KR101980602B1 - High-efficiency vaporizer for Chemical Sterilizer - Google Patents

Abstract

A sterilizing apparatus according to an embodiment of the present invention includes a cylindrical carburetor body tube including a first connection port connected to a substance storage container and a second connection port connected to a vacuum pump; A heating unit arranged to surround the evaporation body tube; A main pipe inserted into the carburetor body tube; A conductance adjuster disposed between the carburetor body tube and the main pipe; And a sterilizing agent supply pipe connected to the lower side of the carburetor body tube. The sterilizing agent supplied through the sterilizing agent supply pipe evaporates between the carburetor body tube and the main pipe, moves along the conductance adjuster, and is discharged to the upper inside of the carburetor body tube.

Description

[0001] The present invention relates to a high-efficiency vaporizer for chemical sterilizers,

The present invention relates to a vaporizer, and more particularly, to a vaporizer for a chemical sterilizer which heats and feeds a sterilant supplied to a double tube around an inner pipe having a high fluid flow conductance.

A chemical sterilizer is a sterilization process performed at a low temperature using a gas such as hydrogen peroxide (H ₂ O ₂ ), ethylene oxide (C ₂ H ₄ O), and chlorine dioxide as a sterilant Device.

Conventional chemical sterilizers using hydrogen peroxide as a sterilizing agent form a base vacuum pressure of less than 3 Torr in the sterilization process chamber and supply the sterilizing agent. In such a vacuum state, hydrogen peroxide can be vaporized at temperatures as low as 60 degrees Celsius or less. For sterilization, the sterilant is vaporized into a chamber having a certain volume, and the amount of sterilant to be supplied is set so that the sterilant is diffused at a pressure of 20 Torr or more so that the sterilant can be supplied while maintaining the gaseous state at the set temperature. do. Thus, the sterilizing agent must be maintained in the gaseous state, but the sterilization object inside the chamber and the inside thereof can be transferred to perform a successful sterilization process.

Conventional plasma sterilizers generally have sterilization chambers of several liters or more, and the sterilizing agent (hydrogen peroxide solution) is supplied at a level of several milliliters in an environment of about 60 degrees centigrade. As the capacity of the sterilization chamber increases, the amount of hydrogen peroxide to be supplied increases, and as a result, the amount of sterilant to be treated (vaporized) in the vaporizer is increased. Therefore, there is a need for a vaporizer capable of efficient heating and vaporization by securing a flow path so that hydrogen peroxide has a sufficient residence time within the vaporizer. A technique for effectively vaporizing and supplying such a large amount of sterilizing agent and removing impurities contained in the sterilizing agent is disclosed in US2002 / 0098111A1.

A conventional plasma sterilizer has a separate vacuum pumping line and a vaporizer. Generally, pressure differentials are used to inject the sterilant into the vaporizer. The vaporizer connected to the sterilizing chamber forming the vacuum forms a relatively low pressure in the tube to which the sterilizing agent is supplied and the sterilizing agent stored at the atmospheric pressure moves to the vaporizer by the pressure difference and is vaporized and the vaporized sterilizing agent The sterilization chamber is moved to perform the sterilization process.

In the conventional plasma sterilizer market, there is a growing demand for a small capacity sterilizer having a small sterilization chamber. As the chamber capacity decreases, there is a need for vaporizer technology to supply and vaporize small amounts of sterilant at the level of tens of microliters. In addition, as the chamber capacity decreases, there is a growing spatial limitation on the construction of the respective vacuum ports for the vacuum line, venting line, and sterilant injection line connected to the conventional sterilization chamber.

Hydrogen peroxide is generally used at a concentration of 30% to 60% in the use of an aqueous solution of hydrogen peroxide as a sterilizing agent. It contains non-vaporizable constituents such as transition metal slats, radicals (organic free radical scavengers) and the like to maintain the concentration and stability of hydrogen peroxide. Therefore, the vaporizer must be able to remove the vaporizer from the vaporizer so as to vaporize the sterilizer and prevent such impurities from being transferred to and introduced into the sterilizing target. Such a conventional vaporizer should be designed so that the vaporized gaseous sterilizing agent is bypassed several times to collect impurities, and maintenance for removal of impurities accumulated in the vaporizer should be easy.

Accordingly, it is an object of the present invention to provide a sterilant supply system which is capable of supplying a sterilant by forming a sufficient vacuum in the sterilant supply unit, minimizing the infiltration of impurities from the outside, securing a flow path for securing sufficient residence time of the sterilant, line, a venting line and a sterilant injection line.

A problem to be solved by the present invention is to provide a sterilant supply line or a sterilant injection area with a sufficient vacuum to smoothly supply sterilant and improve the safety and sterilization efficiency of the sterilization machine by increasing the vaporization efficiency while minimizing the penetration of impurities. To thereby provide a high-efficiency vaporizer.

Another object of the present invention is to provide a high-efficiency vaporizer which can utilize a vacuum forming line, a venting line, and a sterilizing agent injection line to minimize a plurality of ports connected to a sterilization chamber.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

A sterilizing apparatus according to an embodiment of the present invention includes a cylindrical carburetor body tube including a first connection port connected to a substance storage container and a second connection port connected to a vacuum pump; A heating unit arranged to surround the evaporation body tube; A main pipe inserted into the carburetor body tube; A conductance adjuster disposed between the carburetor body tube and the main pipe; And a sterilizing agent supply pipe connected to the lower side of the carburetor body tube. The sterilizing agent supplied through the sterilizing agent supply pipe evaporates between the carburetor body tube and the main pipe, moves along the conductance adjuster, and is discharged to the upper inside of the carburetor body tube.

In one embodiment of the present invention, the object to be treated container is a volume changeable object container disposed in the vacuum chamber.

In one embodiment of the present invention, the conductance adjuster is a thread formed on an outer circumferential surface of the main pipe, and the pitch of the thread may be 0.5 mm to 1.5 mm.

In an embodiment of the present invention, the thread may be disposed at a position higher than a connection site of the sterilant supply pipe.

In one embodiment of the present invention, the conductance adjuster includes circular washers spaced apart from one another, and the circular washers may include at least one orifice.

According to an embodiment of the present invention, the apparatus may further include a main needle disposed between the first connection port and the volume control target repository. The main needle is sealed with the vacuum chamber, and sterilized sterilant can be injected by piercing the sterilization agent injection channel stopper of the volatile processing article storage container.

