KR101215928B1 - Sterilizing apparatus using ozone and method therefor - Google Patents

Abstract

The present invention doubles the concentration of ozone by supplying oxygen, and heats the generated ozone gas to a set temperature to inject into the chamber into which the toxin is injected, thereby sterilizing sterilization using ozone to maximize sterilization efficiency An apparatus and method, comprising: a chamber into which a toxin is injected; An oxygen generator for generating oxygen; An oxygen tank for temporarily storing the oxygen generated in the oxygen generator; An ozone generator for generating ozone by receiving oxygen supplied from the oxygen tank; A high temperature generator for raising the temperature of the ozone gas supplied from the ozone generator to a predetermined temperature and injecting the ozone gas into the chamber; A vacuum pump for exhausting the air in the chamber to the outside to maintain the inside of the chamber in a vacuum decompression state or to circulate the air in the chamber; A humidity filter for removing moisture contained in air inside the chamber flowing out through the vacuum pump; And an ozone decomposer that decomposes ozone contained in the air discharged through the humidity filter and discharges it to the outside.

Description

Sterilization apparatus and method using ozone {STERILIZING APPARATUS USING OZONE AND METHOD THEREFOR}

The present invention relates to a medical disinfection sterilization apparatus and method using ozone, and more specifically, by supplying oxygen to double the concentration of ozone, by heating the generated ozone gas to a set temperature, and injected into the chamber into which toxins are injected, It relates to a sterilization sterilization apparatus and method using ozone to maximize the sterilization efficiency of the sterilized material.

In general, representative methods used to disinfect and sterilize medical equipment or equipment include EO (Ethylene Oxide) gas, ozone, low temperature plasma, high pressure steam, chemical gas, and the like.

In addition, the disinfection time of these devices is very long, such as 1 to 3 hours for autoclave sterilization and 8 to 12 hours for EO gas disinfection. It is causing the inefficiency.

In addition, medical equipment sterilizer (hydrogen peroxide sterilization) using plasma gas is very expensive, there is a problem that the market is not activated.

In addition, medical equipment had to be disinfected with various sterilizers because the disinfection method is different for each equipment.

However, since most medical sterilizers are expensive and large, cost and space problems occur, and in small hospitals or poorly financed hospitals, only one type of sterilizer is purchased and used, resulting in cross infection and sterilization. It is being reused for the patient without it.

In addition, the conventional apparatus for disinfection using plasma has not been able to achieve a complete disinfection and sterilization operation because a low temperature plasma or ozone, which is a disinfection gas, does not reach deep inside an object to be disinfected, that is, inside a pipe or a pipe.

The present invention has been invented in view of the above problems, and an object of the present invention is to supply oxygen to double the concentration of ozone, and to heat the generated ozone gas to a set temperature so that ozone (O ₃ ) is rapidly generated. The present invention provides a disinfection sterilization apparatus and method using ozone which is shortened to sterilization time of sterilized substances by being separated into oxygen (O ₂ ) and oxygen atoms (O) and greatly improves sterilization efficiency.

In addition, the present invention, by supplying oxygen to double the concentration of ozone, heating the generated ozone gas to a set temperature, and at the same time to generate water vapor and injected into the chamber into which the toxins are injected, to maximize the sterilization efficiency of the toxins to be sterilized The present invention provides a disinfection sterilization apparatus and method using ozone.

The present invention for achieving the above object is a chamber into which the toxins are injected; An oxygen generator for generating oxygen; An oxygen tank for temporarily storing oxygen generated in the oxygen generator; An ozone generator for generating ozone by receiving oxygen supplied from the oxygen tank; A high temperature generator for raising the temperature of the ozone gas supplied from the ozone generator to a predetermined temperature and injecting the ozone gas into the chamber; A vacuum pump which exhausts the air in the chamber to the outside to maintain the inside of the chamber in a vacuum decompression state or to circulate the air in the chamber; A humidity filter for removing moisture contained in air inside the chamber flowing out through the vacuum pump; It characterized in that it comprises an ozone decomposer to decompose ozone contained in the air discharged through the humidity filter to discharge to the outside.

