KR100370276B1 - Sterilization and Washing Method of Storage Tank Wall - Google Patents

Abstract

The present invention is sterilized so that the inner wall of the storage tank for storing products, raw materials or cooling water used in the manufacturing process of medicines, food, electronic parts, etc. can be kept clean and aseptic as possible using ozone water. The present invention relates to an apparatus for cleaning, and more particularly.

Ozone (O ₃ ) is generated through the ozone generator and mixed with distilled water (or purified water) to produce ozone water (O ₃ + H ₂ O) at a constant pressure through a jet nozzle (or spray nozzle) installed in the tank. The present invention relates to an apparatus that sterilizes and cleans an inner surface of a tank by uniformly spraying it, and then washes it again with clean distilled water (or thickened water).

To this end, the present invention, by making the ozonated water to measure the ozone concentration of the ozonated water in front and rear of the storage tank, controlling the ozone water supply according to the measured value, spraying the supplied ozonated water to the tank inner wall surface, sterilizing and cleaning, sterilization After washing, the tank inner wall is washed with distilled or purified water and the washing is continued until the ozone concentration is substantially " 0 ".

Conventionally used washing method is a method of sterilizing and disinfecting by using high temperature and high pressure steam, or by filling the tank with ozone water and stirring to wash it. As it is cleaned and cleaned at the moment, it can finish work in a short time, and since it does not require high temperature and high pressure steam, the device is simplified, so the initial equipment investment cost is reduced and the cost of washing is drastically reduced.

Description

Sterilization and Washing Method of Storage Tank Wall

The present invention relates to a method for disinfecting and cleaning a wall used to manufacture a product, a raw material, or a cooling water used in a manufacturing process of pharmaceuticals, foods, electronic parts, etc. so that it can be kept clean and clean in sterile state using ozone water. , More specifically

Conventionally, the tank inner structure is generally plate-shaped coil structure (jacket) to send high pressure steam to the coil to heat sterilization, the method of supplying clean steam to the tank to autoclave or ozone water dissolved ozone. Has been used to fill the tank wall and sterilize the tank with ozone water.

However, the method of heat sterilization or autoclaving requires a tank structure that can withstand high pressure, and it is costly to produce high temperature steam and takes a long time to increase the temperature. In the case of flowing, evenly flowing ozone water on the inner wall of the tank is very difficult, and even when flowing uniformly, a dura is generated and a sufficient sterilizing effect cannot be expected.

When the ozone water is filled and stirred in the tank, it takes a lot of time to fill the ozone water, and a large amount of ozone water is required, so a large ozone generating device and a distillation device are required, resulting in high equipment costs.

The present invention is a method for sterilizing and cleaning the microorganisms and scale of the tank inner surface by spraying ozone water to the tank inner surface at a constant pressure using a jet nozzle in order to solve the above problems, the work is made in a short time, uniform pressure The ozone water is evenly sprayed on the entire inner surface of the tank, so that perfect sterilization and cleaning operations are performed, and the ozone water supply is automatically controlled by measuring the ozone concentration before and after the tank. There is a purpose.

In order to achieve the above object, ozone water is produced to measure ozone concentration of ozone water in front of and behind the storage tank, and the ozone water supply is controlled according to the measured value. The ozone water is sprayed on the inner wall of the tank to sterilize and clean. After cleaning, it is characterized by consisting of the step of washing the tank inner wall using distilled or purified water and continuing to wash until the ozone concentration of the wash water is substantially "0".

1 is a process flow diagram of an apparatus applied to the present invention

Figure 2 is a schematic view of the jet nozzle and spray ball used in the present invention

<Description of the symbols for the main parts of the drawings>

1: distilled water (or purified water) tank 2,6,18 pump

3,8,9,20,22: Valve 4: ozone melting tank

5: ozone generator 7,10,11,17,19,23: pipe

12: jet nozzle (or spray ball) 14: stirring rod

13: storage tank 16: discharge tank

15: ozone gas handler 24: filter

21: discharge liquid ozone treatment tank (activated carbon)

25,26,27,28: Sampling port

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

1 is a view showing the operation flow of the present invention, the apparatus of the present invention is a distilled water (or purified water) tank 1, ozone generator 5, ozone melting tank 4, jet nozzle (or spray ball) 12, storage tank 13, discharge liquid Tank 16, discharge liquid ozone treatment tank 21, and sampling ports 25, 26, 27, 28, etc. FIG. 2 shows jet nozzles a, b, c and spray ball d.

In the distilled water (or purified water) tank 1, the distilled water passes through the valve 3 by the pump 2 and is injected into the ozone melting tank 4. The ozone (O ₃ ) generated by the ozone generator 5 is injected into the ozone melting tank 4 and dissolved in ozone water. Is generated. The ozone water (O ₃ + H ₂ O) generated in the ozone melting tank 4 is supplied to the jet nozzle (or spray ball) 12 installed in the storage tank 13 via the pipe 7, valve 8 and pipe 10 by the pump 6. Lose.

At this time, the valve 9 is closed, so the raw material in the raw material tank cannot enter the pipe 11.