In one embodiment of the present invention, an auxiliary needle disposed between the sterilizing agent supply pipe and the bulky variable object storage container; And a sterilizing agent delivery pipe disposed in the auxiliary needle and the sterilizing agent supply pipe. The auxiliary needle is sealed with the vacuum chamber, and the sterilizing agent stored by piercing the sterilizing agent storage stopper of the volumetrically processed product storage container can be extracted.

In one embodiment of the present invention, the carburetor body tube includes a first through hole having a first inner diameter and a second through hole having a first inner diameter A second through hole having a second inner diameter larger than the first through hole and a depression recessed in the inner side direction at the other end; And an upper carburetor body tube having one end inserted into the depression of the lower carburetor body tube and the other end having a first connection port and having the second inner diameter. The heating unit may be disposed to surround the upper carburetor body tube, and the sterilizing agent supply line may be connected to a lower portion of the second through hole.

In one embodiment of the present invention, the main pipe includes: a lower main pipe inserted into the first through hole; A main pipe fastening portion continuously connected to the lower main pipe and having a washer shape coupled to a connection portion between the first through hole and the second through hole; And an upper main pipe continuously connected to the main pipe latching portion. A thread-shaped conductance adjuster may be formed on the outer surface of the upper main pipe.

In one embodiment of the present invention, the first connection port of the upper carburetor body tube may have a smaller diameter than the second inner diameter. The main needle includes a cylindrical insertion portion inserted into and engaged with the first connection port; A washer-shaped latching portion continuously connected to the insertion portion and coupled to one end of the upper carburetor body tube; A needle support portion continuously connected at the engagement portion; And a needle projecting from the needle support.

In an embodiment of the present invention, the material receiving container may be a vacuum chamber.

A sterilization apparatus according to an embodiment of the present invention includes: a volume-variable-object storage container which is sealed to be held in a vacuum state to house an object to be processed therein, is evacuated to a vacuum and is injected with sterilant from the outside; A vacuum chamber for containing the bulky variable object storage container; A vaporizer for injecting a sterilizing agent or outside air into the bulky object storage container and evacuating the bulky object storage container in a vacuum state; And a vacuum pump for evacuating the bulky object to be treated container using a pipe of the vaporizer or for directly exhausting the vacuum chamber.

In one embodiment of the present invention, the bulky material storage container may include a sterilizing material injection block for providing a sterilizing material injection path.

In one embodiment of the present invention, the vaporizer includes a cylindrical vaporizer body tube; A heating unit arranged to surround the evaporation body tube; A main pipe inserted into the carburetor body tube; A conductance adjuster disposed between the carburetor body tube and the main pipe; And a sterilant supply pipe connected to the lower side of the carburetor body tube. The sterilizing agent supplied through the sterilizing agent supply pipe may evaporate between the carburetor body tube and the main pipe, move along the conductance adjuster, and be discharged to the upper inside of the carburetor body tube.

A sterilization apparatus according to an embodiment of the present invention includes: a vacuum chamber for containing an object to be processed therein; A vaporizer for selectively injecting sterilizing agent or outside air into the vacuum chamber and evacuating the vacuum chamber in a vacuum state; And a vacuum pump for evacuating the vacuum chamber using a pipe of the carburetor.

In one embodiment of the present invention, the vaporizer includes a cylindrical vaporizer body tube; A heating unit arranged to surround the evaporation body tube; A main pipe inserted into the carburetor body tube; A conductance adjuster disposed between the carburetor body tube and the main pipe; And a sterilant supply pipe connected to the lower side of the carburetor body tube. The sterilizing agent supplied through the sterilizing agent supply pipe may evaporate between the carburetor body tube and the main pipe, move along the conductance adjuster, and be discharged to the upper inside of the carburetor body tube.

A vaporizer according to an embodiment of the present invention provides a vaporizer that functions as a vacuum exhaust line and a venting line while operating as a vaporizer. Accordingly, the number of lines can be reduced, and space usability and cost can be reduced.

The vaporizer according to an embodiment of the present invention includes a condensing adjuster for adjusting a conductance of a passage through which a sterilizing agent is supplied and provides a flow path for vaporization for efficient vaporization according to the conductance adjuster, The reliability of the pressure control can be provided.

The vaporizer according to an embodiment of the present invention minimizes the inflow of foreign impurities including air, thereby increasing the sterility of the sterilizer and improving the sterilizing performance.

The vaporizer according to an embodiment of the present invention may include a vacuum forming line and a venting line to implement a vacuum pumping line, a venting line, and a sterilant injection line in one port. And a sterilizing agent is disposed in contact with the heated inner wall of the carburetor body tube so as to be in contact with the heated inner wall of the carburetor body tube do. Accordingly, the sterilizing agent supply line supplying the sterilizing agent to the carburetor body tube from the outside can be kept in a vacuum state by the vacuum pump. Accordingly, when the sterilizing agent is supplied through the sterilizing agent supply line, the sterilizing agent can be smoothly vaporized by the pressure difference and supplied to the inside of the main pipe. Therefore, the vaporizer can perform a sterilizer supply function, a vaporization function, an exhaust function, and a venting function.

In one embodiment of the present invention, fluid flow (or conductance) can be independently controlled according to the amount of sterilant supplied by controlling the pitch of the threads, the height of the threads, and the overall length of the threaded structure as the conductance adjuster .

In an embodiment of the present invention, the screw structure and the carburetor body tube are brought into contact with each other to control the fluid flow, and heat transfer from the heater provided on the outer wall of the carburetor body tube is made possible, thereby improving the temperature uniformity.

In one embodiment of the present invention, the impurities contained in the sterilizing agent are mostly accumulated in the screw structure region where the fluid is bypassed several times during the vaporization process, and the screw structure can be formed as an independent part, thereby facilitating maintenance.

As described above, according to an embodiment of the present invention, it is possible to secure the reliability of the pressure control optimized for the process through the flow path for independently controlling the fluid flow between the vaporizer and the sterilizing agent supply line, .

According to an embodiment of the present invention, external contaminants including air are minimized, thereby increasing sterilant purity and improving sterilization performance, thereby enabling effective sterilization.

According to one embodiment of the present invention, a vacuum pumping line, a venting line, and a sterilant injection line are implemented in a single port to minimize the port configuration of the sterilization chamber, Pressure control and process efficiency can be improved.