In addition, the chamber according to the invention is characterized in that the temperature sensor for detecting the temperature in the chamber, the pressure sensor for detecting the pressure in the chamber, and the ozone sensor for detecting the ozone concentration in the chamber is further characterized in that it is installed.

In addition, the oxygen generator according to the present invention has a first valve is formed in one side of the discharge pipe, the second pipe is interposed in the connecting pipe leading to the oxygen tank, after the initial driving, the first valve is opened for a predetermined time, After the two valves are closed, the first valve is closed, and the second valve is opened to use only a high concentration of oxygen.

In addition, the gas discharge pipe of the ozone generator according to the invention is characterized in that the pressure maintaining valve is further installed.

In addition, the high temperature generating unit according to the invention is characterized in that it is provided with a heating means.

In addition, the vacuum pump according to the present invention is characterized in that the connection pipe circulated to the chamber on one side is provided with a fourth valve, the other air discharge pipe is installed via a fifth valve.

In another aspect, the present invention is characterized in that it further comprises a steam generator for injecting steam into the chamber before the disinfection operation, or at the same time as the disinfection operation.

In addition, the present invention is a sterilization sterilization method using ozone including a sterilization chamber,

A first step of injecting toxins such as medical equipment or equipment into the chamber; A second process of evacuating the air in the chamber to reduce the vacuum pressure; A third step of injecting ozone gas generated by being combined with a high concentration of oxygen into the chamber, and performing sterilization by raising the temperature of the ozone gas to a predetermined temperature; When the sterilization and disinfection process of the third process is completed, it characterized in that it comprises a fourth process of discharging the air inside the chamber and decomposes ozone.

In addition, the third process according to the present invention generates oxygen, during the generation of the oxygen during the initial predetermined time is discharged to the outside, and further comprising the step of combining only the high concentration of oxygen generated with ozone after It is characterized by.

In addition, the third process according to the invention is characterized in that it further comprises the step of performing sterile disinfection by circulating the air in the chamber.

As described above, the present invention doubles the concentration of ozone by supplying oxygen, and heats the generated ozone gas to a set temperature so that ozone (O ₃ ) is rapidly separated into oxygen (O ₂ ) and oxygen atom (O). The sterilization rate is faster and the sterilization efficiency is greatly improved.

In addition, the present invention doubles the concentration of ozone by supplying oxygen, by heating the generated ozone gas to a set temperature, and at the same time to generate water vapor and injected into the chamber into which the toxins are injected, to maximize the sterilization efficiency of the toxins to be sterilized Provide the effect.

In another aspect, the present invention, by making the inside of the disinfection chamber in a vacuum decompression state, by introducing ozone gas, the oxygen decomposition capacity is doubled to perform disinfection and sterilization operation, as well as the outside of the medical equipment and equipment to be disinfected. Ozone gas penetrates even where it is difficult to get inside the object to be sterilized.

1 is a block diagram of a sterilization apparatus using ozone in accordance with an embodiment of the present invention,
2 is a flowchart showing a disinfection sterilization method using ozone according to the present invention;
3 is a block diagram of a disinfection sterilization apparatus using ozone according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is a block diagram of a sterilization sterilization apparatus using ozone according to an embodiment of the present invention.

As shown, the sterilization apparatus using the ozone of the present invention,

It includes a disinfecting chamber 10 (hereinafter referred to as a "chamber") into which the toxins are injected.

The disinfection chamber 10 is formed in a sealed and sealable structure, the door is formed in the front.

Various door safety devices are installed in the door, and the disinfection chamber 10 includes a temperature sensor 11 for detecting a temperature in the chamber, a pressure sensor 12 for detecting a pressure in the chamber, and an ozone concentration in the chamber. An ozone detection sensor 13 for detecting is installed.