The ozone water sprayed by the jet nozzle 12 is cleaned and sterilized while washing the inner wall of the storage tank 13 by stirring the ozone water by the stirring rod 14 installed in the storage tank 13, and the discharge tank installed at the bottom of the tank. Transferred to 16.

Of the ozone water injected into the storage tank 13, the ozone remaining in the tank is discharged to the atmosphere through the ozone gas processor 15.

At this time, by operating the filter 24, the clean air is injected into the storage tank 13.

The ozone water remaining in the discharge tank 16 is recycled back to the ozone melting tank 4 via the pipes 18, 19, 22 and 23 through the pump 18.

In the meantime, pump 2 stops and valves 3 and 20 are closed.

Check the ozone concentration in ozone water and discharge ozone water by sampling ports 26 and 27, control the ozone generation amount of ozone generator 5 according to the measured value, and stop the operation of ozone generator 5 when the ozone concentration reaches a certain value.

Then, the valve 22 is closed, the valve 20 is opened, and ozone water remaining in the discharge tank 16 is sent to the discharge liquid ozone treatment tank 21, and ozone is decomposed and drained by activated carbon.

After that, distilled water 4 is drained from the distilled water tank 1 by the pump 2 to the ozone melting tank 4, the storage tank 13, the discharge tank 16, and the pipe connecting the same to wash the inner wall and wash the ozone water.

Ozone water containing ozone is discharged by ozone depletion by the discharge liquid ozone treatment tank 21. Cleaning with purified water is performed by removing ozone concentration from ozone water or discharge liquid ozone water collected at sampling ports 26, 27 and 28. "Until you continue.

The operation described above is controlled automatically.

When ozone water is injected into the inner wall of the storage tank 13 by the jet nozzle (or spray ball) 12, the film is eliminated (destroyed) and the sterilization efficiency is improved when the ozone injection speed is maximized. In addition, the amount of residual organic matter, bacteria, etc. present on the inner wall surface is effectively eliminated according to the spraying force to be sprayed.

As the method of sterilization and cleaning of the inner wall of the tank by ozone injection as described above is very fast, the sterilization and washing work can be performed within a few minutes from a small tank of 100 l scale to a large tank of 5,000 to 10,000 l.

This method is significantly faster than the conventional method (for example, a method of filling and disinfecting ozone water in a tank).

Bacteria on the inner wall surface of the storage tank were measured to sterilize immediately after spraying ozone water with a jet nozzle.

In addition, according to the present invention, ozone water can be sprayed on the inner wall of the storage tank 13 in the same manner, so that the inner wall of the storage tank 13 can be sterilized uniformly and reliably in addition to the film-breaking effect described above.

First of all, the present invention is very effective in terms of economic efficiency because it can be quickly sterilized, miniaturized and the cost of equipment can be reduced.

In the present invention, ozone water is used as a chemical for sterilization, but since ozone is easily decomposed by contact with activated carbon and harmless to the human body, this sterilization method is very safe in terms of water safety management.

In addition, since the sterilization method using ozone water can be operated at room temperature, the sterilization cost is very low compared to high temperature and high pressure methods.

In addition, since the system is built to automatically perform sterilization and cleaning operations without causing corrosion of materials due to ozone use, significant savings can be achieved in terms of performance.

As described above, the present invention is a method for disinfecting and cleaning microorganisms and scales on a tank inner surface by spraying ozone water having excellent sterilizing action at a constant pressure using a jet nozzle. Since ozone water is evenly sprayed on the whole surface of the tank with uniform pressure, perfect sterilization and cleaning is performed, and ozone water supply is automatically and efficiently controlled by measuring ozone concentration before and after the tank. In addition, since ozone water is not excessively injected, the amount of ozone decomposition by activated carbon is minimized, thereby reducing the cost of maintaining activated carbon.

Claims (4)

In the method of sterilizing and cleaning the tank inner wall used in the manufacturing process of medicine, food, electronic parts, etc. by supplying ozone water, and then using distilled or purified water to sterilize and wash the tank inner wall, 1) controlling the supply of ozone water according to the ozone concentration detection value of ozone water before and after the tank; 2) disinfecting and cleaning the tank inner wall by spraying the ozone water on the entire surface of the tank inner wall; 3) ozone treatment and discharging ozone water after sterilization and washing; 4) after discharging the ozone water, spraying distilled or purified water over the entire inner wall of the tank to wash the inner wall and continue washing until the ozone concentration of the washed drainage becomes substantially " 0 ". The step of supplying the ozone water controls the ozone water in which the ozone concentration in front of the tank maintains a constant ozone concentration to the tank, and stops the supply of ozone water when the ozone concentration difference before and after the tank reaches a certain value. A method of sterilizing and cleaning the tank inner wall, characterized in that the step of supplying ozone water. A method for sterilizing and cleaning an inner wall of a tank, characterized in that ozone water is injected into a tank using a jet nozzle in the method of sterilizing and washing according to claim 1. A method of sterilizing and cleaning ozone water spray on a wall inside a tank using a spray ball in the method of sterilizing cleaning according to claim 1. A sterilization washing method comprising using activated carbon for ozone water treatment discharged in the sterilizing washing method according to claim 1.