KR101068629B1 - Steamsterilization apparatus and method using the same - Google Patents

Abstract

The present invention relates to a sterilization apparatus and method, and more particularly to a sterilization apparatus and method using a large amount of OH radicals and ozone gas.

Sterilization apparatus according to the present invention comprises plasma generating means for plasma processing oxygen gas containing moisture to generate ozone gas and OH radicals; And a chamber for sterilizing the stored object by using the ozone gas and the OH radical supplied from the plasma generating means.

Sterile. ozone. Humidification. Water tank. OH radicals.

Description

Sterilizer and Method {STEAMSTERILIZATION APPARATUS AND METHOD USING THE SAME}

The present invention relates to a sterilization apparatus and method, and more particularly to a sterilization apparatus and method using a large amount of OH radicals and ozone gas.

Various types of disposable medical or reusable medical tools used in medical institutions such as hospitals must be completely sterilized before use. Therefore, various methods for sterilizing such medical tools have been developed. Such sterilization methods include a conventional method using high temperature and high pressure, a method using ethylene oxide gas, a method using hydrogen peroxide plasma, and the like.

The traditional method using high temperature and high pressure has a problem in that the microorganisms present in the sterilized products cannot be completely sterilized, and the method of using ethylene oxide gas uses CFC gas, which is the main cause of global environmental pollution, as a carrier gas. It may be caused, and there is an inconvenience that additionally requires a long aeration time to remove the remaining ethylene oxide after the sterilization treatment.

On the other hand, the method using hydrogen peroxide plasma is a method of generating and sterilizing the plasma while maintaining the inside of the reaction vessel at a pressure lower than atmospheric pressure, so the structure of the apparatus is complicated, and the size of the apparatus is increased. Since the temperature rises to a high temperature of 50 ℃ or more, there is a problem unsuitable for sterilization of the tool of the plastic material.

Thus, a sterilization apparatus using ozone has been disclosed. 1 and 2, the conventional sterilization apparatus is a sterilization box 10 for receiving the object to be treated, an ozone generating unit 20 for generating ozone and an oxygen supply unit for supplying oxygen to the ozone generating unit ( 30).

In addition, a circulation connection path 40 for connecting the internal space of the sterilization box 10 and the ozone generator 20, a circulation pump 50 for forced circulation of the gas passing through the circulation connection path 40 and the The cooling unit 60 for cooling the gas passing through the circulation connection path 40 is further provided.

In addition, the discharge pipe 70 and the exhaust pump 80 for discharging the gas inside the sterilization box 10 is further provided, and the ozone decomposition means 90 for decomposing the exhausted ozone is provided.

However, the conventional sterilizer is completely dependent on the ozone, there is a problem that can not maintain a constant sterilization effect can not maintain a constant concentration and pressure of the ozone.

Accordingly, the present applicant has disclosed a sterilization apparatus for humidifying a sterilization chamber in patent application No. 2008-0044309.

Referring to FIG. 3, the conventional improved sterilization apparatus 100 includes a sterilization chamber 110, a humidification means 131, an ozone generating means 141, and an exhaust means 121.

The sterilization chamber 110 and the ozone generating means 141 is a known element.

In addition, ozone generated by the ozone generating means 141 is supplied to the sterilization chamber 110 along the ozone supply line (L3), the pressure valve 142 is further provided on the ozone supply line (L3).

In addition, on the ozone supply line (L3) is further provided with an ozone reservoir (Ozone Reserver) (143) to temporarily receive the ozone supplied through the pressure valve 142 to the sterilization chamber (110).

In addition, the ozone supply line (L3) is further provided with an on-off valve 145 is opened when the ozone pressure is above a certain pressure in the ozone reservoir 143, and closed below. Therefore, the pressure sensor 144 for detecting the internal pressure of the ozone reservoir 143 is further provided.

In particular, the humidification means 131 for further humidifying the sterilization chamber 110 is further provided. By humidifying the sterilization chamber 110 in this way, the sterilization effect by ozone is increased.

The steam generated by the humidifying means 131 is supplied to the sterilization chamber 110 through the humidifying line (L5), the steam reservoir (tank) 132 may be further provided on the humidifying line (L5).

The conventional improved sterilization apparatus has an effect of improving the sterilization effect by adding ozone while the sterilization chamber is humidified. However, there is a problem in that a humidification device such as including a separate ultrasonic vibrator is required and the device is complicated and manufacturing costs are increased.

The present invention has been made to solve the above problems, an object of the present invention to provide a sterilization apparatus and method using a large amount of OH radicals and ozone gas.

In order to solve the above technical problem, the sterilization apparatus according to the present invention is plasma generating means for generating ozone gas and OH radicals by plasma treatment of oxygen gas containing moisture; And a chamber for sterilizing the stored object by using the ozone gas and the OH radical supplied from the plasma generating means.

