JP4586217B2 - Ozone sterilization method and ozone sterilizer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ozone sterilization method and an ozone sterilization apparatus.
[0002]
[Prior art]
In recent years, development of an ozone sterilization apparatus that sterilizes an object to be sterilized stored in a chamber using ozone gas has become active.
[0003]
By the way, in order to increase the sterilization efficiency, the operation of introducing ozone gas after depressurizing the inside of the chamber (storage container) in which the object to be sterilized is stored is repeated several times ("sterilization method of adhering bacteria by ozone"). JP-A-3-244465).
[0004]
In this “method for sterilizing attached bacteria with ozone”, ozone discharged in the sterilization process is reduced to oxygen by a catalyst.
[0005]
[Problems to be solved by the invention]
However, since ozone discharged from the chamber is decomposed in a process of repeatedly reducing the pressure in the chamber and introducing ozone gas into the chamber, it is necessary to generate and introduce ozone with an ozone generator every time, which is inefficient. . In addition, every time ozone gas is introduced into the chamber, a specified amount of ozone gas must be supplied, and it takes time to reach the specified amount, resulting in a problem that quick sterilization cannot be performed.
[0006]
Then, the objective of this invention is providing the ozone sterilization method and ozone sterilization apparatus which can solve the said subject and can sterilize in a short time.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the ozone sterilization method of the present invention is a method of ozone sterilization of an object by repeating the operation of introducing ozone gas after depressurizing a chamber in which the object to be sterilized is stored. Connect the ozone generator to the storage tank to store, depressurize the chamber in which the object to be sterilized is stored, supply the specified amount of ozone gas in the storage tank to the chamber to sterilize the object and monitor the ozone concentration The chamber is depressurized by returning the ozone gas in the chamber into the storage tank, and the low-concentration ozone gas returned from the chamber into the storage tank is fed back to the ozone generator to be ozoned again and supplied to the storage tank. The ozone gas in the storage tank is supplied to the chamber under reduced pressure, and this is repeated to sterilize.
[0008]
The ozone sterilization apparatus of the present invention is a device that introduces ozone gas after depressurizing a chamber in which an object to be sterilized is stored, a chamber in which the object to be sterilized is stored, a storage tank for storing ozone gas, and the storage An ozone gas generator for supplying ozone gas to the tank, an ozone concentration meter connected to the chamber for monitoring the ozone concentration in the chamber, and a pump for reducing the inside of the chamber and allowing the ozone gas to be taken in and out between the chamber and the storage tank And a feedback line for returning the low-concentration ozone gas returned into the storage tank to the ozone generator and re-ozonizing it to the storage tank.
[0010]
In addition to the above configuration, the ozone sterilization apparatus of the present invention is preferably provided with a sterilization filter in the air introduction path of the chamber and an ozonolysis apparatus connected to the pump.
[0011]
According to the present invention, the ozone gas stored in the storage tank can be sterilized in a short time by sterilization when sterilizing, and the ozone gas in the chamber can be returned to the storage tank and reused at the end of sterilization. The object to be sterilized can be taken out in time, and ozone gas can be used efficiently, and the ozone gas in the chamber is sufficiently stirred.
[0012]
Moreover, ozone generator is connected to the storage tank, since it is sufficient supplementation only deficiency of the ozone, the burden of the ozone generator is reduced.
[0013]
Furthermore, a sterilization filter is provided in the air introduction path of the chamber, and it is possible to prevent the object to be sterilized from being recontaminated with bacteria contained in the air when introducing air after sterilization.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0015]
FIG. 1 is a conceptual diagram showing an embodiment of an ozone sterilization apparatus to which the ozone sterilization method of the present invention is applied. Only the chamber is a perspective view.
[0016]
The present ozone sterilizer mainly includes a chamber 1 in which an object to be sterilized (not shown) is stored, a storage tank 2 for storing ozone gas, and a chamber 1 provided between the chamber 1 and the storage tank 2. A pump 3 capable of rotating in and out of ozone with the storage tank 2, an ozone generator 7 for supplying ozone gas to the storage tank 2, and an ozone concentration in the chamber 1 connected to the chamber 1 is monitored. And a line (in the direction of broken line arrow 17) that feeds back low-concentration ozone gas in the storage tank 2 into the ozone generator 7 when the ozone concentration in the storage tank 2 decreases. . A valve is built in the intake / exhaust port of the pump 3.
[0017]
For example, two pipes 4 and 5 are connected to one side wall 1a of the chamber 1 made of stainless steel (right side in the figure), and a sterilization filter (for example, a Teflon membrane filter) 6 is connected to the upper pipe 4. . The piping 4 is provided with a check valve and a valve (not shown) so that the ozone gas in the chamber 1 does not leak outside.
