KR20110114141A - A portable sterilizer using hydrogen peroxide vapor - Google Patents

Abstract

The present invention relates to a mobile sterilization apparatus using hydrogen peroxide vapor, a housing having a door formed at one side and a receiving space formed therein, a moving means installed at a lower portion of the housing to move the housing, and at one side of the housing. An input port formed at the other side of the housing and formed at the other side of the housing, and an output port at which the hydrogen peroxide vapor is discharged; It is accommodated in or connected to the input port and the output port from the outside of the housing, to supply the hydrogen peroxide vapor into the housing, the hydrogen peroxide supply to suck the hydrogen peroxide vapor after sterilization and installed on one side of the housing after the completion of sterilization In the housing The air characterized by comprising an exhaust fan for discharging to the outside.
According to the present invention as described above, it is possible to disinfect / sterilize various equipment without the constraints of space or time, effective sterilization is possible, there is an effect to improve the sterilization rate and sterilization, in particular, a wide range of It has the advantage of being very suitable for biological disinfection / sterilization of equipment and space.

Description

Portable Sterilizer Using Hydrogen Peroxide Vapor

The present invention relates to a mobile sterilization apparatus using hydrogen peroxide vapor, and more particularly, to a sterilization apparatus excellent in sterilization power, capable of disinfecting / sterilizing various equipments without restriction according to the installation place or time by making it mobile. .

For sterilization and disinfection of medical instruments, mechanical equipment, electronic equipment, etc., high pressure steam sterilization method using saturated steam under high pressure is usually used, or high temperature, high humidity and high pressure are not required and no damage to equipment or materials is performed. Sterilization fixation is performed by ethylene oxide gas sterilization using a chemical such as ethylene oxide.

However, since the high pressure steam sterilizer sterilizes at a high temperature of more than 120 degrees, medical instruments made of synthetic resins, which are being developed recently, are deformed, and medical instruments made of steel are blunted with fine blades, which reduces the life span. do.

In addition, the ethylene oxide gas sterilizer has ethylene oxide remaining in the sterilized products or the carcinogenic and toxic substances are generated due to the reaction product, and it is necessary to leave about 12 hours or more after sterilization in order to vent the same. In addition, ethylene oxide gas itself is a high explosion risk, it has been reported that it can act as a genetic toxic substance that can cause mutations, and it is prescribed as a carcinogen, which requires much attention to its use.

On the other hand, sterilization method using hydrogen peroxide vapor is delivered to the various devices in the form of steam to sterilize the device with space sterilization, and excellent sterilization ability to remove the apo level of microorganisms that cannot be removed by general disinfectant. After sterilization, the residues are widely used because they are decomposed into water and oxygen and are safe and eco-friendly.

However, the conventional sterilization method using hydrogen peroxide vapor is provided with a separate sterilization chamber in a building and the like, and equipment is required to be sterilized in a sterilization chamber, and then sterilization of the equipment using hydrogen peroxide vapor is performed according to place and time. Have been received.

In addition, the sterilization apparatus using the conventional hydrogen peroxide vapor is not easy to precise temperature, humidity control, the sterilization process and the hydrogen peroxide decomposition process had a problem of low sterilization rate.

In the conventional sterilization apparatus using hydrogen peroxide vapor, the decomposition of hydrogen peroxide is identified as a key mechanism of sterilization, and hydrogen peroxide is produced by vapor diffusion and then contacted with the object to be sterilized by generating plasma, but in this case, due to decomposition of hydrogen peroxide Rather, there is a problem that the sterilization power is lowered.

The present invention has been made to solve the above problems, it is an object of the present invention to provide a sterilization apparatus that can be disinfected / sterilized various equipment without restrictions according to the installation place or time to move.

Another object of the present invention is to precisely control the temperature and humidity, and to improve sterilization rate since the sterilization process and the hydrogen peroxide decomposition process are performed in a single device.

Still another object of the present invention is to provide a sterilization apparatus having excellent sterilization power by making fine condensation of hydrogen peroxide vapor as a core sterilization mechanism.