In addition, the humidity of the oxygen gas is preferably 50 to 100%.

In addition, it is more preferable that a water tank including moisture by allowing dry oxygen gas to pass through water is provided.

In addition, it is preferable that a bypass pipe is further provided so that the dry oxygen gas is supplied directly to the plasma generating means without passing through the water tank.

The apparatus may further include oxygen generating means for supplying dry oxygen gas to the plasma generating means, and humidifying means for supplying moisture to the plasma generating means.

In addition, the ozone pressure generated by the plasma generating means is preferably further provided with a pressure valve that opens in a set pressure state.

In addition, the pressure valve is preferably the ozone pressure is opened at 6psi or more.

In addition, it is preferable that an ozone reservoir for receiving ozone generated by the plasma generating means is further provided.

In addition, the ozone decomposing means for decomposing ozone exhausted from the chamber is preferably further provided.

Sterilization method according to the present invention comprises the steps of: 1) supplying oxygen gas containing moisture to the plasma generating means to plasma treatment to generate ozone gas and OH radicals; And 2) sterilizing the object by using the ozone gas and OH radical generated by step 1).

In addition, before the step 1), it is preferable to further include the step of including the moisture by allowing the dry oxygen gas to pass through the water.

In addition, in the step 1), after supplying dry oxygen gas and moisture to the plasma generating means separately, it is preferable to generate and process plasma.

In addition, the humidity of the oxygen gas is preferably 50 to 100%.

According to the present invention, the sterilizing power is improved by using a large amount of OH radicals and ozone gas.

In particular, there is an effect that can generate ozone gas and OH radicals very easily.

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

4 and 5, the embodiment 200 includes an oxygen generating means 231, a water tank 240, a plasma generating means 232, and a sterilization chamber 210.

The sterilization chamber 210 is a space for receiving an object to be processed (not shown) such as a medical device. Therefore, a door (not shown) for accommodating the object is provided.

The oxygen generating means 231 is a known element for generating oxygen gas.

The water tank 240 accommodates water therein and is a component that allows the dry oxygen gas generated by the oxygen generating means 231 to pass through the water, thereby becoming a humid oxygen gas (see FIG. 5). .

The plasma generating means 232 passes through a dry oxygen gas or a water tank 240 directly supplied from the oxygen generating means 231 to plasma process the oxygen-rich oxygen gas to generate ozone gas and a large amount of OH radicals. Component.

Looking at the process of generating the OH radicals in the plasma generating means, as follows.

(1) e + H ₂ O-> OH + H + e

(2) O ^* + H ₂ O-> OH + OH

The ozone gas and the OH radicals generated by the plasma generating means 232 are supplied to the sterilization chamber 210 along the pipe, and the pressure valve 252 is further provided on the pipe. The pressure valve 252 detects the pressure of ozone generated and supplied by the plasma generating means 232, and opens when the detected value is equal to or higher than the set pressure, and opens ozone, and when closed, shuts off the ozone supply. do. In general, the pressure valve 252 is preferably opened at an ozone pressure of 6 psi or more, but may be changed according to the capacity or process conditions of the sterilization chamber 210 and the plasma generating means 232.

In addition, ozone and OH radicals generated by the plasma generating means 232 is further provided with an ozone reservoir (Ozone Reserver) 233 to temporarily receive before input to the sterilization chamber (210). The ozone reservoir (tank) 233 when the ozone and OH radicals generated in the plasma generating means 232 directly into the sterilization chamber 210, the concentration of the ozone introduced is low or non-uniform, such a problem It is to supplement. Therefore, the ozone reservoir 233 is preferably provided with a gauge (not shown) for detecting and displaying the ozone concentration. In addition, the pressure valve 251 is provided on the pipe connected from the plasma generating means 232 to the ozone reservoir 233.

In addition, before and after sterilization, the exhaust means 221 for exhausting the sterilization chamber 210 is provided.

In addition, since the ozone is contained in the exhaust gas after the sterilization, the ozone decomposing means 222 is further provided to decompose the by-product containing ozone.

6 is a graph showing the density of OH radicals according to the humidification ratio. As can be seen through this, it can be seen that the higher the humidity, the greater the density of the OH radicals. That is, it can be seen that the more OH radicals are generated in the plasma generating means, the more moisture is included in the oxygen gas. By supplying humidified oxygen (H 2 O + O 2) to the plasma generating means 232, H 2 O is ionized by the high voltage of the plasma generating means to generate various OH radicals.

7 is a graph showing the survival rate of bacteria after the injection of plasma gas. As can be seen through this, it can be seen that the survival rate of bacteria is significantly lower in the case of gas (H ₂ O, H ₂ O ₂ ) in which OH radicals are produced. In other words, it can be seen that the sterilization power is improved as the amount of OH radicals is increased.

