KR20150054377A - Structure for improving contact efficiency of vapor sterilization chamber - Google Patents

Abstract

The present invention relates to a chamber structure capable of increasing the contact efficiency of a steam decontamination chamber. More specifically, the chamber structure can ensures the contact between an apparatus and a mobile decontamination medium by forcing a fluid flow when the decontamination chamber conducts an operation to decontaminate the apparatus contaminated with toxic substances and reaction agents by using liquid or gas decontamination agents. According to the present invention, the chamber structure includes: the closed chamber having an opening unit; and a container which is arranged in the chamber and is used to store the decontamination target apparatus.

Description

TECHNICAL FIELD [0001] The present invention relates to a chamber structure for improving contact efficiency of a steam decontamination chamber,

The present invention relates to a chamber structure for improving contact efficiency of a steam decontamination chamber, and more particularly, to a chamber structure for enhancing the contact efficiency of a steam decontamination chamber. More particularly, when decontamination of agitated and toxic material contaminated equipment is performed in a decontamination chamber using a liquid or gas- And more particularly, to a chamber structure for improving the contact efficiency of a steam degumming chamber for enhancing the detoxification efficiency by improving the contact between the equipment and the fluidity decontamination medium by generating a forced flow.

In general, the ability to decontaminate chemical or biological agents or contaminated equipment with liquids or gases is strongly related to the time of contact between the detergent and the contaminated surface or the method of efficient contact.

In particular, the decontamination of contaminated small equipment in the chamber depends on the detoxification performance of the detoxifying agent itself, but also on the efficiency of the detoxifying agent and contamination equipment inside the detoxifying chamber.

However, when the contact efficiency between the liquid or gaseous detoxification material and the admittance target equipment is not good in the admiral chamber, the toxic material residue on the surface of the contamination equipment is high and the handling is restricted.

That is, in the method of removing the contaminated toxic contaminants on the surface of the equipment, the method of removing pollutants by putting the contaminated equipment into the chamber and sealing it, and then contacting the liquid detergent in the closed space with the equipment, Performance, and temperature / humidity. Also, it is strongly influenced by the contact efficiency between the chamber equipment and the detergent in addition to the detoxification environment. Therefore, equipment for improving the contact efficiency per hour of the detergent and the contamination equipment in the detoxification chamber is required.

DISCLOSURE OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for removing toxic substances, To thereby improve the contact efficiency between the equipment and the fluidity decontamination medium, thereby improving the detoxifying efficiency. The present invention also provides a chamber structure for improving the contact efficiency of the steam decontamination chamber.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, a chamber structure for improving contact efficiency of a steam decontamination chamber includes a chamber having a closed structure with an opening and closing part, And a control unit.

The container may be centrally disposed within the chamber and may be rotatable about a rotational axis disposed at the center.

In addition, a receiving member is fixed within the container to accommodate the admittance target equipment, and the receiving member is formed on at least one coaxial along the longitudinal direction of the container.

Further, each of the receiving members is composed of a plurality of fan-shaped rotating blades that rotate around the rotating shaft.

The upper surface of each of the plurality of rotary blades is formed so as to be located on the same plane, and a portion where the downstream side portion according to the rotational direction of each of the rotary blades is spaced apart from the adjacent current side portion by a predetermined distance is formed And when the rotary vane is rotated, the detoxifying fluid is guided to move upward from the lower side of the chamber through the gap.

In addition, the container is formed in a cylinder shape, and a sidewall of the container is formed in a net structure so that fluid can freely move between the inside of the container and the outside of the container.

Further, the side wall of the container is provided with a guide protruding along the longitudinal direction and curved along the rotational direction of the container, thereby guiding the fluid around the container to the side wall of the container.

Further, the guide piece is curved in the counterflow direction of the peripheral fluid flow, and the support plate is formed along the longitudinal direction on the side wall of the container around the guide piece where the fluid flows over the guide piece, To pass through.

In addition, a plasma generating device may be installed during the flow of the gas flowing into the chamber to generate a plasma and generate an active gas.

