

1: water tank 10: UV lamp

20: ultrasonic vibrator 30: vibrator

40: electrolytic cell 41: electrode terminal

42: electrode plate 43: front plate

44: supply part 45: discharge part

46: electrode plate accommodating part 47: back plate

48: side plate 49: euro

50: control unit 51: water level sensor

The present invention relates to a UV composite sterilizer using an electrolytic cell and an ultrasonic wave, and more particularly, to provide an UV composite sterilizer using an electrolytic cell and an ultrasonic wave to easily remove foreign substances attached to an ultraviolet lamp.

There are many ways to sterilize water, but the simplest and least expensive installation is the sterilization method using ultraviolet lamps. Ultraviolet lamps include ordinary ultraviolet lamps and ultraviolet lamps that generate ozone. These methods are the AOP method to produce an intermediate product called OH radicals to oxidize organic substances, which are various pollutants. This means that the discharge lamp generates 253.7 nm of ultraviolet wavelength and 184.9 nm of ozone generating wavelength simultaneously. In the process of photolysis by combining with oxygen (O₂) in the air, a large amount of OH radicals are produced and oxidized.

In particular, this AOP method can show perfect sterilizing power without leaving any toxicity.It has much stronger oxidizing power than existing oxidizing agents such as chlorine, chlorine dioxide and potassium permanganate. The reaction rate can be increased from at least 10 times to 10,000 times without leaving it, and the results of the sterilization test of the Korea Testing and Research Institute showed that it was 150 times higher than the ozone generator. The main effects of OH Radical produced here can be applied to various fields such as sterilization, disinfection, surface activation, oxidative decomposition of hardly decomposable organic substances, discoloration, deodorization, deodorization, and inhibition of generation of carcinogenic substances (THM). Regardless of strains, evenly sterilizing effect in water quality prevents sterilization by ultrapure water and increases the freshness of water by 6 times, thus preventing water tank and scale inside pipe, and sterilization and deodorization in indoor air purification. As it is possible, it is known to have an excellent effect on groundwater purification, sterilization, water purification, food sterilization, agricultural product sterilization, and seafood sterilization.

In the field of application, it can be used for various purposes such as pharmaceutical companies, soft drink factories, agricultural and marine products factories, horticultural cultivation, pesticide cultivation, hotels, food manufacturing and processing companies, general hospitals, and apartment complexes.

However, the disadvantage of this method is that various foreign matters are attached to the surface of the lamp over time, and the radiation efficiency of the UV lamp is reduced. To solve this problem, periodic lamp cleaning is necessary. This means that somebody has to manage it, and it is not easy to manage it cumbersomely and professionally. So, to solve this problem, it is good to prevent foreign matter from sticking to the lamp or to have an automatic cleaning function. Existing products have a spring-guided guide around the lamp that can be cleaned by hand, and the spring is lowered and then cleaned, but causes damage to the lamp.

In addition, bacteria do not grow in the water tank due to the germicidal power by the ultraviolet lamp, but the second bacteria in the pipe or faucet that enters each household through the water tank is exposed to defenseless, there is a problem that can grow bacteria.

The present invention has been made to solve the above problems, an object of the present invention is to periodically clean the ultrasonic vibration unit adjacent to the vibrator equipped with an ultrasonic vibrator attached to the ultraviolet lamp, the foreign matter that is not easily removed is electrolytic It is to provide a UV compound sterilizer using an electrolytic cell and ultrasonic waves to be removed by the sodium hypochlorite generated by the cell.

In addition, the other object of the present invention is that the UV lamp has no residue compared to the strong sterilizing power, so it is defenseless against secondary pollution. As a solution to this problem, only salt salts dissolved in water without adding salt or other additives may be used. It is to provide a UV compound sterilizer using an electrolytic cell and ultrasonic waves that can prevent secondary pollution by generating sodium chlorate and remaining in water.

In addition, another object of the present invention is to use the electrolytic cell and the ultrasonic wave to extend the life of the electrolytic cell by the polarity change by the timer or the water level sensor as the scale of the electrolytic cell is increased in proportion to the operation time of the electrolytic cell It is to provide a UV compound sterilizer.

UV composite sterilizer using the electrolytic cell and ultrasonic wave of the present invention for achieving the above object is an ultraviolet lamp for sterilizing the water stored in the water tank; A vibration unit attached to the ultraviolet lamp and provided with an ultrasonic vibrator for removing foreign substances attached to the ultraviolet lamp; An electrolysis cell which generates sodium hypochlorite to remove foreign substances attached to the ultraviolet lamp which are not removed by vibration of the vibrating unit; Characterized in that consists of.