According to an aspect of the present invention for achieving the above object, a housing having a door formed on one side and a receiving space formed therein, a moving means installed in the lower portion of the housing to move the housing, the housing An input port formed at one side and into which hydrogen peroxide vapor is introduced, an output port formed at the other side of the housing and discharged to the hydrogen peroxide, and a circulation fan installed at one side of the housing to disperse hydrogen peroxide vapor in the housing, and Is housed in the housing or connected to the input port and the output port from the outside of the housing, to supply the hydrogen peroxide vapor into the housing, the sterilization process is installed on the hydrogen peroxide supply and the upper side of the housing to suck the hydrogen peroxide vapor after sterilization treatment Air inside the housing after completion There is provided a mobile sterilization apparatus using hydrogen peroxide steam comprising an exhaust fan for discharging to the outside.

Here, it is preferable that the inclined protrusions inclined to the outside of the housing is formed in the lower portion of the door.

The filter member may be further provided on the exhaust fan, the filter member protective grating installed on the lower portion of the filter member, and the damper provided on the upper portion of the filter member.

The hydrogen peroxide supply may include a suction port through which air is introduced from the inside of the housing, a humidity sensor that detects humidity of the air introduced through the suction port, a hydrogen peroxide steam generator that generates hydrogen peroxide, and an initial humidity inside the housing. Maintain the set value, supply port for supplying air discharged from the hydrogen peroxide steam generator and the air conditioner to decompose the hydrogen peroxide vapor after the sterilization to the housing, the air flowing through the suction port to the hydrogen peroxide steam It is more preferable to include a direction control valve selectively supplied to the generator or the conditioner and a controller for controlling the direction change valve in accordance with the humidity value detected by the humidity sensor.

In addition, the controller initially connects the flow path to the conditioner until the humidity inside the housing reaches the set value, and connects the flow path to the hydrogen peroxide steam generator when the humidity inside the housing reaches the set value, sterilization After completion of the treatment, it is more preferable to control the redirection valve to decompose the hydrogen peroxide vapor by connecting a flow path to the conditioner.

In addition, the conditioner is a decomposer for decomposing hydrogen peroxide vapor contained in the air flowing through the suction port, a dryer for drying the air flowing through the suction port to obtain a desired set humidity and the suction to obtain a desired set temperature. More preferably, it includes a heater that heats the air entering through the port.

According to the present invention as described above, it is possible to sterilize / sterilize the various equipment without the constraints of space or time, effective sterilization is possible, there is an effect to improve the sterilization rate and sterilization power.

According to the invention in particular, there is an advantage that is very suitable for biological disinfection / sterilization of a wide range of equipment and space.

1 is a block diagram showing the structure of a mobile sterilization apparatus using hydrogen peroxide vapor in accordance with the present invention.
FIG. 2 is a cross-sectional view illustrating a structure of an exhaust port of FIG. 1.
3 is a block diagram showing the internal configuration of the hydrogen peroxide supply of FIG.
FIG. 4 is a block diagram showing the internal configuration of the harmonic of FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a block diagram showing the structure of a mobile sterilization apparatus using hydrogen peroxide vapor according to the present invention, Figure 2 is a cross-sectional view showing the structure of the exhaust port of FIG.

As shown in FIG. 1, the mobile sterilization apparatus using hydrogen peroxide vapor according to the present invention is installed inside or outside the sterilization apparatus 1 and the sterilization apparatus 1 in the form of a large movable container and the sterilization apparatus 1. It is configured to include a hydrogen peroxide supply (2) for processing the temperature, humidity control, hydrogen peroxide vapor supply and hydrogen peroxide steam decomposition.

The sterilization apparatus 1 includes a housing 10, a moving means 20, an input port 30, an output port 40, a circulation fan 50, and an exhaust port 60.

The housing 10 is formed in a size that can accommodate the vehicle so that the door 80 is formed on one side and the container space is formed therein so that the vehicle, such as an ambulance, can be sterilized. It is preferable that the inclined protrusion 70 inclined to the outside of the housing 10 extends below the door 80 so as to easily move the movable equipment (eg, an ambulance) to the inside. The housing 10 is made of stainless material which is not affected by sterilization of hydrogen peroxide. Door 80 may be formed on one side or both sides of the housing 10, it is preferable to be formed on both sides of the housing 10 in order to be able to exit to the front during sterilization of the vehicle.

The moving means 20 is installed at the lower end of the housing 10 to move the housing 10, and a wheel may be generally used.

When the input port 30 and the output port 40 is a sterilization object is a large equipment, such as when there is not enough space in the housing 10, the hydrogen peroxide supply (2) can not be installed inside the housing 10 For connecting the hydrogen peroxide supply (2) and the sterilization device (1) located outside the housing 10 to the air, the air containing hydrogen peroxide vapor from the hydrogen peroxide supply (2) through the input port 30, the output port The air in the housing 10 is discharged through the 40 to the hydrogen peroxide supply 2.

