JP5009408B2 - Biohazard safety cabinet - Google Patents

Description

  The present invention relates to a safety cabinet for biohazard countermeasures, and particularly to a clean work table for preventing disasters caused by handling of microorganisms and pathogens in the field of genetic manipulation such as medical care and pharmaceuticals, and a so-called safety cabinet for biohazard countermeasures. .

  Conventionally, a biohazard class II cabinet conforming to or conforming to JIS K3800 has been used as a primary barrier for physically separating biohazardous people / environments and biological materials / pathogens. Substances that are handled and no longer needed in the work space of the safety cabinet may be contaminated with bacteria and viruses. When this substance is taken out from the work space, it is necessary to store it in a sealed container in the work space, take out the container from the safety cabinet, and sterilize and dispose it. A conventional safety cabinet is shown in FIG. A process of temporarily storing substances that are no longer needed in the work space in a bag at the bottom of the work space, taking out the bag from the work space side of the safety cabinet and storing it in another sealed container after the experiment, It was. Patent Document 2 also proposes a similar technique.

Japanese Patent Publication No. 63-20168 JP 2002-79117 A

  FIG. 7 shows a sectional structural view of the conventional safety cabinet dust chute. An upper lid 16 is formed on the work table 2 on the lower surface of the work space. A duct 19 is formed in the work table lower circulation flow path 7 below the upper lid 16, and a waste bag 20 is inserted into the duct 19. The waste bag 20 is structured to be removed from the work space side.

  A method of using the dust chute of the safety cabinet according to the conventional technique will be described below. Bacteria and microorganisms handled in the work space are attached to those used in the safety cabinet work space 3. The waste in the work space is once collected in the waste bag 20 of the dust chute 8, and after the work in the safety cabinet is completed, the bag 20 is collected from the safety cabinet 1 and discarded together with the waste bag 20. .

  When taking out the waste bag 20 according to the prior art, the upper lid 16 at the bottom of the work space 3 is opened during the operation of the safety cabinet 1 to prevent infection, and the waste bag 20 is collected from the work space 3 side. At this time, not only bacteria / microorganisms adhere to the waste bag 20, but also the bacteria / microorganisms floating in the work section when attached to the work space 3 adhere to the surface of the waste bag 20. there is a possibility. If the waste bag is taken out of the safety cabinet as it is, there is a risk of infection. Therefore, the waste bag 20 is put in a separate container in the work space 3, and after stopping the safety cabinet, the surface is sterilized with alcohol, and the waste bag 20 is removed. Remove the container. The removed container is put in a high-pressure steam sterilizer or the like, and the waste bag 20 is sterilized and discarded.

  As described above, in the related art, when the waste bag 20 is put in another container, there is a risk of contamination when the container containing the waste bag is taken out from the safety cabinet. Further, since the replacement is performed many times, there is a disadvantage that workability is poor.

  An object of the present invention is to provide a safety cabinet for biohazard countermeasures that improves workability when disposing of waste in a work space and minimizes infection and contamination.

  In order to solve the above problems, the present invention is configured as follows. A lid that opens and closes on the surface of the safety cabinet work table is provided, and a duct that connects to the cover and penetrates the circulating dew at the bottom of the work table is provided. A waste container is provided on the lower surface of the circulating flow dew on the lower part of the workbench, connected to the duct, and a waste bag is inserted into the waste container from the work section side so that the waste container can be removed from outside the safety cabinet. It is.

That is, the present invention provides an air supply system for supplying clean air to the work space through the first air cleaning means by the air blowing means, and a second air cleaning means by the exhaust means from the circulation flow path connected to the work space. An exhaust system for discharging air to the outside of the apparatus, a front shutter formed on the front surface of the work space, a front opening connected to the work space below the front shutter, and a bottom surface of the work space below the front opening. In the safety cabinet for biohazard measures having an opening at the bottom of the work space, a circulation channel at the bottom of the work space, and an opening at the bottom of the work space, the opening at the bottom of the work space In contrast, the container includes a container detachably attached so as to seal the inside of the work space, the container has a container lid, and is disposed through the circulation channel at the lower part of the work space. Ri, when taking out the container from the biological safety cabinet is intended to remove from the outlet sampling container while the container lid to the container from the bottom side of the container outlet of said biohazard protection safety cabinet In addition, an upper lid is formed in the opening at the bottom of the work space, and the upper lid is a biohazard safety cabinet that can be opened / closed remotely without touching by a remote opening / closing means.

  In the present invention, the container is attached so as to seal the inside of the work space.

  And this invention is the safety cabinet for a biohazard countermeasure which formed the circulation flow path of the negative pressure area in the bottom face of a work space, a back surface, and both side surfaces.

  Furthermore, the present invention is a biohazard safety cabinet having a lid at the opening at the bottom of the work space.