In addition, the disinfection chamber 10 has an oxygen generator 20 for generating oxygen (O ₂ ), an oxygen tank 30 for temporarily storing oxygen generated in the oxygen generator 20, and the oxygen tank 30. The ozone generator 40 which receives the oxygen (O ₂ ) supplied from) and generates ozone (O ₃ ) and raises the temperature of the ozone gas supplied from the ozone generator 40 to the set temperature to the disinfection chamber ( 10 is injected into the high temperature generating unit 50 is further connected.

Here, the oxygen generator 20 is a device for generating oxygen (O ₂ ), the first valve 21 is formed in one discharge pipe, the second valve 22 is provided in the connecting pipe leading to the oxygen tank (30) It is interposed.

The oxygen generator 20 does not generate a high concentration of oxygen until the device is stabilized during the initial driving. In general, since the oxygen is not generated at a high concentration about 2 to 3 minutes after the initial operation, the first valve 21 is opened during this time, and the second valve 22 is closed to remove the low concentration of oxygen which is not useful. It is to be discharged to the outside through the one valve 21, so that it does not flow into the oxygen tank (30).

As such, when the initial driving time of the oxygen generator 20 elapses, the first valve 21 is closed, and the second valve 22 is opened so that a high concentration of oxygen generated from the oxygen generator 20 is oxygen tank. 30 to be stored.

The oxygen tank 30 is a tank for temporarily storing a high concentration of oxygen, the high concentration of oxygen stored in the oxygen tank 30 is supplied to the ozone generator 40 by opening the third valve (31).

The ozone generator 40 is a device for generating ozone (O ₃ ), is mixed with oxygen (O ₂ ) supplied from the oxygen tank 30 to generate and discharge a high concentration of ozone (O ₃ ).

A pressure holding valve 41 is further installed in the gas discharge pipe of the ozone generator 40 to maintain a constant pressure of the ozone gas flowing out of the ozone generator 40.

The high temperature generator 50 is an air heating device for raising the temperature of the ozone (O ₃ ) gas flowing out of the ozone generator 40 and injected into the disinfection chamber 10 to a constant temperature, and generates heat such as a hot wire heater. Means are provided to keep the internal air heated to the set temperature.

At this time, the heating temperature of ozone gas is preferably in the range of 100 ~ 400 ℃.

Here, the reason for raising the temperature of the ozone (O ₃₎ to be injected into the chamber 10 to a predetermined temperature, ozone (O ₃₎ fast oxygen (O ₂₎ ozone (O ₃₎ by raising the temperature of the By separating into oxygen atoms (O) (OH radical separation), it is to quickly and efficiently perform the disinfection and sterilization effect on the toxins in the chamber (10).

If the high temperature generating unit 50 is not present, a problem arises in that it takes a long time (for example, about 2 hours) for the ozone (O ₃ ) and oxygen (O ₂ ) to react in the chamber 10. .

In addition, the chamber 10 has a vacuum pump 60 for exhausting the air in the chamber to the outside to maintain the inside of the chamber in a vacuum decompression state or to circulate the air in the chamber, and the chamber is discharged through the vacuum pump 60 The humidity filter 70 to remove moisture contained in the air inside, and the ozone decomposer 80 for decomposing ozone contained in the air discharged through the humidity filter 70 to discharge to the outside is further connected.

Here, the vacuum pump 60 has a fourth valve 61 is interposed in the connection pipe circulated to the chamber 10 on one side, and the fifth valve 62 is interposed in the other air discharge pipe.

As a pretreatment process for disinfection, the fourth valve 61 is closed and the fifth valve 62 is opened to maintain the inside of the chamber 10 in a vacuum decompressed state, and then the vacuum pump 60 is opened. To drive.

Therefore, the air inside the chamber is exhausted to the outside through the vacuum pump 60 and the fifth valve 62, the inside of the chamber 10 is a vacuum decompression state.

The reason for maintaining the inside of the disinfection chamber 10 in the vacuum decompression state is to lower the pressure in the chamber to further activate the ozone injected into the chamber to improve the disinfection efficiency.

In addition, during the chamber disinfection, the fifth valve 62 is closed and the fourth valve 61 is opened to allow air inside the chamber to circulate.

