KR101924620B1 - Hydrogen peroxide aerosol equipment with air blower - Google Patents

Abstract

The present invention relates to an HPAE including an air blower. More specifically, the HPAE, capable of sterilizing a sterilization space by spraying a hydrogen peroxide solution, includes: an aerosol generator including a hydrogen peroxide solution storage and supply part storing and supplying a hydrogen peroxide solution, an air supply part supplying pressurized air, and a spraying device connected to the hydrogen peroxide solution storage and supply part and the air supply part to receive the pressurized air and the hydrogen peroxide solution and spray the hydrogen peroxide solution as aerosol through a spray nozzle; an air blower spreading the hydrogen peroxide aerosol into the sterilization space; and an air blower control device controlling the operation of the air blower. According to the HPAE including the air blower, since the air blower is installed to promote the diffusion of hydrogen peroxide, the air supply part sends the sprayed hydrogen peroxide farther while maintaining an optimal air flowrate for generating the solution as aerosol, and thus, the hydrogen peroxide is able to be spread better in the sterilization space. Moreover, according to the HPAE including an air blower, since the operation of the air blower is controlled according to stages including spraying, halting, and aeration, a hydrogen peroxide spreading effect is maximized, and thus, the difference in hydrogen peroxide concentration in the air is able to be lowered and the efficiency of sterilization is able to be increased.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a hydrogen peroxide fume generating device equipped with an air blower,

The present invention relates to a hydrogen peroxide aerosol equipment (hereinafter referred to as HPAE), and more particularly to a hydrogen peroxide fume generator (HPAE) equipped with an air blower.

Generally, in aseptic preparation and manufacturing facilities for biological safety, foods and pharmaceuticals such as laboratories, animal breeding facilities, Good Manufacturing Practice (GMP), and Biological Safety Level (BSL-3) Internal laboratory and production rooms require clean, sterile management. Sterilization, unlike sanitization or disinfection, means completely eliminating all living microorganisms through physical and chemical action. In other words, theoretically means the treatment of a level (10 ^-6 ) that reduces the initial population of one million microorganisms very close to zero.

EO (ethylene oxide) gas, steam, hydrogen peroxide, plasma or the like is used as the method or apparatus for sterilization. It has been reported that the sterilization method using EO gas itself has a high risk of explosion and acts as a genotoxic substance causing mutation. Steam sterilizers are considered to be one of the safest ways to meet sterilization power to a certain level. The steam sterilizer is advantageous in that it is not toxic, is relatively inexpensive and can be sterilized quickly, but is disadvantageous in that it can be used only in a medical device which has no side effects even when exposed to moisture and high temperature. Examples of sterilization methods using a combination of hydrogen peroxide, ozone, and a plasma generator include a method in which hydrogen peroxide is supplied to a sterilization chamber and sterilization is performed by generating plasma in the sterilization chamber, a method of sterilizing plasma and a sterilant, A method in which plasma is generated in the state where oxygen is supplied to the sterilization chamber to convert it into ozone to sterilize it, and a method in which hydrogen peroxide and ozone are supplied together to sterilize the sterilized object in the sterilization chamber .

1 is a view showing a configuration of a conventional mist generating device. The mist generating device is a device for sterilizing hydrogen peroxide by using hydrogen peroxide aerosol (HPA) generated by spraying with hydrogen gas with a nozzle. The sterilization treatment using the mist generating device is divided into an injection step for spraying hydrogen peroxide, a dwell step for stopping spraying, and an air-phase step for removing hydrogen peroxide. At this time, it is very important that the hydrogen peroxide aerosol (HPA) is uniformly diffused in the sterilization space to be sterilized in the spraying step. In a conventional HPAE, a spray unit for spraying a hydrogen peroxide aerosol (HPA) is supplied with pressurized air from an air pump to produce a hydrogen peroxide aerosol in a dry-fog state. At this time, the air pump had to maintain an optimized air flow rate to produce a dry hydrogen peroxide aerosol. However, due to this, the diffusion rate of the hydrogen peroxide aerosol (HPA) is inevitably dependent on the speed of the air flow supplied from the air pump. That is, since the air pump for supplying pressurized air to the spray device is intended to generate a hydrated hydrogen peroxide aerosol (HPA) rather than the diffusion of the hydrogen peroxide aerosol (HPA), the hydrogen peroxide aerosol (HPA) It could not spread. Therefore, the hydrogen peroxide aerosol (HPA) is not uniformly diffused in the sterilization space by the air pump alone, and as a result, the sterilization efficiency is lowered or the sterilization is not partially performed.