The OH radical has about 2 times stronger sterilizing power than ozone and chlorine, but is not harmful to human body like fluorine, chlorine and ozone. It also has the advantage of sterilizing and disinfecting all kinds of pollutants.

Therefore, to increase sterilization effect, it is important to increase the density of OH radical generation.

Hereinafter, the operation of the embodiment shown in Figure 4 and the sterilization method using the same will be described.

First, the object to be processed, such as a medical device, is stored in the sterilization chamber 210.

The sterilization chamber 210 is exhausted to 10 Torr or less using the exhaust means 221.

Next, oxygen gas is generated by using the oxygen generating means 231, and the generated oxygen gas passes through the water tank 240 to make it humid. 232) to plasma treatment to generate a large amount of ozone gas and OH radicals.

As described with reference to FIG. 6, it can be seen that the greater the amount of water, the greater the amount of OH radicals produced, and the greater the amount of OH radicals, the better the sterilization power.

In some cases, the oxygen gas generated by the oxygen generating means 231 may be introduced into the plasma generating means 232 in a dry state without passing through the water tank 240.

The ozone gas and OH radicals generated in this way are temporarily stored in the ozone reservoir 233 or supplied directly to the sterilization chamber 210 to sterilize the object.

After sterilizing the object in this state, the exhaust means 221 is operated to exhaust the sterilization chamber 210. At this time, the ozone decomposing means 222 is decomposed and exhausted by-products including ozone from the exhaust gas.

When the exhaust is completed, the sterilization chamber 210 is opened and the sterilized object is taken out.

8 shows another embodiment 300 according to the present invention.

In contrast to the embodiment illustrated in FIG. 7, oxygen generating means 340 supplies dry oxygen gas to the plasma generating means 332, and humidifying means 360 supplies moisture to the plasma generating means 332. The difference is that it is provided separately. That is, after supplying dry oxygen gas and moisture to the plasma generating means 332 separately, plasma treatment to generate ozone gas and a large amount of OH radicals.

Other sterilization chamber 310, pressure valves (351, 352), ozone reservoir 333, exhaust means 321, ozone decomposition means 322 is the same as the embodiment shown in FIG.

1 and 2 show a conventional sterilization apparatus.

Figure 3 shows a conventional improved sterilization apparatus.

Figure 4 shows a sterilization apparatus according to the present invention.

Figure 5 shows the water tank of the sterilization apparatus shown in FIG.

6 is a graph showing the density of OH radicals according to the humidification ratio.

7 is a graph showing the sterilization effect according to the plasma gas.

Figure 8 shows another embodiment according to the present invention.

DESCRIPTION OF REFERENCE NUMERALS

200: sterilization apparatus 210: sterilization chamber

221: exhaust means 222: ozone decomposition means

231: oxygen generating means 232: plasma generating means

233: ozone reservoir 240: water tank

251,252: pressure valve

Claims (13)

Plasma generating means for plasma treatment of oxygen gas containing moisture to generate ozone gas and OH radicals; And And a chamber for sterilizing the stored object by using the ozone gas and the OH radical supplied from the plasma generating means. Sterilization apparatus characterized in that the water tank further comprises a moisture by allowing the dry oxygen gas to pass through the water. The method of claim 1, Sterilization apparatus, characterized in that the humidity of the oxygen gas is 50 ~ 100%. delete The method of claim 3, Sterilization apparatus, characterized in that further provided with a bypass pipe for supplying the dry oxygen gas directly to the plasma generating means, not through the water tank. The method of claim 1, Oxygen generating means for supplying dry oxygen gas to the plasma generating means; Sterilization apparatus characterized in that it further comprises a humidifying means for supplying moisture to the plasma generating means. The method of claim 1, Sterilization apparatus characterized in that the pressure valve is further provided to open in the pressure state of the ozone pressure generated by the plasma generating means. The method of claim 6, The pressure valve is a sterilization device, characterized in that the ozone pressure is opened at 6psi or more. The method of claim 1, Sterilizing apparatus further comprises an ozone reservoir (Ozone Reserver) for receiving the ozone generated by the plasma generating means. The method of claim 1, Sterilization apparatus characterized in that it further comprises ozone decomposition means for decomposing ozone exhausted from the chamber. 1) supplying oxygen gas containing moisture to the plasma generating means to plasma treatment to generate ozone gas and OH radicals; And 2) sterilizing the object by using the ozone gas and OH radicals generated by step 1); Before step 1) above, Sterilization method characterized in that it further comprises the step of containing the moisture by allowing the dry oxygen gas to pass through the water. delete The method of claim 10, In step 1), after supplying dry oxygen gas and moisture to the plasma generating means separately, the method of sterilization, characterized in that to generate a plasma treatment. The method of claim 10, The humidity of the oxygen gas is a sterilization method, characterized in that 50 to 100%.

Images