The humidity filter 70 is a device for removing the moisture contained in the air inside the chamber flowing through the vacuum pump 60, the moisture contained in the air is discharged to the discharge through the sixth valve (71) Only pure air is discharged to the ozone decomposer 80.

The humidity filter 70 removes moisture and is used for malfunction and extension of life of the ozone decomposer 80 connected to the next stage.

The ozone decomposer 80 decomposes ozone contained in the air discharged through the humidity filter 70 to prevent the ozone harmful to the human body from being discharged to the outside.

2 is a flow chart showing a disinfection sterilization method using ozone according to the present invention.

As shown, the sterilization sterilization method using the ozone of the present invention,

First process (S10) for injecting toxins, such as medical equipment or equipment into the chamber 10, a second process (S20) for evacuating the air inside the chamber 10 to reduce the vacuum, and the chamber (10) Injecting ozone gas generated by combining with a high concentration of oxygen, the third process (S30) to perform the sterilization and sterilization by raising the temperature of the ozone gas to a set temperature, the sterilization and disinfection process of the third process is completed And a fourth step (S40) of discharging the air inside the chamber 10 and decomposing ozone.

Here, the third process (S30) for performing the sterilization disinfection further includes a process for generating oxygen, the oxygen generated during the initial predetermined time when the oxygen generation to the outside, only the high concentration of oxygen generated after It is characterized by combining with ozone.

In addition, the third process (S30) of performing the sterilization sterilization further includes a process of performing the sterilization by circulating the air in the chamber 10.

The operation of the sterilization sterilization apparatus using the ozone of the present invention configured as described above will be described.

First, a user inputs medical equipment or equipment, which is a disinfectant, in the chamber 10 (first process (S10)).

After closing and sealing the door, the sterilization time is set and operation starts through an operation switch (not shown).

When the disinfection operation is started in this way, the vacuum pump 60 is driven. At this time, the fourth valve 61 is closed and the fifth valve 62 is opened.

Therefore, the air in the chamber 10 is driven by the vacuum pump 60 to be discharged to the outside through the vacuum pump 60 → the fifth valve 62 → the humidity filter 70 → the ozone decomposer 80. The inside of the chamber 10 achieves a vacuum decompression state.

Thereafter, when the pressure of the chamber is detected as the set pressure through the pressure sensor 12 installed in the chamber 10, the driving of the vacuum pump 60 is stopped. (Second step S20)

When the second process S20 ends, or at the same time as the start of the second process S20, the oxygen generator 20 is driven to generate oxygen.

At this time, the first valve 21 is opened, the second valve 22 is closed, and the low concentration of oxygen generated in the initial oxygen generator 20 is discharged to the outside.

After a predetermined time (for example, 2 to 3 minutes) elapses, the first valve 21 is closed and the second valve 22 is opened to allow high concentration of oxygen to be stored in the oxygen tank 30.

After a certain time, the third valve 31 is opened to allow the high concentration of the stored gas in the oxygen tank 30 to flow into the ozone generator 40.

The ozone generator 40 is mixed with oxygen (O ₂ ) supplied from the oxygen tank 30 to generate and discharge a high concentration of ozone (O ₃ ).

The ozone gas discharged from the ozone generator 40 maintains a constant pressure through the pressure maintaining valve 41 and is introduced into the high temperature generator 50.

The ozone gas introduced into the high temperature generating unit 50 is heated to rapidly increase the temperature. At this time, the temperature of the ozone gas is in the range of 100 ~ 400 ℃.

In this way, the ozone gas heated through the high temperature generator 50 is rapidly injected into the chamber 10.

The heated ozone (O ₃ ) gas injected into the chamber is rapidly separated into oxygen (O ₂ ) and oxygen atom (O) (OH radical separation), and disinfecting sterilization effect on the poisoned substances introduced into the chamber 10. Start to perform quickly and efficiently. (Step 3 (S30))

When the disinfection operation is started, the fifth valve 62 is closed and the fourth valve 61 is opened to drive the vacuum pump 60, whereby the air inside the chamber 10 is vacuum pump 60. By circulating through), the disinfection and sterilization effect is further enhanced.