In addition, a plasma generator may be installed in the chamber to generate plasma and generate an active gas.

In addition, a pressure control device is provided to control the pressure of the deoxidation chamber.

Further, the container is formed so as to be detachable or mountable inside the chamber.

Further, the present invention is characterized in that an air fan is installed inside the chamber to promote the flow of the detoxifying fluid.

As described above, according to the chamber structure for improving the contact efficiency of the steam decontamination chamber according to the present invention, it is possible to remove the contaminants which have adhered to the equipment surface or the lower surface portion from the porous surface in the decontamination process The efficiency can be improved.

1 is a perspective view illustrating a chamber structure for improving contact efficiency of the steam decontamination chamber according to the first embodiment of the present invention.
FIG. 2 is a perspective view illustrating a state in which a container applied to a chamber structure for improving contact efficiency of the steam decontamination chamber according to the first embodiment of the present invention is rotated.
3 is a perspective view illustrating a chamber structure for improving contact efficiency of the steam decontamination chamber according to the second embodiment of the present invention.
4 is a perspective view illustrating a receiving member having a rotary vane applied to a chamber structure for improving contact efficiency of a steam degumming chamber according to a second embodiment of the present invention.
5 illustrates a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the third embodiment of the present invention.
6 illustrates a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the fourth embodiment of the present invention.
FIG. 7 illustrates a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the fifth embodiment of the present invention.
FIG. 8 illustrates a plasma generator applied to a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the first to fifth embodiments of the present invention.

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

FIG. 1 is a perspective view illustrating a chamber structure for improving contact efficiency of the steam decontamination chamber according to the first embodiment of the present invention. FIG. 2 is a perspective view of a chamber for improving contact efficiency of the steam decontamination chamber according to the first embodiment of the present invention. Fig. 4 is a perspective view showing a state in which a container applied to the structure is rotated.

As shown in FIGS. 1 and 2, the opening and closing part 110 has a structure in which the chamber 100 seals the inside of the chamber 100, and the container 200 inside the chamber maintains the adoxified environment in a closed state, So that it can have a design structure that can independently induce the movement for improving the contact between the detoxifying object that can be accommodated in the container 200 and the detoxifying agent in the flow process.

In addition, the container 200 may be connected to the chamber 100 so as to be rotatable about a center axis of the chamber 100. The container 200 may have a cylindrical shape or a polygonal shape. As the container 200 rotates about a rotation axis (not shown) disposed at the center, the fluidity of the fluidity decontamination medium in the chamber 100 increases, and as the fluidity increases, the contact performance between the decontamination medium and the detoxified object increases, It is possible to increase the efficiency of the admiral.

Accordingly, a cylindrical or polygonal cylindrical inner container 200 capable of being loaded with a detoxifying object and capable of being rotated can be installed in the closed decontamination chamber 100 blocked with the outside air, and the contamination equipment is introduced through the inner container opening / closing part 210 , Rotating the inner chamber 100 in the fluid material creates rapid movement of the container and equipment and improves the contact between the equipment and the fluid.

In addition, an air fan (not shown) having a blowing function may be installed in the chamber 100 to facilitate the flow of the detoxifying fluid in the chamber 100. In addition, a pressure control device (not shown) may be provided to control the pressure inside the chamber 100. That is, if the pressure of the chamber 100 is raised to atmospheric pressure or higher and the pressure of the chamber 100 is lowered to atmospheric pressure or less to increase the removal efficiency of the chamber 100, the removal efficiency of the toxic reagent is increased .

FIG. 3 is a perspective view illustrating a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the second embodiment of the present invention. FIG. 4 is a perspective view of a chamber for improving the contact efficiency of the steam decontamination chamber according to the second embodiment of the present invention. Fig. 3 is a perspective view showing a receiving member having a rotary vane applied to the structure; Fig.