1 is a conceptual diagram illustrating a sterilization and vaporization apparatus according to an embodiment of the present invention.
2A is a conceptual diagram for explaining the connection relation and the conductance of the sterilizing apparatus of FIG.
2B is a graph showing a change in conductance according to the pressure of FIG. 2A.
3 is a graph showing a time-dependent pressure of the sterilizing device of FIG. 2 according to the pitch (0.5 mm) of the threads as the conductance adjuster 133 of the vaporizer.
4 is a graph showing the time-dependent pressure of the sterilizing device of FIG. 2 according to the pitch (0.8 mm) of threads as the conductance adjuster 133 of the vaporizer.
5 is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.
6 is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.
7 is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.
8A is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.
FIG. 8B is a perspective view for explaining the volume changeable object storage container of FIG. 8A. FIG.
FIG. 8C is a cross-sectional view illustrating the sterilization agent injection block of the bulky material storage container of FIG. 8B. FIG.

Typically, the sterilization chamber has a vacuum pumping line to maintain vacuum, and has a sterilant injection line for vaporizing and injecting sterilant, and has a venting line for injecting outside air.

Many pipelines occupy much space, reducing space utilization and increasing cost. Particularly, a large number of pipeline structures are not suitable when a volume-varying object accommodating container is provided in the vacuum chamber. Specifically, the sterilizing apparatus according to an embodiment of the present invention includes a vacuum chamber of a fixed volume and a volume changeable object storage container which varies in accordance with a pressure difference. The bulky object storage container may include a vacuum pouch. It is not easy to independently connect the vacuum pumping line, the sterilant injection line, and the venting line to the vacuum pouch. It is necessary to integrate the vacuum pumping line, the sterilizing agent injection line, and the venting line into one.

Thus, in accordance with one embodiment of the present invention, there is provided a new sterile vaporizer device that operates as a vaporizer that treats a plurality of such pipelines into one line while vaporizing the sterilant. The bulky variable object storage container may be a plastic film vacuum wrapping paper. The volume of the bulky object to be treated container may vary depending on the pressure difference between the vacuum chamber and the bulky object storage container.

In addition, the volume-varying object accommodating container is provided with a solid sterilizing agent injection block, and vacuum sealing is performed between the sterilizer injection block and the vacuum chamber. Accordingly, a part of the sterilizing agent injection stopper of the sterilizer injection block is exposed to the atmosphere through the opening of the vacuum chamber. The vaporizer has a main needle. When the sterilizing agent is injected into the bulky object storage container or evacuated in a vacuum state, the main needle punctures the sterilizing agent injection path stopper while providing vacuum sealing with the opening of the vacuum chamber, .

The vaporizer according to an embodiment of the present invention may provide a structure that can be implemented as a single component that integrates a vacuum pumping line, a venting line, and a sterilant injection line . The vaporizer A carburetor body tube, a heating part arranged to surround the evaporation body tube, and a main pipe inserted into the carburetor body tube. The main pipe can operate as a venting line and a vacuum pumping line. The space between the carburetor body tube and the main pipe may act as a sterilant injection line. The carburetor body tube is cylindrical in shape and includes a first connection port connected to a volumetrically variable object storage container disposed in the vacuum chamber and a second connection port connected to the vacuum pump. The space between the carburetor body tube and the main pipe is a double tube structure and may have a conductance sufficiently smaller than the conductance of the main pipe. Even when the main pipe is connected to the vacuum pump, a space between the carburetor body tube and the main pipe can provide a sufficiently low pressure to the volume-varying object accommodating container. On the other hand, when the second connection port is closed through the valve, and the liquid sterilant is injected into the space between the carburetor body tube and the main pipe, the bulky variable object storage container can be filled with the vaporized sterilant .

The space between the carburetor body tube and the main pipe is heated through a heater and the fluid resistance can be increased by using an orifice or a screw thread to secure a residence time of the injected sterilizing agent. The orifice or thread may spray the sterilizing agent at a relatively high flow rate so that the vaporized sterilizing agent can be delivered with a higher probability to the bulky material receiving container.

The vaporizer according to an embodiment of the present invention has a tube structure connected between the volume changeable object storage container and the vacuum pump to ensure conductance for sufficient fluid flow and to provide a quick response to the volume changeable object storage container Vacuum formation can be provided. The dual tube structure allows the two functions to be performed at the same time using a double tube structure without using separate tubes for vacuum formation and sterilant injection. It is also possible to carry out sterilant injection as well as venting through the double tube after completion of the process. The injected sterilizing agent can be supplied toward the inner wall of the vaporizer body tube heated to a high temperature and can be effectively heated. The sterilizing agent can be heated secondarily through the narrow double tube space proceeding to the region having a relatively low pressure at the top. A vortex is formed in the area blocked by the orifice or the thread to reflect the sterilizing agent to induce sufficient heating.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in different forms. Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the concept of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

Like reference numerals refer to like elements throughout the specification. Accordingly, although the same reference numerals or similar reference numerals are not mentioned or described in the drawings, they may be described with reference to other drawings. Further, even if the reference numerals are not shown, they can be described with reference to other drawings.

1 is a conceptual diagram illustrating a sterilization and vaporization apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a sterilizing apparatus 100 according to an embodiment of the present invention includes a sterilizing apparatus 100, which is enclosed to be held in a vacuum state for containing an object to be processed therein, is evacuated to a vacuum, A bulky object storage container 10; A vacuum chamber 120 for accommodating the bulky variable object storage container 10; A vaporizer (130) for injecting sterilizing agent or outside air into the bulky object storage container and exhausting the bulky object storage container in a vacuum state; And a vacuum pump (140) for exhausting the bulky object to be processed container using a piping of the vaporizer or directly exhausting the vacuum chamber.

The vaporizer 130 includes a cylindrical vaporizer body tube (not shown) including a first connection port 131a connected to the object to be treated container 10 and a second connection port 131b connected to the vacuum pump 140 131); A heating unit 134 disposed to surround the carburetor body tube 131; A main pipe 132 inserted into the carburetor body tube 131; A conductance adjuster 133 disposed between the carburetor body tube 131 and the main pipe 132; And a sterilant supply pipe 137 connected to the lower side of the carburetor body tube 131. The liquid sterilant supplied through the sterilant supply pipe 137 is connected to the carburetor body tube 131 and the main pipe 132, And moves along the conductance adjusting part 133 to be discharged to the upper inside of the carburetor body tube 131. The material receiving container is a volume variable accommodating container and disposed in the vacuum chamber 120 And can have a variable volume due to the pressure difference.