When the set time for the disinfection operation elapses, the operation of the oxygen generator 20, the ozone generator 40 and the high temperature generator 50 is stopped, and the fourth valve 61 is closed and the fifth valve 62 is closed. ) Opens and operates the vacuum pump 60 and the ozone decomposer 80.

Therefore, the air in the chamber 10 is discharged to the humidity filter 70 through the fifth valve 62 through the vacuum pump 60, the humidity filter 70 is discharged through the vacuum pump 60 The moisture contained in the air inside the chamber is discharged to the discharge container through the sixth valve 71, and only pure air is discharged to the ozone decomposer 80.

The ozone decomposer 80 decomposes ozone contained in the air discharged through the humidity filter 70 and discharges it to the outside, and ozone is stored in the chamber through the ozone detection sensor 13 inside the chamber 10. Allow it to be driven until it is not detected. (Step 4 (S40))

Therefore, the disinfection and sterilization of the disinfectant is terminated.

3 is a block diagram of a disinfection sterilization apparatus using ozone according to another embodiment of the present invention.

As shown, the sterilization apparatus using ozone according to another embodiment of the present invention,

One embodiment of the present invention has the same configuration, but further comprises a steam generator 90 for injecting steam into the chamber 10 before the disinfection operation, or at the same time as the disinfection operation.

The steam generator 90 is to improve the disinfection efficiency by supplying the steam into the chamber 10 before or at the same time as the injection of the heated ozone gas into the chamber for disinfection.

In addition, the steam generator (90) uses a device capable of generating steam by a heater heating or ultrasonic generation method, and includes a water tank, and the seventh valve 91 for controlling the supply of steam to the chamber (10) It includes more.

Therefore, according to another embodiment of the present invention, before the ozone gas is injected into the chamber 10 or at the same time as the injection for disinfecting the toxins, the advantage that can greatly improve the disinfection efficiency There is this.

10: chamber 11: temperature sensor
12: pressure sensor 13: ozone sensor
20: oxygen production unit 30: oxygen tank
40: ozone generator 50: high temperature generator
60: vacuum pump 70: humidity filter
80: ozone decomposer 90: steam generator

Claims (10)

A chamber 10 into which the toxin is injected; An oxygen generator 20 for generating oxygen; An oxygen tank 30 for temporarily storing oxygen generated by the oxygen generator; An ozone generator (40) for generating ozone by receiving oxygen supplied from the oxygen tank; A high temperature generator 50 for raising the temperature of the ozone gas supplied from the ozone generator to a predetermined temperature and injecting the ozone gas into the chamber; A vacuum pump 60 for exhausting the air in the chamber to the outside to maintain the inside of the chamber in a vacuum decompression state or to circulate the air in the chamber; A humidity filter (70) for removing moisture contained in the air inside the chamber flowing through the vacuum pump; It includes an ozone decomposer (80) for decomposing ozone contained in the air discharged through the humidity filter to discharge to the outside;
The chamber 10 is further provided with a temperature sensor 11 for detecting the temperature in the chamber, a pressure sensor 12 for detecting the pressure in the chamber, and an ozone sensor 13 for detecting the ozone concentration in the chamber. ,
A first valve 21 is formed at one discharge pipe of the oxygen generator 20, and a second valve 22 is interposed at a connection pipe leading to the oxygen tank 30. After the first valve 21 is opened and the second valve 22 is closed, the first valve 21 is closed and the second valve 22 is opened to use only a high concentration of oxygen.
A pressure holding valve 41 is further installed on the gas discharge pipe of the ozone generator 40.
Ozone, characterized in that the fourth valve 61 is interposed in the connecting pipe circulated to the chamber 10 on one side of the vacuum pump 60, the fifth valve 62 is installed in the other air discharge pipe. Sterilization apparatus using. delete delete delete delete delete delete delete delete delete

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