  Further, the present invention is a biohazard safety cabinet in which the upper lid of the opening at the bottom of the work space is movable in parallel with the bottom of the work space.

  The present invention also provides a biohazard safety device having a container outlet on the lower side of the biohazard safety cabinet for removing a container detachably attached to the opening from the biohazard safety cabinet. It is a cabinet.

  According to the present invention, it is possible to obtain a safety cabinet for biohazard measures with a dust chute that improves workability when disposing of waste in the work space and minimizes infection and contamination.

1 is a perspective view of a safety cabinet of Example 1. FIG. FIG. 3 is a cross-sectional structure diagram of the safety cabinet according to the first embodiment. FIG. 3 is a cross-sectional structure diagram illustrating a dust chute in the first embodiment. FIG. 6 is a cross-sectional structure diagram of a safety cabinet according to a second embodiment. FIG. 6 is a cross-sectional structure diagram of a workbench of the safety cabinet according to the second embodiment. FIG. 6 is a cross-sectional structure diagram showing a dust chute in Example 3. The cross-section figure which shows the dust chute by a prior art.

  The best mode for carrying out the present invention will be described. Hereinafter, an embodiment of a safety cabinet for biohazard countermeasures of the present invention (hereinafter simply referred to as a safety cabinet) will be described with reference to FIGS. FIG. 1 is a perspective view of the safety cabinet of the first embodiment. FIG. 2 is a cross-sectional structure diagram of the safety cabinet of the first embodiment. FIG. 3 is a cross-sectional structure diagram illustrating the dust chute in the first embodiment. FIG. 4 is a cross-sectional structure diagram of the safety cabinet of the second embodiment. FIG. 5 is a cross-sectional view of a working table of the safety cabinet according to the second embodiment. FIG. 6 is a cross-sectional structure diagram showing the dust chute in the third embodiment.

  Example 1 will be described. FIG. 1 is a perspective view showing a safety cabinet showing a first embodiment of the present invention. The operator inserts his / her arm through the front opening 10 of the safety cabinet 1 and performs an operation in which the bacteria / microorganisms 15 are handled in the work space 3. Waste that is no longer needed in the work space 3 is inserted into the dust chute 8 and discarded.

  FIG. 2 is a cross-sectional structure diagram showing the safety cabinet showing the first embodiment of the present invention. The inflow air flow 13 sucked from the front opening 10 on the worker side is sucked from the suction slit 24 together with a part of the suction air flow 12 suction in the work table. The air sucked from the suction slit 24 passes through the negative pressure contamination plenum 14 and is sucked into the blower 6. Part of the air is exhausted by filtering the dust and microorganisms by the exhaust HEPA filter 4 by the blower 6. Other air is filtered by the circulating HEPA filter 5 and supplied to the work space 3. Since clean air is supplied in the work space 3 and an air curtain 11 is formed in the front opening 10, the work space 3 is not affected by other bacteria and microorganisms. Aseptic operation can be performed and infection to workers can be prevented.

  When specific bacteria / microorganisms are used in the work space 3, the laboratory instruments used inside are disinfected with alcohol after the work is completed, and the safety cabinet 1 is stopped. What has become is discarded in the dust chute 8. By discarding in the dust chute 8, the work table 2 can be used widely and re-scattering of the bacteria / microorganisms 15 adhering to the waste can be prevented.

  FIG. 3 is a cross-sectional structure diagram showing the dust chute showing the first embodiment of the present invention. An upper lid 16 is formed on the work table 2 so that it can be opened and closed. A duct 19 is formed in a form connected to the work space 3 in the work part lower circulation channel 7 at the lower part of the work table 2, and a waste container 18 is attached in a form connected to the inside of the duct 19. . The duct 19 and the waste container 18 are formed by a latch 23 so as to be easily attached and detached. The waste bag 20 is inserted into the upper opening of the duct 19 so that the opening is on the upper side, and the waste can be inserted into the waste bag 20 when the upper cover 16 is opened. Since the work platform lower circulation path 7 is in a negative pressure region than the outside air connected to the negative pressure contaminated plenum 14, there is a possibility that the bacteria / microorganisms 15 may leak to the outside even if the sealing of the duct 19 with the outer wall of the safety cabinet 1 is somewhat worse. Few.

  When the dust chute 8 is used, when the upper lid 16 is opened, the waste bag 20 with the mouth open is visible, and the waste is inserted there. After the waste is inserted, the upper lid 16 is closed. The upper lid 16 may be opened and closed using the remote switch 22 without being touched by the hand of the upper lid 16. When collecting the waste, the upper lid 16 is opened, the mouth of the waste bag 20 is removed from the duct 19, and the waste bag 20 is put into the waste container 18. By sealing the mouth of the waste container 18 with the waste container lid 17, bacteria and microorganisms adhering to the waste are sealed in the waste container 18. After the operation of the safety cabinet 1 is completed, the waste container 18 is removed from the container outlet on the lower side of the safety cabinet 1 by removing the latch 23, the waste container 18 is sterilized, and the internal waste bag 20 is discarded. When the waste container 18 is removed, the opening of the duct 19 connecting the work space 3 and the outside may be sealed with the temporary lid 21.