As shown in FIG. 3, at least one receiving member 220 is provided on the coaxial axis along the longitudinal direction of the container 200 so that a small admittance object can be stacked in multiple layers. That is, as compared with the conventional container structure in which the object to be detoxified must be accumulated irregularly from the container bottom to the upper portion in the absence of the housing member 220 as in the prior art, It is possible not only to prevent the object from being damaged, but also to secure a space in which the admiral medium can be easily moved between the admiralty objects. At this time, a door for inserting or removing an admittance object can be installed on the side surface of the inner container, and the admittance object can be separately inserted and removed at the upper and lower portions of the accommodating member.

4, a plurality of rotation blades 231 downward at a plurality of points along the circumferential direction about the central axis of the housing member 230 are formed, and as the container 200 rotates, The flow of the deoxidized steam can be induced from the lower side of the steam generator 100 to the upper side. That is, the downstream side portions along the rotational direction of each of the rotary vanes 231 are curved to the lower side of the adjacent current side portions and are formed so as to partially overlap each other. The position of the rotary vane 231 may be formed linearly in the direction of the central axis from the outer circumferential end of the receiving member 230 or a plurality of small vanes may be formed on the receiving member 220 in the circumferential and radial directions.

5 illustrates a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the third embodiment of the present invention.

As shown in FIG. 5, the wall surface structure of the cylindrical container 200 can be formed in a mesh structure or a porous structure. The container wall of the net structure allows the admittance medium to freely pass through the inside of the container 200 to allow the unreacted deodorizing steam outside the container 200 to flow easily into the container 200 in which the admittance object P is loaded Facilitates the flow of the detoxifying medium so that the adventitious reactants in the container 200 can easily be diluted throughout the chamber 100. Accordingly, when the contamination equipment is received in the receiving member of the container 200 and the wall structure of the container 200 is used as the mesh structure 202 for allowing the fluid to pass through the wall of the container 200, space between the equipment is increased, It is possible to increase the contact between the equipment and the fluid. In addition, when the contaminated equipment (not shown) capable of rotating movement within the chamber 100 in contact with the detergent and the contamination equipment and capable of moving fluid is installed and the container is rotated, the unit time The amount of sugar per contact can be increased.

6 illustrates a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the fourth embodiment of the present invention. The guide piece 240 can be installed on the wall surface of the container 200 to generate air flow from the outside of the container 200 to the inside or from the inside to the outside by rotation of the container 200 as shown in FIG. The guide piece 240 is curved along the rotation direction of the container 200 to guide the fluid around the container 200 to the side wall of the container 200. That is, the fluid flow generated and guided by the rotation of the container 200 may flow in / out from the inside or from the outside to the outside through the wall surface. By changing the shape of the guide pieces 240, Direction can be guided to upper and lower parts.

FIG. 7 illustrates a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the fifth embodiment of the present invention. 7, when the inner container 200 is designed in the form of a polygonal column, a plate-shaped support plate 310 is provided on a part of a wall surface of the container 200, The flow of the fluid or the eddy current can be induced by providing the guide piece 320. That is, the guide piece 320 is curved in the counterflow direction of the peripheral fluid flow, and the container side wall 300 around the guide piece 320, which flows along the guide piece 320, 310 are installed. Therefore, when the container 200 rotates, a vortex is generated in the fluid by the guide piece 320, and the fluid that flows over the guide piece 320 moves along the support plate 310, Some of the fluid collected by the guide piece 320 can flow freely into the container 200 through the net structure 202. [

FIG. 8 illustrates a plasma generator applied to a chamber structure for improving the contact efficiency of the steam decontamination chamber according to the first to fifth embodiments of the present invention. As shown in FIG. 8, the plasma generator 400 may be installed in the middle of the air or the gas flowing into the deoxidation chamber 100, and an active gas such as ozone or active radical generated by plasma generation may be introduced into the chamber 100 And the adventitious contaminated surface can be expected to have additional decontamination efficiency due to the decomposition effect of the active gas. In this case, by installing the plasma generating apparatus as described above inside the deoxidation chamber 100, plasma can be generated at a position closer to the admittance object P, thereby further improving the decontamination efficiency.