[0018]
One intake (upper side in the drawing) of the pump 3 is connected to the lower pipe 5. A storage tank 2 is connected to the other inlet (lower side in the figure) of the pump 3. An ozone generator 7 is connected to the storage tank 2 so that the low-concentration ozone gas fed back in the direction of the broken line arrow 17 can be increased in concentration and supplied to the storage tank 2.
[0019]
An ozone decomposition device 8 is connected to the exhaust port of the pump 3 so that the ozone gas in the chamber 1 is exhausted after being decomposed into harmless oxygen.
[0020]
Two pipes 9, 10 are connected to the other side wall 1b (left side in the figure) of the chamber 1, and an ozone concentration meter 11 and a pump 12 are connected in series to both pipes 9, 10. The ozone concentration in the chamber 1 can be measured.
[0021]
The operation of this ozone sterilizer will be described.
[0022]
When an object to be sterilized is housed in the chamber 1 and the valve (not shown) on the ozonolysis apparatus side of the pump 3 is opened and the pump 3 is evacuated (forward rotation), the air in the chamber 1 is indicated by an arrow 13−. It flows in one direction and is exhausted to the outside through the ozonolysis apparatus 8 (in the direction of arrow 14). At this time, a valve (not shown) between the sterilization filter 6 and the chamber 1 is closed, and the inside of the chamber 1 is decompressed. .
[0023]
After the pressure in the chamber 1 is reduced, the valve on the ozonolysis apparatus side of the pump 3 is closed, and the valve (not shown) on the storage tank side of the pump 3 and the valve (not shown) on the chamber side of the pump 3 are opened. The pump 3 is inhaled (reversely rotated). When the pump 3 performs an intake operation, ozone gas is introduced into the chamber 1 in the directions of arrows 15-1 and 15-2 from the storage tank 2 in which ozone gas is stored in advance. After the chamber 1 is filled with a predetermined amount of ozone, if the pump 3 is exhausted (forward rotation) with the valve remaining as it is, the ozone gas in the chamber 1 is stored in the directions of arrows 13-1 and 13-2. Returned to the tank 2. After the ozone gas in the chamber 1 is returned to the storage tank 2, if the valve 3 is left as it is and the pump 3 is inhaled (reversely rotated) again, the ozone gas will flow into the chamber 1 in the directions of arrows 15-1 and 15-2. To be introduced.
[0024]
During this time, ozone concentration in the chamber 1 is monitored by circulating the ozone gas between the chamber 1 and the ozone concentration meter 11 in the direction of the arrow 50 (or in the opposite direction). When the instruction of the ozone concentration meter 11 is less than the prescribed amount , the low concentration ozone gas in the storage tank 2 is fed back to the ozone generator 7 in the direction of the broken line arrow 17 to increase the concentration and replenish ozone.
[0025]
When the pump 3 is exhausted (forward rotation) after repeating the above operation a plurality of times, the ozone gas in the chamber 1 returns to the storage tank 2 and the ozone gas is stored in the storage tank 2 and then stored in the pump 3. Close the tank side valve and open the ozone decomposition device side valve to discharge ozone gas. Thereafter, when a valve (not shown) in the pipe 4 is opened, air sterilized by the sterilization filter 6 is introduced in the direction of the arrow 16 and the sterilization operation is completed. If the ozone concentration in the chamber 1 is not sufficiently lowered by one exhaust operation, the operation of introducing sterilized air after exhaust is performed several times.
[0026]
That is, the present ozone sterilizer is a device that stirs ozone in the chamber 1 by allowing ozone gas to be taken in and out between the chamber 1 and the storage tank 2. The storage tank 2 is supplemented by increasing the concentration by feeding back in the direction .
[0027]
This ozone sterilization apparatus sterilizes the object to be sterilized by allowing ozone gas to sufficiently penetrate into the sterilization bag even when the object to be sterilized is housed in the sterilization bag by taking in and out ozone gas in the chamber 1. Is surely done.
[0028]
As described above, according to the present invention, the ozone gas stored in the storage tank 2 can be sterilized in a short time by sterilizing the chamber 1 at the time of sterilization, and the ozone gas in the chamber 1 is returned to the storage tank 2 at the end of sterilization. Since the ozone gas can be reused, the object to be sterilized can be taken out in a short time, the ozone gas can be used efficiently, and the ozone gas in the chamber 1 is sufficiently stirred.