According to a modified embodiment of the present invention, the material receiving container may be a vacuum chamber whose volume is not variable.

The vacuum chamber 120 may include a door and a chamber body, and the door may be a cap of the vacuum chamber 120. The door may be coupled to the vacuum chamber 120 by a rotating means such as a hinge. The vacuum chamber 120 may have a rectangular parallelepiped shape and may be formed of a metal material to provide a uniform volume.

The vacuum chamber 120 may be connected to the vacuum pump 140 through the exhaust pipe and the first valve 161. The vacuum pump 140 may evacuate the vacuum chamber 120 in a vacuum state. The vacuum chamber 120 can provide an environment in which the volume of the bulky material storage container 10 can be varied.

The bulky material to be treated container 10 may be a nylon (NY) and / or polyethylene (PE) material having sufficient flexibility and may be in the form of an envelope sealed in a film form. The volumetrically variable object storage container 10 may include a vacuum packaging bag and the sterilization block 12 disposed at one end of the vacuum packaging bag. The sterilizing agent injection block may provide a vacuum evacuation passage and a sterilizing agent injection passage. The sterilizer injection block 12 may perform vacuum evacuation and sterilant injection through the sterilizing agent injection path mediator.

 The other end of the bulky material to be treated container 10 is initially opened and the other end of the bulky material to be treated container 10 is opened after the object to be processed (for example, a medical instrument) And may include a thermocompression bonding band sealed in the same manner as press bonding. The bulky material storage container 10 may include a sterilizing agent injection block 12 for evacuating in vacuum and injecting sterilizing agent from the outside. The vacuum packaging bag may be made of polyethylene. The vacuum-packed envelope may include a lower film and an upper film that provide an internal space by edge thermocompression.

The vaporizer 130 may vaporize the sterilizing agent and inject it into the bulky material storage container 10 to provide a vacuum exhaust passage and an external air injection passage. When the sterilizing agent is hydrogen peroxide, the vaporizer 130 heats and vaporizes the sterilizing agent at a temperature of 50 to 110 degrees Celsius, and then the vaporized sterilizing agent is injected into the bulking material storage container 10 have. The sterilizing vaporizer 130 may be disposed outside the vacuum chamber 120. The carburetor 130 includes a carburetor body tube 131; A heating unit 134; A main pipe 132; A conductance adjuster 133; And a sterilizing agent supply pipe 137. The carburetor 130 may have a coaxial double tube structure including a carburetor body tube 131 and a main pipe 132.

The carburetor body tube 131 may be composed of one pipe or a plurality of pipes connected to each other in a continuous manner. The carburetor body tube may be cylindrical. When the carburetor body tube 131 is composed of a plurality of pipes, the main pipe 132 disposed in the evaporator body tube 131 can be replaced with another. When the impurities contained in the sterilizing agent are deposited on the outer surface of the main pipe 132, the conductance may be changed to prevent stable supply of the sterilizing agent. In order to remove the impurities, the main pipe 132 may be replaced or cleaned.

The heating section 134 can heat the vaporizer body tube 131 through a heating means such as a hot wire. Accordingly, the vaporizer body tube 131 can vaporize the liquid sterilizing agent. The control unit 135 can sense the temperature of the carburetor body tube 131 through the temperature sensor 136 mounted on the outer circumferential surface of the carburetor body tube and control the heating unit 134 to maintain the set temperature .

The conductance adjuster 133 may be disposed between the main pipe 132 and the carburetor body tube 131. The conductance adjuster 1330 may provide a conductance sufficiently smaller than the conductance defined by the inner diameter of the main pipe 132. This allows the main pipe 132 to function as a vacuum pumping line and a venting line The conductance adjuster 133 may provide a sufficient residence time and vaporize the liquid sterilant by using a low conductance due to the spiral fluid passage. And may be a thread formed on the outer circumferential surface of the main pipe 132. The thread may provide a path of movement of the sterilizing agent longer than the linear distance of the main pipe 132. The space between the main pipe 132 and the carburetor body tube 131 The pitch of the threads may be between 0.5 mm and 1.5 mm in order to remove the air or sterilizing agent in the threads and to provide a sterilizing agent injection path. Since the increase in the conductance increases the conductance, the sterilant supply pipe may be subjected to a vacuum forming process because the increase of the conductance increases the conductance, .

Sterilizing agent supply pipe 137 may be connected to the lower side of the carburetor body tube 131. The sterilant supply pipe 137 may have a certain distance from the second connection port 131b. The lower surface of the main pipe 132 may be sealed and coupled to the lower surface of the carburetor body tube. Accordingly, the liquid sterilant introduced into the sterilant supply pipe is temporarily stored and can be prevented from flowing out through the lower surface of the main pipe 132.

The sterilizer supply unit 32 may supply the liquid sterilant to the sterilizing agent supply pipe 137 through the fifth valve 165 or the sixth valve 166. [ The sterilizer feeder 32 may provide the sterilizing agent in pulsed form or continuously through the sterilizing agent feed pipe 137 in the space between the vaporizer body tube and the main tube.

The number of the sterilizer supply portions 32 may be plural, and accordingly, the number of the sterilant supply pipes 137 may be plural. The sterilant supply pipe 137 may be disposed symmetrically with respect to the vaporizer body tube.

The second connection port 131b of the carburetor body tube 131 may be connected to the vacuum pump 140 through the second valve 162. In addition, the vacuum chamber 120 may be connected to the vacuum pump through a separate first valve 161. A third valve may be disposed at the front end of the vacuum pump, and a fourth valve may be disposed at the front end of the filter. The first valve, the second valve, the third valve, and the fourth valve may be connected to the first node.

The method of operating the sterilizer according to an embodiment of the present invention includes the steps of: exhausting the vacuum chamber 120 and the bulk changeable object storage container 10 using the vacuum pump 140; The first valve 161 disposed at the exhaust end of the vacuum chamber 140 and the second valve 162 connected to the second connection port 131b of the carburetor body tube 131 are closed to connect the vacuum chamber 120 ) And the bulky object to be processed (10) in a vacuum state; And supplying sterilant to the volatile object storage container 10 by supplying the liquid sterilant through the sterilant supply pipe 137 and vaporizing the liquid sterilant.