In addition, the electrolytic cell of the present invention is characterized in that the electrolytic cell is provided with an electrode plate is provided with an electrode terminal for each of the electrolysis of the salt branch contained in the stored water.

In addition, the electrolytic cell of the present invention is composed of a front plate, a rear plate coupled to the rear portion of the front plate, the front plate and the rear plate is an electrolysis generated by the electrolysis of the supply portion is supplied with the water stored in the water tank Each of the discharge parts for discharging the aqueous sodium chlorate solution is provided, characterized in that the electrode plate accommodating part is formed so that the electrode plates are spaced apart from each other.

In addition, a diaphragm is provided between the electrode plates of the present invention.

In addition, the electrolytic cell of the present invention is a front plate having a supply for supplying the water stored in the water tank, the rear plate is provided with a discharge portion for discharging the aqueous sodium hypochlorite solution generated by electrolysis located in the rear of the front plate And a side plate coupling the front plate and the rear plate to each other, wherein the electrode plate is stacked and accommodated in the electrolytic cell.

In addition, the water tank of the present invention; is characterized in that the water level sensor further detects.

In addition, the present invention is linked to the water level sensor for controlling the power supply and current applied to the electrode terminal; It is characterized in that the further provided.

In addition, the control unit of the present invention is characterized in that the pole switching of the power applied to the electrode terminal.

In addition, the present invention is linked to the water level sensor, the timer to periodically switch the pole; characterized in that it is further provided.

Hereinafter, the UV composite sterilizer using the electrolytic cell and the ultrasonic wave of the present invention will be described with reference to the accompanying drawings.

1 is a view showing a state in which the UV composite sterilizer using the electrolytic cell and ultrasonic wave is installed in a water tank, and FIG. 2 is a view showing a state in which the UV composite sterilizer using the electrolytic cell and ultrasonic wave of the present invention is installed in a weak water bath. 3 is a view showing an example of the electrolytic cell of the present invention, Figure 4 is a view showing another example of the electrolytic cell of the present invention.

As shown, the UV composite sterilizer using the electrolytic cell and the ultrasonic wave of the present invention is an ultraviolet lamp 10 for sterilizing the water stored in the water tank (1); A vibrator 30 attached to the ultraviolet lamp 10 and provided with an ultrasonic vibrator 20 for removing foreign substances attached to the ultraviolet lamp 10; An electrolysis cell 40 generating sodium hypochlorite to remove foreign substances attached to the ultraviolet lamp 10 that are not removed by the vibration of the vibrator 30; This is done.

The ultraviolet lamp 10 serves to sterilize the water stored in the water tank 1, and uses a general ultraviolet lamp.

The vibrator 30 having the ultrasonic vibrator 20 is attached to the ultraviolet lamp 10 and serves to remove foreign substances attached to the ultraviolet lamp 10.

The electrolytic cell 40 serves to remove the foreign matter attached to the ultraviolet lamp 10 that is not removed by the vibration of the vibration unit 30 by generating sodium hypochlorite.

The UV composite sterilizer using the electrolytic cell and the ultrasonic wave having the above structure is housed in the water tank 1 as shown in FIG. 1 to sterilize bacteria and the like contained in the water. In addition, the UV compound sterilizer using the electrolytic cell and the ultrasonic wave can be used integrally with the electrolytic cell, the electrolytic cell can be separated. Accordingly, the UV compound sterilizer using the electrolytic cell and the ultrasonic wave may be separated from the electrolytic cell and sterilized using only an ultraviolet lamp.

2 is a view showing a state in which the UV compound sterilizer using the electrolytic cell and the ultrasonic wave is installed in a weak water bath, etc. The UV compound sterilizer using the electrolytic cell and the ultrasonic wave becomes one body (2) and water flows into the body (2). Part 3 and the discharge part (4) is provided and the body 2, the UV lamp 10, the vibrator 30 is provided with an ultrasonic vibrator 20 and the electrolytic cell 40 is provided with water It shows the structure to disinfect and discharge.