Korean Patent No. 10-0782040 " Sterilization method using hydrogen peroxide and ozone and apparatus according to the method " has been proposed as related prior art.

The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods, and it is an object of the present invention to provide an air blower for diffusion of hydrogen peroxide to provide an optimum air flow for generating a hydrogen peroxide solution in a dry state It is an object of the present invention to provide an HPAE equipped with an air blower capable of spraying hydrogen peroxide farther away while maintaining the speed, and to promote the diffusion of hydrogen peroxide in the sterilization space.

In addition, the present invention provides an air blower which can increase the hydrogen peroxide spraying effect by controlling the operation of the air blower according to the sterilization step of spraying, pausing and aeration to alleviate the difference in the concentration of hydrogen peroxide in the air in the sterilization space, The present invention provides an HPAE equipped with an HPA.

According to an aspect of the present invention, there is provided an HPAE equipped with an air blower,

A HPAE that sterilizes the sterilization space by spraying a hydrogen peroxide solution,

A hydrogen peroxide solution storage and supply unit for storing and supplying the hydrogen peroxide solution; an air supply unit for supplying air in a pressurized state by introducing air; and a hydrogen peroxide solution supply unit connected to the hydrogen peroxide solution storage and supply unit and the air supply unit, And a spray device for spraying the hydrogen peroxide solution into a dry aerosol through an injection nozzle supplied with air;

An air blower for diffusing a hydrogen peroxide aerosol in a dry state sprayed from the mist generating device in the sterilizing space; And

And an air blower control device for controlling the driving of the air blower.

Preferably, the air blower control device includes:

The driving of the air blower can be controlled for each step of spraying, resting and aeration during the sterilization step.

More preferably, the air blower control device includes:

It is possible to control the pressure ratio or the discharge pressure of the air blower to be maximized in the spraying and the aeration step.

Preferably, the air blower includes:

And may be installed in front of the injection nozzle.

Preferably, the air blower includes:

The hydrogen peroxide aerosol in the dry state can be diffused by the air flow of the air blower independently of the fog generator and installed at the point where the hydrogen peroxide aerosol in a dry state sprayed from the mist generator is dropped.

Preferably, the air blower includes:

The air supply unit is independent of the air supply unit, and air can be separately supplied to the air supply unit.

Preferably, the air blower includes:

And is further connected to the air supply unit to further pressurize the pressurized air supplied from the air supply unit.

Preferably, the HPAE comprises:

A plasma electrode disposed in proximity to the spray nozzle of the atomizer unit to generate a plasma discharge so as to spray a hydrogen peroxide aerosol sprayed in a dry state in the form of an ionized hydrogen peroxide aerosol and a plasma electrode arranged to generate a plasma discharge in the plasma electrode, And a plasma generator for supplying power to the plasma generator.

According to the HPAE equipped with the air blower proposed in the present invention, by installing an air blower for diffusing hydrogen peroxide, it is possible to maintain the optimum air flow rate for generating the hydrogen peroxide solution in a dry condition in the air supply part, Hydrogen peroxide can be blown away to spread the hydrogen peroxide in the sterilization space.

Further, according to the HPAE equipped with the air blower proposed in the present invention, the operation of the air blower is controlled according to the steps of sterilization of spraying, resting and aeration, thereby maximizing the hydrogen peroxide spraying effect and alleviating the difference in the concentration of hydrogen peroxide in the air in the sterilization space And the sterilization efficiency can be increased.