The first valve, the second valve, the third valve, and the fourth may be connected to each other at the first node N1 in order to exhaust the vacuum chamber and the bulky material storage container using the vacuum pump. The first valve 161 is opened, the second valve 162 is opened, and the third valve 163 disposed at the front end of the vacuum pump may be opened. On the other hand, the fourth valve 164 disposed at the front end of the filter can be closed. The main pipe 131 provides sufficient conductance so that the vacuum chamber 120 and the bulky material storage container 10 can be pumped to almost the same low pressure.

Then, the first to third valves 161, 162 and 163 may be closed. Accordingly, the vacuum chamber 120 and the bulky material storage container 10 can be maintained at a low pressure.

The sterilizing agent supply unit 32 injects the sterilizing agent through the sterilizing agent supply line 137 to supply the sterilizing agent to the bulky substance storage container 10, Can be vaporized. The sterilizing agent may be supplied through the first connection port 131a of the vaporizer body tube 131 to the bulky material storage container through diffusion. Accordingly, the bulky object to be treated accommodating container expands due to the pressure difference, and sterilizes the object to be treated contained therein.

Subsequently, the second valve 162 and the third valve 163 are opened, and the sterilizing agent in the bulk changeable object storage container 10 can be discharged to the outside through the vacuum pump 140. Accordingly, the bulky object to be treated container can be contracted by reducing the pressure difference.

Then, the second valve 162 and the third valve 163 may be closed.

Then, the first valve 161, the second valve 162 and the fourth valve 164 are opened to filter out the external air so that the vacuum chamber 120 and the volatile And may be provided in the treated water storage container 120.

2A is a conceptual diagram for explaining the connection relation and the conductance of the sterilizing apparatus of FIG.

2B is a graph showing a change in conductance according to the pressure of FIG. 2A.

3 is a graph showing a time-dependent pressure of the sterilizing device of FIG. 2 according to the pitch (0.5 mm) of the threads as the conductance adjuster 133 of the vaporizer.

4 is a graph showing the time-dependent pressure of the sterilizing device of FIG. 2 according to the pitch (0.8 mm) of threads as the conductance adjuster 133 of the vaporizer.

Referring to FIGS. 2A and 2B, the vacuum chamber 120 and the vacuum pump 140 are connected to each other through a first node N1. The connection pipe between the first node N1 and the vacuum pump 140 has a first conduction tube C1. A second node (N2) is disposed between the first node (N1) and the bulky object storage container (10). The connection pipe between the first node N1 and the vacuum chamber 120 has a second conductance C2. The connection pipe between the first node and the second node has a third conductance (C3). The connecting pipe or needle between the second node N2 and the bulky material storage container 10 has a fourth conductance C4. The second node N2 may be located in the main pipe 132 of the vaporizer. The fourth conductance C4 may depend on the diameter of the needle connecting the vaporizer and the bulky material storage container. The fluid passage between the second node N2 and the sterilizing agent supply pipe 137 has a fifth conductance C5. The volume of the vaporizer may be a volume secured by the conductance adjuster 133.

Referring to FIG. 2B, the conductance may depend on the pressure. In the viscous flow region above one torr, the conductance is linearly proportional to the pressure and the conductance in a molecular flow region below 0.1 torr can be constant.

The first, second, and third conductances C1, C2, and C3 may have similar values. The first, second, and third conductances C1, C2, and C3 may be at least ten times larger than the fourth conductance C4 and the fifth conductance C5. Further, the fourth conductance may be 10 times or more larger than the fifth conductance. Also, the fifth conductance may be smaller than the pumping speed of the vacuum pump.

Referring to FIG. 3, in the case of the pitch (0.5 mm) of the thread, which is the conductance adjuster 133 of the vaporizer, the pressure of the vaporizer slowly decreases with time. The pressure of the vaporizer is the pressure at the sterilizing agent supply line connected to the conductance control. When the target pressure of the vaporizer is 1 Torr, it takes about 210 seconds. On the other hand, when the target pressure of the vacuum chamber and the volumetrically variable object storage container is 1 Torr, it takes about 70 seconds.

Referring to FIG. 4, in the case of the pitch (0.8 mm) of the thread, which is the conductance adjuster of the vaporizer, the pressure of the vaporizer gradually decreases with time. When the target pressure of the vaporizer is 1 Torr, it takes about 80 seconds. On the other hand, when the target pressure of the vacuum chamber and the volumetrically variable object storage container is 1 Torr, it takes about 70 seconds. When the pitch of the thread is 0.8 mm, the main pipe of the vaporizer evacuates the volumetrically processed waste container in vacuum for about 70 seconds, and when the sterilizing agent is supplied, the sterilizing agent is vaporized and is injected into the volume changeable object storage container Function can be smoothly performed. Thus, the pitch of the threads may be adjusted to adjust the fifth conductance C5 of the carburetor, and the fifth conductance C5 of the carburetor may be set to be 10 or less than the fourth conductance by the needle. In addition, the fourth conductance of the needle may be set to be 10 times or more smaller than the third conductance due to the main pipe of the vaporizer. Accordingly, the main pipe of the vaporizer can operate as a vacuum pumping line. The screw of the vaporizer can be evacuated to a pressure of 1 Torr or less within a predetermined time (about 100 seconds) while providing a residence time sufficient to vaporize.

5 is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.

5, the sterilization apparatus 200 includes a sterilization inlet block (not shown) for containing an object to be processed (not shown) therein and sealed to be kept in a vacuum state, (10) having a volume changeable object to be processed (12); A vacuum chamber 120 having a door and accommodating the bulky material storage container 10; A vaporizer (230) for injecting sterilizing agent or outside air into the bulky material storage container (10) and exhausting the bulky material storage container (10) in a vacuum state; And a vacuum pump 140 for discharging the bulk material to be treated container 10 or the vacuum chamber 120. The sterilizer injection block (12) provides a sealed space in combination with the bulky material storage container (10). The object to be treated may be a medical device. The sterilizer injection block 12 has a fixed shape and can constitute a part of the bulky material storage container 10. The bulky material to be treated container 10 may be disposed under a vacuum environment to provide a volume that varies depending on a pressure difference even when the bulky material receiving container is in a vacuum state. The object to be processed can be stored in the inside of the bulky material storage container 10 placed in a vacuum environment and can be sterilized.