The electrolytic cell 40 is provided with an electrode plate 42, each of which is provided with an electrode terminal 41 for electrolysis of the salt branch contained in the water stored in the water tank, between the electrode plate 42 The current applied to causes the salt branch to electrolyze. The electrode plate 42 used in the electrolytic cell 40 of the present invention preferably uses a DSA (Dimensionally Stable Anode) electrode coated with ruthenium or iridium on the outside of titanium. The DSA electrode has a relatively low overvoltage for oxygen generation, and the toxic organic substance itself on the surface of the electrode is also oxidized by various types of active oxygen having strong oxidizing power generated before and after the potential at which oxygen is generated. Preference is given to using electrodes.

As the current supplied to the electrode terminal 41 of the electrolytic cell 40, it is preferable to use a current converted by a rectifier (not shown). The switching mode power supply uses a 220V single phase, and supplies DC 10V 5, 10, 15 A (amps) to the electrolytic cell 40. The rectifier (SMPS) is a high efficiency and significantly small volume and stable compared to the SCR type electricity consumption.

As an example of the electrolytic cell 40 of the present invention, the front plate 43, the rear plate 47 is coupled to the rear portion of the front plate 43, as shown in Figure 3, the front plate ( 43 and the back plate 47 are provided with a supply part 44 to which water is supplied, and a discharge part 45 for discharging the aqueous sodium hypochlorite solution generated by electrolysis to the sterilizing water storage tank 80, respectively. The electrode plate accommodating part 46 is formed to accommodate the electrode plate 42 spaced apart from each other. The water supplied to the supply part 44 is moved to the space between the electrode plates 42 so that the salt branch contained in the water is electrolyzed to generate sterile sterile water and is discharged to the discharge part 45 to be discharged to the ultraviolet lamp 10. Remove foreign substances attached to).

Looking at the reaction occurring in the cathode while the power is applied through the electrode terminal 41 of the electrode plate 42 as follows.

2H ₂ O + 2Na ⁺ + 2e- → 2NaOH + H ₂

^{_{2H 2 O + 2e - → H}} 2 + OH - , and

The reaction at the anode

2Cl ^{- -} 2e ^- → Cl ₂

^{_{2H 2 0 - 4e - → 4H}} + + O 2

Cl ₂ + H ₂ O ↔ HClO + HCl.

Here, sodium hydroxide (NaOCl) is generated by combining sodium hydroxide (NaOH) generated at the cathode and chlorine gas at the positive electrode. Sodium hypochlorite (NaOCl) aqueous solution is not only to remove the foreign matter attached to the ultraviolet lamp 10, but also to sterilize and disinfect various bacterial wheat microorganisms remaining in the water stored in the water tank. In addition, the positive and negative electrodes generate ionized water such as alkaline water and acidic water.

At this time, the diaphragm 42a may or may not be provided between the electrode plates 42. When the diaphragm 42a is not installed between the electrode plates 42, sterilized water may be generated using sodium hypochlorite generated by electrolysis, and the diaphragm 42a is disposed between the electrode plates 42. In this case, not only sodium hypochlorite generated by electrolysis can be used, but also ionic water such as acidic water and alkaline water generated at the anode and cathode can be separately supplied.

Electrolytic cell 40 according to another embodiment of the present invention is located in the front plate 43, the rear plate of the front plate 43 is provided with a supply portion 44 is supplied with water as shown in FIG. It consists of a rear plate 47 having a discharge portion 45 for discharging the aqueous sodium hypochlorite solution generated by decomposition, and a side plate 48 for coupling between the front plate 43 and the rear plate 47. The electrode plate 42 is stacked and accommodated in the electrolytic cell 40.

In addition, it is preferable that the electrode plate 42 is alternately formed left and right alternately with the flow path 49 so that the electrode plate 42 is bypassed and discharged from the supply part 44 to the discharge part 45. This increases the contact of the supplied water with the electrode plate 42, thereby increasing the electrolysis efficiency of the salt.

In addition, the water tank 1 of the present invention is preferably further provided with a water level sensor 51 for detecting the level of the sterilizing water interlocked with the control unit 50. In the figure, a water level sensor 51 made of a ball top was used, and another type of water level sensor may be used.

The controller 50 controls the power supply and the strength of the current applied to the electrode terminal 41. The control unit may generate sterilizing water (aqueous sodium hypochlorite solution such as 50, 100, 150 ppm, etc.) through electrolysis of the salt branch by adjusting the intensity of the current applied to the electrode terminal 41.