The input and output ports 30 and 40 and the hydrogen peroxide feeder 2 are connected through a hose 90. The hose 90 connected to the input port 30 is provided with a heating wire 95 so that the hydrogen peroxide vapor is connected to the hose ( It is desirable to prevent condensation while passing through 90).

The circulation fan 50 is installed inside the housing 10 near the input port 30 to evenly distribute the hydrogen peroxide vapor introduced through the input port 30.

The exhaust port 60 is installed on one side of the upper portion of the housing 10 and discharges the air inside the housing 10 to the outside after sterilization is completed. The exhaust fan 61 and the wire mesh installed on the upper portion of the exhaust fan 61 are provided. The filter member protective grating 65 in the form of a cover, the filter member 63 is installed on the upper portion of the filter member protective grating 65 and the damper 67 is provided on the upper portion of the filter member 63.

As the filter member 63, a HEPA filter capable of removing 99.97% of 0.3 μm fine particles may be used. The damper 67 is closed when not in use or during sterilization and is opened only during the exhaust operation.

FIG. 3 is a block diagram showing the internal configuration of the hydrogen peroxide supply of FIG. 1, and FIG. 4 is a block diagram showing the internal configuration of the harmonizer of FIG.

As shown in FIG. 3, the hydrogen peroxide supply 2 includes a suction port 110, a humidity sensor 120, a fan 130, a pressure controller 140, a diverter valve 150, a conditioner 160, It comprises a hydrogen peroxide steam generator 170 and the supply port 180.

The suction port 110 is connected to the output port 40 of the sterilization apparatus 1 and is a part into which air in the housing 10 flows from the sterilization apparatus 1.

The humidity sensor 120 is located at the rear end of the suction port 110 to detect the humidity of the air flowing from the sterilization apparatus 1.

The fan 130 is for providing a suction force for sucking air from the sterilization device (1).

The pressure controller 140 is installed in parallel with the fan 130 to control the pressure of the air sucked by the fan 130.

The direction switching valve 150 is installed at the rear end of the fan 130 and selectively connects a flow path to the conditioner 160 or the hydrogen peroxide steam generator 170 according to the control signal of the controller 190. Three-way valves with two outlets can be used.

The conditioner 160 initially maintains the humidity inside the housing 10 at a set value, and decomposes hydrogen peroxide vapor remaining in the housing 10 after sterilization, as shown in FIG. 4, a suction port. Decomposer 161 for decomposing hydrogen peroxide vapor contained in the air flowing through the 110, dryer 163 for drying the air flowing through the suction port 110 to obtain a desired set humidity and obtain a desired set temperature It comprises a heater 165 for heating the air introduced through the suction port 110 to.

The decomposer 161 may be a catalyst or an activated carbon filter for decomposing hydrogen peroxide into water and oxygen, and ruthenium may be used as the catalyst.

The hydrogen peroxide vapor generator 170 generates hydrogen peroxide vapor, and includes a liquid hydrogen peroxide supply and an evaporator. When the aqueous hydrogen peroxide solution is dropped onto a hot plate of 100 ° C. or higher, a vapor mixture of hydrogen peroxide and water is generated by instantaneous evaporation.

The supply port 180 is a portion for supplying air discharged from the hydrogen peroxide steam generator 170 and the conditioner 160 to the sterilization apparatus 1.

The controller 190 controls the direction change valve 150 according to the humidity value detected by the humidity sensor 120. Initially, the conditioner 160 until the humidity inside the housing 10 reaches a set value. Connect the flow path to the furnace, and when the humidity inside the housing 10 reaches the set value, connect the flow path to the hydrogen peroxide steam generator 170, and after completion of the sterilization process, connect the flow path to the conditioner 160 to decompose the hydrogen peroxide vapor. The divert valve 150 is controlled to be.

The sterilization operation according to the control operation of the controller 190 will be described step by step.

1. Conditioning Step

In the initial state, the diverter valve 150 opens the flow path to the conditioner 160 so that the air in the housing 10 flows through the input port 110 by the suction force of the fan 130. Will reduce the humidity of the air to an appropriate level (about 35%). If the humidity is higher than the appropriate level, the fine condensation droplets to be generated on the surface of the sterilization object is diluted by water, which increases the time required for sterilization.