1 is a view showing a configuration of a conventional mist generating device;
2 is a view showing a configuration of an HPAE equipped with an air blower according to an embodiment of the present invention.
3 is a graph showing a configuration of an HPAE equipped with an air blower according to an embodiment of the present invention.
4 is a view showing a state in which the concentration of hydrogen peroxide injected by HPAE equipped with an air blower according to an embodiment of the present invention is measured.
FIG. 5 is a graph showing the difference in the concentration of hydrogen peroxide in the sterilization space during the sterilization treatment of the HPAE with the conventional air HPAE and the air blower according to the embodiment of the present invention.
6 is a view showing a configuration of an HPAE equipped with an air blower according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The same or similar reference numerals are used throughout the drawings for portions having similar functions and functions.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

2 is a view showing a configuration of an HPAE equipped with an air blower 120 according to an embodiment of the present invention. 2, the HPAE equipped with the air blower 120 according to an embodiment of the present invention is an HPAE that sterilizes the sterilizing space by spraying a hydrogen peroxide solution. The HPAE includes a hydrogen peroxide solution storage / supply unit 111, The air blower 120 and the air blower control device 121 including the supply part 113 and the spray device part 115. [ Here, HPEA is a device for sterilizing hydrogen peroxide by using a hydrogen peroxide aerosol (HPA) generated by spraying a hydrogen peroxide with a nozzle. Hereinafter, each configuration of the HPAE equipped with the air blower according to the embodiment of the present invention will be described in detail.

The hydrogen peroxide solution storage and supply unit 111 can store and supply the hydrogen peroxide solution. That is, the hydrogen peroxide solution storage / supply unit 111 can supply the stored hydrogen peroxide solution to the sprayer unit 115.

The air supply unit 113 can supply air in a pressurized state by introducing air. Here, air may be air outside HPAE. The air supply unit 113 can supply air to the atomizing unit 115 by pressurizing the air outside the HPAE by flowing into the HPAE.

The spray device unit 115 is connected to the hydrogen peroxide solution storage and supply unit 111 and the air supply unit 113 to supply the hydrogen peroxide solution and pressurized air to the hydrogen peroxide solution through the spray nozzle 116 in a dry- , I.e., hydrogen peroxide aerosol (HPA). Here, the size of the hydrogen peroxide particles sprayed in a dry state may be 15 mu m or less, but preferably 10 mu m or less. The atomizer unit 115 can spray the hydrogen peroxide solution in a dry state by using the hydrogen peroxide solution and the pressurized air so that the hydrogen peroxide particles do not burst even when they collide with each other. The larger the size of the hydrogen peroxide particles injected, the larger the amount of residual water generated by collision with each other. Hereinafter, for convenience of description, hydrogen peroxide sprayed in a dry state is referred to as hydrogen peroxide aerosol (HPA).

The air blower 120 can diffuse the hydrogen peroxide aerosol in the sterilized space in the dry state sprayed from the mist generating device 110. Here, the air blower 120 may be an air inlet / outlet density ratio, that is, a blower having a larger pressure ratio than a general fan, or a high-output blower capable of sending air farther than a general fan. Accordingly, the air blower 120 can spread the hydrogen peroxide aerosol (HPA) in the sterilization space by blowing away the hydrogen peroxide aerosol (HPA).

The air blower control device 121 can control the driving of the air blower 120. [ More specifically, the air blower control device 121 can control the operation of the air blower in accordance with the spraying, resting and aeration steps during the sterilization step. For example, it is important that the hydrogen peroxide aerosol (HPA) is blown away from the spraying step so that the hydrogen peroxide aerosol (HPA) is uniformly diffused in the sterile space, so that the air blower control device The pressure ratio of the blower 120 or the discharge pressure can be maximized. Particularly, the air blower 120 can improve the performance of removing the hydrogen peroxide concentration of the scrubber by operating in the aeration step. As described above, the efficiency of the sterilization process can be improved by controlling the operation of the air blower 120 by the air blower control device 121 in each step. The air blower control device 121 can control the air blower 120 according to a predetermined condition corresponding to the sterilization step. In this case, the predetermined condition may be a condition of the size of the sterilization space and the time of each sterilization step as a variable.