  A second embodiment will be described. FIG. 4 is a cross-sectional structure diagram showing a safety cabinet showing a second embodiment of the present invention. In general, in a safety cabinet, air sucked from the front suction slit 24 passes through the lower part of the work table 2 and the rear surface of the work space 3 and is sucked into the blower 6. In the second embodiment, not only the back surface of the work space 3 but also both side surfaces are provided with a flow path and connected to the negative pressure plenum 14. Thus, the air sucked from the suction slit 24 passes through the lower part of the work table 2, flows from the lower part of the work table 2 to the back surface and both side surfaces, and is sucked from the blower 6.

  FIG. 5 is a cross-sectional view of a workbench showing a safety cabinet showing a second embodiment of the present invention. One of the performances defined in JIS K 3800: 2000 “Class II cabinet for measures against biohazard” is “prevention of cross contamination between samples”. In this function inspection method, test bacteria are sprayed from the side surface of the work space 3, and the number of bacteria collected on an agar plate separated by 360 mm or more from the side surface is 2 or less. When the duct 19 is provided in the work table lower circulation flow path 7, the air flow sucked from the suction slit 24 may be weakened due to the influence of the flow path resistance. Since the center of the workbench is the place where the bacteria test performance is the best, the dust chute 8 is arranged at the end of the workbench 2. If the suction air on the left and right sides is weakened by the dust chute 8, the balance of the airflow is lost on the left and right of the work space, which may not satisfy the “prevention of cross contamination between samples” performance.

  In the second embodiment, the airflow sucked from the suction slit 24 is prevented from being weakened by sucking the airflow from both side surfaces of the lower part of the work table where the duct 19 is not disposed.

  A third embodiment will be described. FIG. 6 is a cross-sectional structure diagram showing a dust chute showing a third embodiment of the present invention. In order to maintain the performance of the safety cabinet, the airflow balance in the work section 3 is very important. When it is on the surface of the action table 2 and the upper lid 16 is opened and closed up and down, the airflow is disturbed, causing contamination. In the third embodiment, the air flow in the work space is prevented from being disturbed by moving the upper lid 16 parallel to the surface of the work table 2. The opening / closing method includes a method of opening and closing the upper lid 16 by hand like a sliding door and a method of opening and closing without touching using the remote switch 22.

1… Safety cabinet (safety cabinet for biohazard countermeasures)
DESCRIPTION OF SYMBOLS 1a ... Main body case 2 ... Worktable 3 ... Work space 4 ... HEPA filter for exhaust 5 ... HAPA filter for supply of air 6 ... Air blower 7 ... Circulation flow path under a work table 8 ... Dust chute 9 ... Front shutter 10 ... Front opening 11 ... Air curtain 12 ... Blowing airflow 13 ... Incoming airflow 14 ... Negative pressure plenum 15 ... Bacteria / microorganisms 16 ... Top lid (lid)
17 ... Waste container lid (container lid)
18 ... Waste container (container)
DESCRIPTION OF SYMBOLS 19 ... Duct 20 ... Waste bag 21 ... Temporary cover 22 ... Remote switch 23 ... Latch 24 ... Suction slit

Claims (2)

An air supply system for supplying clean air to the work space through the first air cleaning means by the blower means, and air from the circulation channel connected to the work space to the outside of the apparatus through the second air cleaning means by the exhaust means. An exhaust system for discharging; a front shutter formed on the front surface of the work space; a front opening connected to the work space below the front shutter; and an air suction port formed on the bottom surface of the work space below the front opening; In the safety cabinet for biohazard measures having a plate on the bottom surface of the work space, a circulation channel at the lower part of the work space, and an opening on the bottom surface of the work space,
A container attached detachably to the inside of the work space with respect to the opening on the bottom surface of the work space;
The container has a container lid, and is disposed through the circulation flow path at the lower part of the work space. When taking out the container from the biohazard safety cabinet, the biohazard safety The container is removed from the container outlet from the container outlet on the lower side of the cabinet with the container lid on the container.
A biohazard safety cabinet characterized in that an upper lid is formed at the opening of the bottom of the work space, and the upper lid can be opened and closed remotely without touching it by remote opening and closing means. In the biosafety safety cabinet according to claim 1,
A safety cabinet for biohazard measures, wherein the upper lid of the opening at the bottom of the work space is movable in parallel with the bottom of the work space.

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