[0029]
Further, when the present embodiment stored in savings distillate tank ozone gas was introduced at a pump 3 into the chamber 1, when the ozone concentration is decreased, the ozone generator ozone gas was returned to the storage tank 2 7 is fed back (in the direction of the broken line arrow 17) to increase the concentration . In the present embodiment, the pump 3 has been described as using a pump that can rotate forward and backward. However, two pumps are provided so that the ozone gas can reciprocate between the chamber 1 and the storage tank 2, or the ozone gas can be switched by switching the piping. You may be allowed to change the direction of the flow.
[0030]
2A, 2B, and 2C are explanatory views of switching means for changing the direction in which the ozone gas flows by switching the piping.
[0031]
This switching means includes a first flow path in which two valves V ₁ and V ₂ are connected in series by a pipe 20 and a second flow in which the other two valves V ₃ and V ₄ are connected in series by a pipe 21. A pipe 23 between the two valves V ₁ and V ₂ , a pump 23 connected in parallel so that a bridge circuit is formed via the pipe 22 in the first flow path and the second flow path. One intake / exhaust pipe 24 formed on the other side, the other intake / exhaust pipe 25 formed on the pipe 21 between the other two valves V ₃ and V ₄ , and a pipe 26 and a valve V ₅ at the exhaust port of the pump 23. It is comprised with the exhaust flow path connected through this.
[0032]
This switching means closes the valves V ₁ , V ₄ , V ₅ , opens the valves V ₂ , V ₃ , and operates the pump 23. When the pump 23 is operated, the intake / exhaust pipe 25, valve V ₃ , piping 22, pump 23, valve V ₂ Then, a flow path (thick line) passing through the intake / exhaust pipe 24 is formed, and ozone gas flows in the directions of arrows 27, 28, and 29 (FIG. 2A).
[0033]
When the valves V ₂ , V ₃ , V ₅ are closed and the valves V ₁ , V ₄ are opened to operate the pump 23, the intake / exhaust pipe 24, pipe 20, valve V ₁ , pipe 22, pump 23, valve V ₄ Then, a flow path (thick line) passing through the pipe 21 and the intake / exhaust pipe 25 is formed, and ozone gas flows in the directions of the arrows 30, 31, and 32 (FIG. 2B).
[0034]
Furthermore, when the valves V ₂ , V ₃ , V ₄ are closed and the valves V ₁ , V ₅ are opened to operate the pump 23, the pipes 24, 20, the valve V ₁ , the pipe 22, the pump 23, the pipe 26 and the valve V _A flow path (thick line) passing through ₅ is formed, and ozone gas flows in the direction of arrow 33 (FIG. 2C).
[0054]
【The invention's effect】
In short, according to the present invention, the following excellent effects are exhibited.
[0055]
During sterilization, ozone gas stored in the storage tank can be sterilized in a short time by introducing it into the chamber. When sterilization is completed, the ozone gas in the chamber can be returned to the storage tank and reused. Realizing the provision of an ozone sterilization method and an ozone sterilization apparatus that can efficiently use ozone gas and sufficiently agitate the ozone gas in the chamber by rezonizing the concentrated ozone gas with an ozone generator. be able to.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing an embodiment of an ozone sterilization apparatus to which an ozone sterilization method of the present invention is applied.
FIGS. 2A, 2B, and 2C are explanatory views of switching means for changing the direction in which ozone gas flows by switching piping.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Chamber 2 Storage tank 3, 12 Pump 6 Sterilization filter 7 Ozone generator 8 Ozone decomposition device 11 Ozone concentration meter

Claims (3)

  In a method for ozone sterilization of an object by repeating the operation of introducing ozone gas after depressurizing a chamber containing the object to be sterilized, an ozone generator is connected to a storage tank for storing ozone gas, and the object to be sterilized After depressurizing the chamber in which the gas is stored, the specified amount of ozone gas in the storage tank is supplied to the chamber to sterilize the object, monitor the ozone concentration, and return the ozone gas in the chamber to the storage tank. The low-concentration ozone gas returned from the chamber into the storage tank is fed back to the ozone generator to be ozonized again and supplied to the storage tank, and the ozone gas in the storage tank is supplied to the chamber under reduced pressure. An ozone sterilization method characterized by repeatedly sterilizing. In an apparatus for introducing ozone gas after depressurizing a chamber in which a sterilization target is stored, a chamber in which the sterilization target is stored, a storage tank for storing ozone gas, and an ozone gas for supplying ozone gas to the storage tank A generator, an ozone concentration meter connected to the chamber for monitoring the ozone concentration in the chamber, a pump for depressurizing the chamber and allowing ozone gas to be taken in and out between the chamber and the storage tank, and returning to the storage tank An ozone sterilizer comprising a feedback line that returns the low-concentration ozone gas that has been returned to the ozone generator to return it to ozone and return it to the storage tank. Ozone disinfection device according to claim 2 sterile filter provided we are in the air inlet portion of the chamber.

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