On the other hand, the air blower 120 may be installed in front of the injection nozzle 116. Therefore, the hydrogen peroxide aerosol HPA in the sterilization space R can be diffused by blowing the hydrogen peroxide aerosol HPA injected through the injection nozzle 116 forward. According to the embodiment, the air blower 120 is connected to the air supply unit 113 so as to further pressurize the pressurized air supplied from the air supply unit 113. [ That is, the air blower 120 can be supplied with pressurized air from the air supply unit 113 through a conduit (not shown) separately connected to the spray apparatus unit 115. At this time, the air blower 120 further pressurizes the pressurized air so that the hydrogen peroxide aerosol (HPA) can be diffused in the sterilizing space, Speed airflow velocity can be formed. The air supply unit 113 can form an air flow rate for diffusing the hydrogen peroxide aerosol (HPA) by the air blower 120 while maintaining the optimum air flow rate for generating the hydrogen peroxide aerosol (HPA) have.

3 is a graph showing a configuration of HPAE equipped with an air blower 120 according to an embodiment of the present invention. 3, the air blower 120 is installed at a position where the hydrogen peroxide aerosol in a dry state, which is independent of the mist generating device 110 and is sprayed from the mist generating device 110, falls, and the air blower 120 ) Air flow can diffuse the hydrogen peroxide aerosol in a dry state. The hydrogen peroxide aerosol HPA is blown off by the air flow of the air blower 120 at the dropping point when the hydrogen peroxide aerosol HPA sprayed from the mist generating device 110 drops by gravity, It can spread further in the sterile space. On the other hand, according to the embodiment, the air blower 120 is independent of the air supply unit 113, and air can be separately supplied from the outside to receive air. Accordingly, the air blower 120 and the air blower control device 121 can be combined with the mist generating device 110 in various forms according to the structure of the sterilizing space.

FIG. 4 is a view showing a state in which the concentration of hydrogen peroxide injected by the HPAE equipped with the air blower 120 according to the embodiment of the present invention is measured. 5 is a graph showing the difference in the concentration of hydrogen peroxide in the sterilization space R during the sterilization treatment of the conventional HPAE and the HPAE equipped with the air blower 120 according to the embodiment of the present invention. 4, a first hydrogen peroxide concentration measuring device A and a second hydrogen peroxide concentration measuring device B for measuring the concentration of hydrogen peroxide in the air are installed at arbitrary two points in the sterilization space R, and the hydrogen peroxide concentration By measuring, it is possible to measure how uniformly the hydrogen peroxide aerosol (HPA) diffuses into the sterilization space (R). 5 (a), in the case of the conventional HPAE, when the concentration of hydrogen peroxide in the air is measured by the first hydrogen peroxide concentration measuring device A and the second hydrogen peroxide concentration measuring device B, The difference in the concentration of hydrogen peroxide between the points becomes large. That is, the diffusion of hydrogen peroxide aerosol (HPA) in the sterilization space (R) is not sufficiently achieved. Therefore, since the concentration of the hydrogen peroxide aerosol (HPA) is low at the point where the second hydrogen peroxide concentration meter (B) is installed, sufficient sterilization treatment may not be performed compared with the point where the first hydrogen peroxide concentration meter (A) is installed. 5 (b), in the case of HPAE equipped with the air blower 120 according to the embodiment of the present invention, the first hydrogen peroxide concentration meter A and the second hydrogen peroxide concentration meter B When the concentration of hydrogen peroxide in air is measured, the difference in hydrogen peroxide concentration between two points in each sterilization step is relaxed. That is, the diffusion of the hydrogen peroxide aerosol (HPA) in the sterilization space (R) is sufficient, meaning that the difference in hydrogen peroxide concentration between two points is not large. Therefore, both of the first and second hydrogen peroxide concentration meters A and B can be sufficiently sterilized.

6 is a view showing a configuration of HPAE equipped with an air blower 120 according to another embodiment of the present invention. As shown in FIG. 6, the HPAE equipped with the air blower according to another embodiment of the present invention may further include a plasma generator 130. The plasma generator 130 is installed near the spray nozzle 116 of the sprayer unit 115 so that the hydrogen peroxide aerosol sprayed in a dry state is sprayed in the form of ionized hydrogen peroxide aerosol (IHPA) A plasma electrode 131 for generating a plasma discharge and a plasma power supply unit 133 for supplying power to the plasma electrode 131 so as to cause a plasma discharge in the plasma electrode 131. At this time, the plasma power supply unit 133 may supply a voltage of 17.5 KV to the plasma electrode 131 for plasma discharge. Therefore, the plasma generator 130 can cause plasma discharge so that the hydrogen peroxide aerosol (HPA) sprayed in a dry state is injected into the ionized hydrogen peroxide aerosol (IHPA) state. Hereinafter, hydrogen peroxide injected in the form of an ionized hydrogen peroxide aerosol for convenience of description is referred to as ionized hydrogen peroxide aerosol (IHPA).