2. Sterilization Step

When the desired humidity is obtained, the diverter valve 150 opens the flow path to the hydrogen peroxide supply 170 to supply the hydrogen peroxide vapor generated to the sterilization apparatus 1, and mixes the steam and air returned from the sterilization apparatus 1 The steam returns back to the hydrogen peroxide steam generator 170 and is heated again and the hydrogen peroxide is continuously evaporated to quickly increase the concentration of the lost steam.

The supply of hydrogen peroxide vapor is continued until the hydrogen peroxide inside the housing 10 reaches the threshold when the steam is saturated, and when the threshold is reached, fine dew (fine condensation) invisible inside the housing 10 is generated, In fine condensation, hydrogen peroxide molecules are oxidized to produce highly reactive generator oxygen, which causes the microbial cell membranes to be destroyed, resulting in sterilization.

3. Hydrogen Peroxide Decomposition

When the sterilization is completed by contacting the surface of the sterilization object in the sterilization apparatus 1 with the hydrogen peroxide vapor at an appropriate time, the direction switching valve 150 opens the flow path to the conditioner 160 so that the hydrogen peroxide vapor is catalyzed by water and oxygen. The separated and produced water is removed by the dryer 163. This step continues until the hydrogen peroxide vapor is removed below 1 ppm.

1: sterilizer 2: hydrogen peroxide supply
10 housing 20 moving means
30: input port 40: output port
50: circulation fan 60: exhaust port
61 exhaust fan 63 filter member protective grating
65 filter element 67 damper
70: inclined protrusion 80: door
90: hose 95: heating wire
110: suction port 120: humidity sensor
130: fan 140: pressure controller
150: direction switching valve 160: conditioner
161: cracker 163: dryer
165 heater 170 hydrogen peroxide steam generator
180: supply port

Claims (6)

A housing having a door formed at one side and an accommodation space formed therein;
Moving means installed at a lower portion of the housing to move the housing;
An input port formed at one side of the housing and into which hydrogen peroxide vapor is introduced;
An output port formed at the other side of the housing and discharging the hydrogen peroxide vapor;
A circulation fan installed at one inner side of the housing to disperse hydrogen peroxide vapor in the housing;
A hydrogen peroxide supply housed in the housing or connected to the input port and the output port outside the housing to supply hydrogen peroxide vapor into the housing and suck the hydrogen peroxide vapor after sterilization; And
Mobile sterilization apparatus using a hydrogen peroxide vapor is installed on one side of the housing and comprises an exhaust fan for discharging the air inside the housing to the outside after the sterilization process is completed.
The method of claim 1,
Mobile sterilization apparatus using hydrogen peroxide vapor, characterized in that the inclined protrusions inclined to the outside of the housing is formed in the lower portion of the door.
The method of claim 1,
A filter member installed at an upper portion of the exhaust fan;
A filter member protective grating installed under the filter member; And
A mobile sterilization apparatus using hydrogen peroxide steam, characterized in that it further comprises a damper installed on the filter member.
The method of claim 1,
The hydrogen peroxide supply unit
A suction port through which air is introduced from inside the housing;
A humidity sensor for detecting humidity of air introduced through the suction port;
A hydrogen peroxide steam generator for generating hydrogen peroxide steam;
A conditioner initially maintaining the humidity inside the housing at a set value and decomposing the hydrogen peroxide vapor after sterilization;
A supply port for supplying air discharged from the hydrogen peroxide steam generator and the conditioner to the housing;
A direction switching valve for selectively supplying air introduced through the suction port to the hydrogen peroxide steam generator or a conditioner; And
And a controller for controlling the directional valve according to the humidity value detected by the humidity sensor.
The method of claim 4, wherein
The controller initially connects the flow path to the conditioner until the humidity inside the housing reaches the set value, and connects the flow path to the hydrogen peroxide steam generator when the humidity inside the housing reaches the set value, the sterilization process is completed. Afterwards, the sterilization apparatus using the hydrogen peroxide vapor, characterized in that for controlling the redirection valve to decompose the hydrogen peroxide vapor by connecting the flow path to the conditioner.
The method of claim 4, wherein
The conditioner includes a decomposer for decomposing hydrogen peroxide vapor contained in the air introduced through the suction port;
A dryer for drying air introduced through the suction port to obtain a desired set humidity; And
Mobile sterilization apparatus using hydrogen peroxide vapor comprising a heater for heating the air flowing through the suction port to obtain a desired set temperature.

Images