The sterilization apparatus 200 according to the present embodiment differs in the position of the sterilization apparatus and the sterilant supply unit of FIG. The sterilizer supply portion 32a is disposed in the bulky material storage container 10. Accordingly, the auxiliary needle 292 is required to receive the sterilizing agent from the sterilizing agent supply portion 32a. The sterilizer supply portion 32a may be disposable.

The vaporizer 230 includes a first connection port 231a connected to the volume variable object storage container 10 disposed in the vacuum chamber 120 and a second connection port 231b connected to the vacuum pump 140, A cylindrical carburetor body tube 231 including a cylindrical body 231; A heating unit 134 arranged to surround the evaporation body tube 231; A main pipe 232 inserted into the carburetor body tube 231; A conductance adjuster 233 disposed between the carburetor body tube 231 and the main pipe 232; And a sterilant supply pipe (237) connected to the lower side of the carburetor body tube. The liquid sterilant supplied through the sterilant supply pipe 237 evaporates between the carburetor body tube 231 and the main pipe 232 and moves along the conductance adjuster 233, And is discharged to the inner upper portion of the discharge port 231.

The carburetor body tube 231 includes a lower carburetor body tube 50 and an upper carburetor body tube 40 that is continuously connected to the lower carburetor body tube 50. The lower vaporizer body tube 50 includes a first through hole 51 having a first inner diameter and a second through hole 51 having a second connection port 231b at one end, And a second through-hole 52 having a second inner diameter larger than the first inner diameter, and includes a depressed portion 53 recessed in the inner lateral direction at the other end.

One end of the upper carburetor body tube 40 is inserted into the depression 53 of the lower carburetor body tube 50 and the other end of the upper carburetor body tube 40 is provided with a first connection port 231a And the upper carburetor body tube 40 has the second inner diameter.

The heating unit 134 is disposed to surround the upper carburetor body tube 40. The sterilant supply line 237 is connected to the lower portion of the second through hole 52.

The main pipe 232 includes a lower main pipe 232a inserted into the first through hole 51; A main pipe fastening portion 232b in the form of a washer which is continuously connected to the lower main pipe 232a and engages with a connection portion between the first through hole 51 and the second through hole 52; And an upper main pipe 232c continuously connected to the main pipe latching portion 232b.

A conductor-shaped conductance adjuster 233 is formed on the outer surface of the upper main pipe. The gap between the upper main pipe 232c and the upper carburetor body tube 40 may be narrower than 0.1 mm. Accordingly, the fluid can mainly flow through the thread-shaped conductance adjuster. The start position of the conductance adjuster 233 may be higher than the sterilant supply pipe. The main pipe latching portion 232b is disposed to extend over the lower surface of the second through hole, so that the liquid sterilant may not escape into the lower portion. The conductance of the conductance adjuster 233 may be sufficiently smaller than the conductance of the main needle.

The first connection port of the upper carburetor body tube 40 may have a smaller diameter than the second inner diameter. Accordingly, the main needle 291 can be inserted into and coupled to the first connection port 231a.

The main needle 291 can be used for injecting a sterilizing agent into the bulky material storage container 10 and for evacuating the bulky material storage container 10. Also, the main needle 291 may be used to exhaust the sterilizing agent provided inside the bulky material storage container 10.

The main needle 291 includes a cylindrical insertion portion 291a inserted into and engaged with the first connection port 291a; A washer-shaped latching portion 291b continuously connected to the insertion portion and coupled to one end of the upper carburetor body tube; A needle support portion 291c continuously connected at the engagement portion; And a needle 291d protruding from the needle support. The diameter and length of the needle can affect the conductance. The diameter of the needle is too small and vacuum evacuation can be difficult. On the other hand, if the diameter of the needle is too large, vacuum leakage may occur after piercing the sterilant injection channel stopper. The inner diameter of the needle may be at least 0.5 mm or more.

The main needle 291 may be disposed between the first connection port 231a and the bulky material storage container 10. [ When the main needle 291 moves so as to contact the vacuum chamber, the main needle 291 is sealed through the vacuum chamber and the O-ring, and the sterilization agent injection path stopper portion of the volumetrically- Lt; / RTI > sterilant may be injected.

The auxiliary needle 292 may be disposed between the sterilizer supply pipe 237 and the bulky material storage container 10. The sterilizing agent delivery pipe 293 may be disposed in the auxiliary needle 292 and the sterilizing agent supply pipe 237. The auxiliary needle 292 is sealed with the vacuum chamber 120, and the sterilizing agent stored by piercing the sterilizing agent storage stopper of the volumetrically processed processing container is extracted.

6 is a conceptual diagram illustrating a sterilization apparatus according to another embodiment of the present invention.

Referring to FIG. 6, the sterilization apparatus 300 includes a sterilization inlet block (not shown) for containing an object to be processed (not shown) therein and sealed to be kept in a vacuum state, (10) having a volume changeable object to be processed (12); A vacuum chamber 120 having a door and accommodating the bulky material storage container 10; A vaporizer (330) for injecting sterilizing agent or outside air into the bulky object storage container (10) and evacuating the bulky object to be treated container (10) in a vacuum state; And a vacuum pump 140 for discharging the bulk material to be treated container 10 or the vacuum chamber 120. The sterilizer injection block (12) provides a sealed space in combination with the bulky material storage container (10). The object to be treated may be a medical device. The sterilizer injection block 12 has a fixed shape and can constitute a part of the bulky material storage container 10. The bulky material to be treated container 10 may be disposed under a vacuum environment to provide a volume that varies depending on a pressure difference even when the bulky material receiving container is in a vacuum state. The object to be processed can be stored in the inside of the bulky material storage container 10 placed in a vacuum environment and can be sterilized.

The vaporizer 330 includes a first connection port 331a connected to the volume variable object storage container 10 disposed in the vacuum chamber 120 and a second connection port 331b connected to the vacuum pump 140. [ Shaped vaporizer body tube (331) including a cylindrical body (331); A heating unit 134 arranged to surround the evaporation body tube 331; A main pipe 332 inserted into the carburetor body tube 331; A conductance adjuster 333 disposed between the carburetor body tube 331 and the main pipe 332; And a sterilant supply pipe (337) connected to the lower side of the carburetor body tube. The liquid sterilant supplied through the sterilant supply pipe 337 evaporates between the carburetor body tube 331 and the main pipe 332 and moves along the conductance adjuster 333, And is discharged to the inside upper portion of the discharge port 331.