6 (a), the air blower 120 is installed in front of the injection nozzle 116 and blows the IHPA generated through the plasma generating device 130 forward. As a result, The diffusion of IHPA in the solution (R) can be promoted. 6 (b), the air blower 120 is independent of the mist generating device 110 and the plasma generating device 130, and is connected to the IHPA 130 generated through the plasma generating device 130, Can be installed at the point where it falls. The IHPA can be diffused further in the sterilization space R by blowing the IHPA from the air blower 120 at the point of dropping when the IHPA injected through the plasma generator 130 falls by gravity . The air blower 120 and the air blower control device 121 may be combined in various forms with the mist generating device 110 and the plasma generating device 130 according to the structure of the sterilizing space.

As described above, according to the HPAE equipped with the air blower proposed in the present invention, by installing the air blower for diffusion of the hydrogen peroxide, the optimum air flow rate for generating the hydrogen peroxide solution in a dry state in the air supply portion The hydrogen peroxide injected may be further blown away to spread the hydrogen peroxide in the sterilization space. Further, according to the HPAE equipped with the air blower proposed in the present invention, the operation of the air blower is controlled according to the steps of sterilization of spraying, resting and aeration, thereby maximizing the hydrogen peroxide spraying effect and alleviating the difference in the concentration of hydrogen peroxide in the air in the sterilization space And the sterilization efficiency can be increased.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

A: First hydrogen peroxide concentration meter
B: Second hydrogen peroxide concentration meter
R: sterile space
110: Fume generator
111: hydrogen peroxide solution storage supply part
113:
115:
116: injection nozzle
120: Air blower
121: Air blower control device
130: Plasma generator
131: Plasma electrode
133: Plasma power supply

Claims (8)

Hydrogen Peroxide Aerosol Equipment (HPAE) which sterilizes the sterilization space by spraying a hydrogen peroxide solution,
A hydrogen peroxide solution storage and supply unit for storing and supplying the hydrogen peroxide solution, an air supply unit for supplying air in a pressurized state by introducing the air, and an air supply unit connected to the hydrogen peroxide solution storage and supply unit and the air supply unit, And a spray device for spraying the hydrogen peroxide solution into a dry aerosol through an injection nozzle supplied with air;
An air blower for diffusing a hydrogen peroxide aerosol in a dry state sprayed from the mist generating device in the sterilizing space; And
And an air blower control device for controlling the driving of the air blower,
The air blower control device includes:
Controlling the driving of the air blower according to the steps of spraying, resting and aeration during the sterilization step,
The air blower control device includes:
Controls the pressure ratio of the air blower or the discharge pressure to be the maximum in the spraying and the aeration step,
In the air blower,
A spray nozzle disposed in front of the spray nozzle,
In the air blower,
Characterized in that the hydrogen peroxide aerosol is provided at a point where the hydrogen peroxide aerosol in a dry state sprayed from the mist generating device is dropped independently of the fog generating device to diffuse the hydrogen peroxide aerosol in the dry state with the air flow of the air blower Hydrogen peroxide fume generator (HPAE) equipped.
delete delete delete delete The air conditioner according to claim 1,
(HPAE) equipped with an air blower, which is independent of the air supply unit and is supplied with air separately from the outside.
The air conditioner according to claim 1,
(HPAE), which is connected to the air supply unit, further pressurizes the pressurized air supplied from the air supply unit.
The hydrogen peroxide fog generator (HPAE) according to any one of claims 1, 6, and 7,
A plasma electrode disposed in proximity to a spray nozzle of the spray device to generate a plasma discharge so that the hydrogen peroxide aerosol sprayed in a dry state is sprayed in the form of an ionized hydrogen peroxide aerosol and a plasma electrode arranged to generate a plasma discharge in the plasma electrode, (HPAE) equipped with an air blower, characterized in that it further comprises a plasma generating device having a plasma power supply for supplying power to the plasma generator.

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