In addition, the controller 50 is interlocked with the water level sensor 51, if the amount of water in the water tank is large, the intensity of the current supplied to the electrolytic cell 40 increases, if the amount is small the electrolytic cell ( The intensity of the current supplied to 40 is reduced. As such, the controller 50 controls the strength of the current according to the amount of water stored in the water tank.

In addition, the control unit 50 controls to enable the pole switching of the power applied to the electrode terminal. In this way, when the power applied to the electrode terminal 41 is polarized, it is possible to suppress scale generation of the electrode due to calcium, magnesium, or the like contained in the water.

In addition, the present invention is preferably further provided with a timer (not shown) to periodically change the pole in conjunction with the water level sensor 51. If the amount of water in the water tank is large, the pole switching period of the voltage supplied to the electrolytic cell 40 is frequent, and if the amount is small, the pole switching period of the voltage supplied to the electrolytic cell 40 is rarely generated to generate scale of the electrode. By suppressing this, it is possible to extend the life of the electrolytic cell.

As described above, the present invention efficiently removes foreign matters by periodically cleaning ultrasonic waves adjacent to a vibrating unit equipped with an ultrasonic vibrator attached to an ultraviolet lamp and removing foreign matters not removed by sodium hypochlorite generated by an electrolytic cell. It can maximize the sterilization efficiency of lamp, and it can prevent secondary pollution by generating sodium hypochlorite and remaining in water with salt branch dissolved in water without adding salt or other additives. It is possible to extend the life of the electrolytic cell by performing a pole switching according to the amount of the scale to be fitted to the cathode of the electrolytic cell in proportion to the operation time.

Claims (9)

Ultraviolet lamp 10 for sterilizing the water stored in the water tank (1); A vibrator 30 provided adjacent to the ultraviolet lamp 10 and provided with an ultrasonic vibrator 20 for removing foreign matter attached to the ultraviolet lamp 10; An electrolysis cell 40 generating sodium hypochlorite to remove foreign substances attached to the ultraviolet lamp 10 that are not removed by the vibration of the vibrator 30; UV composite sterilizer using an electrolytic cell and ultrasonic waves, characterized in that consisting of. The method of claim 1, The electrolytic cell 40, the electrolytic cell and the ultraviolet rays using ultrasonic waves, characterized in that the electrode plate 42 is provided with each of the electrode terminal 41 is applied to the electrolysis of the salt branch contained in the stored water Combined Sterilizer. The method of claim 2, The electrolytic cell 40 is composed of a front plate 43, a rear plate 47 coupled to the rear of the front plate 43, the front plate 43 and the rear plate 47 is supplied with water And a discharge part 45 for discharging the sodium hypochlorite aqueous solution generated by electrolysis to the sterilizing water storage tank 80, respectively, and having the electrode plate 42 spaced apart from each other. Ultraviolet compound sterilizer using an electrolytic cell and ultrasonic waves, characterized in that each plate receiving portion 46 is formed. The method of claim 3, wherein Ultraviolet compound sterilizer using an electrolytic cell and ultrasonic waves, characterized in that the diaphragm is installed between the electrode plate (42). The method of claim 2, The electrolytic cell 40 is a front plate 43 having a supply part 44 for supplying water, and a discharge part for discharging an aqueous sodium hypochlorite solution generated by electrolysis located at the rear of the front plate 43 ( The back plate 47 is provided with a 45, and the side plate 48 for coupling between the front plate 43 and the rear plate 47 is composed of, the electrode plate 42 is the electrolytic cell 40 Ultraviolet compound sterilizer using an electrolytic cell and ultrasonic waves, characterized in that a plurality of stacked inside. The method according to any one of claims 2 to 5, The water tank is a UV level sterilizer using an electrolytic cell and ultrasonic waves, characterized in that the water level sensor further detects; The method of claim 6, A control unit 50 interlocked with the level sensor 51 to control power supply and current intensity applied to an electrode terminal; Ultraviolet compound sterilizer using an electrolysis cell and ultrasonic waves, characterized in that it is further provided. The method of claim 7, wherein The control unit 50 is a UV composite sterilizer using an electrolytic cell and ultrasonic waves, characterized in that the polarity of the power applied to the electrode terminal 41 is possible. The method of claim 8, A UV composite sterilizer using an electrolytic cell and ultrasonic waves, characterized in that it further comprises: a timer for interchanging with the water level sensor 51 to periodically switch the pole.

Images