The conductance adjuster 333 includes circular washers spaced apart from one another, and the circular washers may include at least one orifice.

A heat insulating member may be inserted between the vaporizer and the main needle. The edge member may provide a temperature differential between the heated vaporizer and the main niches. The material of the heat insulating member may be a plastic series or a ceramic series having a low thermal conductivity.

7 is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.

Referring to FIG. 7, the sterilizing apparatus 100a includes a vacuum chamber 120 for accommodating an object to be processed; A carburetor 130 for injecting sterilizing agent or outside air into the vacuum chamber 120 and evacuating the vacuum chamber 120 in a vacuum state; And a vacuum pump 140 for exhausting the vacuum chamber 120 using a pipe of the carburetor. The object to be treated may be a medical device.

The carburetor 130 includes a cylindrical carburetor body tube 131 including a first connection port 131a connected to the vacuum chamber 120 and a second connection port 131b connected to the vacuum pump 140; A heating unit 134 arranged to surround the evaporation body tube 131; A main pipe 132 inserted into the carburetor body tube 131; A conductance adjuster 133 disposed between the carburetor body tube 131 and the main pipe 132; And a sterilant supply pipe 137 connected to the lower side of the carburetor body tube. The liquid sterilant supplied through the sterilant supply pipe 137 evaporates between the carburetor body tube 131 and the main pipe 132 and moves along the conductance regulator 133, (131). The piping of the vaporizer may be a main pipe 132.

8A is a conceptual diagram illustrating a sterilizing apparatus according to another embodiment of the present invention.

FIG. 8B is a perspective view for explaining the volume changeable object storage container of FIG. 8A. FIG.

FIG. 8C is a cross-sectional view illustrating the sterilization agent injection block of the bulky material storage container of FIG. 8B. FIG.

8A to 8C, the sterilization apparatus 600 includes a sterilization apparatus 600, which is enclosed in the interior of the sterilization apparatus 600 so that it can be held in a vacuum state, is evacuated in vacuum, and sterilized A bulk changeable object storage container (10) having an injection block (12); A vacuum chamber 120 having a door 124 and accommodating the bulky material storage container 10; A vaporizer (330) for injecting sterilizing agent or outside air into the bulky object storage container (10) and evacuating the bulky object to be treated container (10) in a vacuum state; And a vacuum pump 140 for exhausting the bulky material storage container 10 or directly exhausting the vacuum chamber 120 using a pipe of the vaporizer. The sterilizer injection block 12 is combined with the bulky material storage container 10 to provide a sealed space. The object to be treated may be a medical device. The sterilizer injection block 12 has a fixed shape and can constitute a part of the bulky material storage container 10. The bulky object to be treated container 10 may be disposed under a vacuum environment to provide a variable volume due to a pressure difference even when the bulky object to be treated container 10 is in a vacuum state. The object to be processed can be stored in the inside of the bulky material storage container 10 placed in a vacuum environment and can be sterilized.

The vaporizer 130 may vaporize the sterilizing agent, inject it into the bulky material storage container 10, and provide a vacuum pumping passage and an outside air injection passage. When the sterilizing agent is hydrogen peroxide, the vaporizer 130 heats and vaporizes the sterilizing agent at a temperature of 50 to 110 degrees Celsius, and then the vaporized sterilizing agent is injected into the bulking material storage container 10 have. The vaporizer 130 may be disposed outside the vacuum chamber 120.

The carburetor 130 includes a carburetor body tube 131; A heating unit 134; A main pipe 132; A conductance adjuster 133; And a sterilizing agent supply pipe 137. The carburetor 130 may have a coaxial double tube structure including a carburetor body tube 131 and a main pipe 132. The piping of the vaporizer may be a main pipe 132.

The bulky object to be treated container 10 includes a sterilizing agent injection block 12 which is sealed to be able to hold the object to be processed therein and can be maintained in a vacuum state and is evacuated to a vacuum and receives sterilizing agent from the outside do. The bulky material storage container 10 may include a vacuum packaging bag 14 and the sterilization block 12 disposed at one end of the vacuum packaging bag 14.

The sterilization block 12 includes an upper strip 622a and a lower strip 622b, both ends of which are bent to contact each other and the central portions of which extend side by side; A partition wall (623) disposed between the upper strip and the lower strip; A sterilant injection passage (625) formed through the upper strip and open at the side; A sterilizing agent injection path stopper 625a of elastic material disposed on the upper strip to block the sterilizing agent injection path; And an alignment strip (621) extending side by side along the sides of the upper strip and the lower strip to seal the sides of the upper strip and the lower strip. The upper surface of the upper strip and the lower surface of the lower strip may be thermally pressed at one end of the vacuum pouch. The sterilizing agent 628 is stored in the sterilizing agent storage 624, 626.

The sterilizing agent injection path 625 may be supported by a half-cut cylindrical guide portion 625b. In addition, the lower strip 622b may include a main needle alignment portion 625c at a center position of the sterilizing agent injection path 625.

The sterilizer injection block 12 includes a sterilizing agent storage portion 624 and 626 that are disposed apart from the sterilizing agent injection path 625 and accommodate and seal the sterilizing agent; And sterilizing agent storage stoppers 624a and 626a of elastic material disposed on the upper strip and blocking the sterilant storage compartments 624 and 626. [ The sterilizing agent storage stoppers 624a and 626a may be films or plates of an elastic material such as silicone rubber.

The main needle 291 includes a hole at the side of its end and can provide a fluid passage efficiently. The auxiliary needle 292 can penetrate the sterilizing agent storage stoppers 624a and 626a to extract the sterilizing agent.

Separating the sterilizing agent space is aimed at twice the sterilizing agent injection in the sterilization process, which can be performed twice to increase the sterilizing reliability. A constant amount of sterilant can be independently controlled for each injection.