According to the chamber structure for improving the contact efficiency of the steam decontamination chamber according to an embodiment of the present invention as described above, the equipment contaminated by the chemical / biological toxic contaminants is introduced into the decontamination chamber, In the case of physical / chemical detoxification, the higher the contact efficiency between the contaminated equipment and the liquid detergent during the detoxification process, the higher the detoxification efficiency. In the case of the detoxification process by the detoxification chamber, it is common to put the detoxification object in the detoxification chamber, to regulate the concentration, temperature and humidity of the detoxification medium, to recover the detoxified substance for a certain period of time, If the efficiency of contact with the admiral's media and the contaminated equipment can be increased in addition to the humidity of the air, it may be possible to expect more improved admiral efficiency.

On the other hand, if the pressure in the detoxification chambers is increased, the solubility or the reaction rate of the contaminants to the detoxification medium may increase depending on the detoxification characteristics, thereby increasing the additional detoxification efficiency.

In addition, in the process of removing the reactant and the unreacted detoxified medium after completion of the decontamination, the vacuum process is performed on the chamber space where the decontaminated equipment remains, thereby increasing the efficiency of removing the reaction and unreacted material from the admittance target equipment.

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, And all changes to the scope that are deemed to be valid.

100: chamber
110:
200: Container
202: Network structure
210: container opening / closing part
220, 230: housing member
231:
232: Pendulum side of rotary wing
233: downstream side of the rotary blade
240: guide
300: side wall of the container
310: Support plate
320: Guide
400: Plasma generator

Claims (13)

A chamber of a closed structure provided with an opening and closing part; And
And a container provided inside the chamber, the container being capable of accommodating the admittance target equipment. The chamber structure for improving the contact efficiency of the steam decontamination chamber. The method according to claim 1,
Wherein the container is centrally located within the chamber and is rotatable about a rotational axis disposed at the center. The chamber structure for improving the contact efficiency of the steam decontamination chamber. 3. The method of claim 2,
Wherein the housing member is fixed so that the admittance target equipment can be accommodated in the container, and at least one or more accommodation members are formed on the coaxial axis along the longitudinal direction of the container. A chamber structure for improvement. The method of claim 3,
Wherein each of the accommodating members comprises a plurality of fan-shaped rotating blades that rotate about the rotation axis, and the chamber structure for improving contact efficiency of the steam decontamination chamber. 5. The method of claim 4,
The upper surfaces of the plurality of rotary vanes are formed so as to be located on the same plane,
A part of which is bent downward to be overlapped with each other to form a gap which is spaced by a predetermined distance from the adjacent current side portion in accordance with the rotation direction of each of the rotary blades, so that when the rotary blades are rotated, Wherein the chamber structure is guided so as to be able to move from the lower side to the upper side of the chamber. The method of claim 3,
Wherein the container is formed in a cylindrical shape and is formed so that the side wall of the container is formed in a net structure so that fluid can freely move between the inside of the container and the outside of the container. The method according to claim 6,
Wherein a guide piece protruding along the longitudinal direction is formed on the side wall of the container and curved along the rotational direction of the container to guide the fluid around the container toward the side wall of the container. Chamber structure. 8. The method of claim 7,
The guide piece is curved in a countercurrent direction of the peripheral fluid flow, and a support plate is formed along the longitudinal direction on the side wall of the container around the guide piece where fluid flows over the guide piece, whereby fluid passes through the support plate Wherein the chamber is provided with a chamber for introducing the vapor into the chamber. The method according to claim 1,
And a plasma generator is installed in the middle of the gas flow into the chamber to generate a plasma and generate an active gas therefrom. The method according to claim 1,
And a plasma generator is installed in the chamber to generate a plasma and generate an active gas therefrom. The chamber structure for improving the contact efficiency of the vapor decontamination chamber. The method according to claim 1,
And a pressure control device is provided to control the pressure of the deoxidation chamber. The chamber structure for improving the contact efficiency of the steam decontamination chamber. The method according to claim 1,
Wherein the container is formed to be detachable or mountable inside the chamber. The method according to claim 1,
And an air fan for promoting the flow of the detoxifying fluid is installed in the chamber. The chamber structure for improving the contact efficiency of the steam decontamination chamber.

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