The main needle 291 includes an auxiliary sealing means 187 and the auxiliary sealing means 187 is capable of sealing in contact with the lower portion of the lower surface 125 of the vacuum chamber about the main needle opening 182b have. The sealing means 188 disposed on the lower surface 125 of the vacuum chamber may be in close contact with the sterilizing agent injection block 12 to provide sealing. The sealing means 188 may be an O-ring. The heating block 185 may press the sterilization block 12 to heat it. Or a bar code or a QR code printed on the sterilizing agent injection block 12 may be attached to the sterilization agent supply container 10. [ Information on the amount of the sterilant injected using the code tape 229, the kind of the packaging container, the date of manufacture, and the like can be transmitted to the sterilizer to perform a reliable sterilization process. The code reader 184 can extract the information of the code tape 229 through the opening formed in the lower surface of the vacuum chamber. The plasma processing section 143 is disposed in the exhaust line and decomposes the sterilizing agent by using plasma. The disintegrated sterilant may be evacuated to the outside through a vacuum pump.

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, It will be understood. It is therefore to be understood that the above-described embodiments are illustrative and non-restrictive in every respect.

130: vaporizer
131: carburetor body tube
132: main pipe
133: Conductance adjuster
137: Sterilization agent supply pipe

Claims (16)

A cylinder-shaped vaporizer body tube including a first connection port connected to the object to be processed container and a second connection port connected to the vacuum pump;
A heating unit arranged to surround the carburetor body tube;
A main pipe inserted into the carburetor body tube;
A conductance adjuster disposed between the carburetor body tube and the main pipe; And
And a sterilizing agent supply pipe connected to the lower side of the carburetor body tube,
Wherein the sterilizing agent supplied through the sterilizing agent supply pipe evaporates between the carburetor body tube and the main pipe and moves along the conductance adjusting part to be discharged to the upper inside of the carburetor body tube. The method according to claim 1,
Wherein the to-be-processed object storage container is a volumetrically variable object storage container disposed in the vacuum chamber. The method according to claim 1,
Wherein the conductance adjuster is a screw thread formed on an outer circumferential surface of the main pipe,
Wherein the pitch of the threads is 0.5 mm to 1.5 mm. The method of claim 3,
Wherein the thread is disposed at a position higher than a connection site of the sterilizing agent supply pipe. The method according to claim 1,
Wherein the conductance adjusting portion includes circular washers spaced apart from each other,
Characterized in that the circular washers comprise at least one orifice. 3. The method of claim 2,
Further comprising: a main needle disposed between the first connection port and the bulk changeable object storage container,
Wherein the main needle is sealed with the vacuum chamber, and the sterilization agent is injected into the sterilization agent injection path stopper of the bulk changeable object storage container. The method according to claim 6,
An auxiliary needle disposed between the sterilizing agent supply pipe and the bulky material storage container; And
Further comprising an auxiliary needle and a sterilizing agent delivery pipe disposed in the sterilizing agent supply pipe,
Wherein the auxiliary needle is sealed with the vacuum chamber, and the sterilizing agent stored by piercing the sterilizing agent storage stopper of the volume changeable object storage container is extracted. The method according to claim 1,
The carburetor body tube comprises:
A first through hole having a first inner diameter and a second through hole continuously communicating with the first through hole and having a second inner diameter larger than the first inner diameter and a second through hole having a second inner diameter larger than the first inner diameter, A lower carburetor body tube including a depression recessed in an inner lateral direction; And
An upper carburetor body tube having one end inserted into the depression of the lower carburetor body tube and the other end having a first connection port and having the second inner diameter,
The heating unit is disposed to surround the upper carburetor body tube,
Wherein the sterilizing agent supply pipe is connected to a lower portion of the second through hole. 9. The method of claim 8,
The main pipe comprises:
A lower main pipe inserted into the first through hole;
A main pipe fastening portion continuously connected to the lower main pipe and having a washer shape coupled to a connection portion between the first through hole and the second through hole; And
And an upper main pipe continuously connected to the main pipe latching portion,
Wherein a conductor-shaped conductance adjuster is formed on an outer surface of the upper main pipe. 10. The method of claim 9,
The first connection port of the upper carburetor body tube has a diameter smaller than the second inner diameter,
The main needle includes:
A cylindrical insertion portion inserted into and engaged with the first connection port;
A washer-shaped latching portion continuously connected to the insertion portion and coupled to one end of the upper carburetor body tube;
A needle support portion continuously connected at the engagement portion; And
And a needle protruding from the needle support portion. The method according to claim 1,
Wherein the object-containing container is a vacuum chamber. A volume-variable-object-containing container which is sealed to be held in a vacuum state and which is evacuated to a vacuum and to which a sterilizing agent is injected from the outside;
A vacuum chamber for containing the bulky variable object storage container;
A vaporizer for injecting a sterilizing agent or outside air into the bulky object storage container and evacuating the bulky object storage container in a vacuum state; And
And a vacuum pump for exhausting the bulky object to be treated container using a piping of the vaporizer or directly exhausting the vacuum chamber,
The vaporizer comprises:
A cylindrical carburetor body tube;
A heating unit arranged to surround the carburetor body tube;
A main pipe inserted into the carburetor body tube;
A conductance adjuster disposed between the carburetor body tube and the main pipe; And
And a sterilizing agent supply pipe connected to the lower side of the carburetor body tube,
Wherein the sterilizing agent supplied through the sterilizing agent supply pipe evaporates between the carburetor body tube and the main pipe and moves along the conductance adjusting part to be discharged to the upper inside of the carburetor body tube. 13. The method of claim 12,
Characterized in that the bulky material storage container comprises a sterilizing agent injection block for providing a sterilizing agent injection path. delete A vacuum chamber for containing an object to be processed therein;
A vaporizer for selectively injecting sterilizing agent or outside air into the vacuum chamber and evacuating the vacuum chamber in a vacuum state; And
And a vacuum pump for exhausting the vacuum chamber using a pipe of the carburetor,
The vaporizer comprises:
A cylindrical carburetor body tube;
A heating unit arranged to surround the carburetor body tube;
A main pipe inserted into the carburetor body tube;
A conductance adjuster disposed between the carburetor body tube and the main pipe; And
And a sterilizing agent supply pipe connected to the lower side of the carburetor body tube,
Wherein the sterilizing agent supplied through the sterilizing agent supply pipe evaporates between the carburetor body tube and the main pipe and moves along the conductance adjusting part to be discharged to the upper inside of the carburetor body tube. delete

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