JP3104211U - Safety cabinet type clean bench - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a clean bench which can perform compounding work while maintaining the same cleanliness as that installed in a clean room without being installed in a clean room, and also has a function as a safety cabinet capable of handling toxic substances. The purpose is to provide.
SOLUTION: The safety cabinet type clean bench 1 is composed of a main body 2 having a work space S and a pass box unit 20. The pass box unit 20 is provided with two sterile pass boxes A and B for bringing a chemical solution, a container, and the like into the work space S. The main body 2 is configured to prevent the outflow of air from the work space S by automatically increasing the displacement.
[Selection diagram] Fig. 1

Description

  The present invention can perform compounding work etc. while maintaining the same cleanliness as that installed in the clean room without installing in a clean room, and also has the function as a safety cabinet that handles toxic substances. The present invention relates to a safety cabinet type clean bench.

  2. Description of the Related Art In a medical facility such as a hospital, a clean bench is conventionally used so that impurities such as germs and dust are not mixed when a chemical solution (medicine or infusion solution) is prepared. The clean bench is configured such that clean air is continuously supplied to a work space provided therein, so that a sterile space with high cleanliness can be created.

  However, in the case where bacteria, dust, etc. are attached to the container of the chemical solution to be handled, or where the clean bench is installed in a place with low cleanliness, the chemical solution container, etc., should be installed in the clean bench work space. There is a possibility that germs, dust, and the like may be mixed in when trying to bring the product into the apparatus, and in this case, the cleanliness and the aseptic state will be impaired. Therefore, in order to make full use of the functions of the clean bench and to ensure high cleanliness and sterility, it is necessary to install the clean bench in a clean room having a class 10,000 cleanliness.

  When a chemical solution containing a toxic substance is handled, a safety cabinet is used instead of a clean bench. The safety cabinet is configured so that the air in the working space is forcibly discharged and the working space has a negative pressure, and the discharged air is used as a means for detoxifying toxic substances or for recovering. (Biohazard countermeasure equipment). Therefore, it is possible to prevent the toxic substance from flowing out of the apparatus, and as a result, it is possible to ensure safety for the worker. Even if a toxic substance leaks out of the device due to malfunction of the device or operator's operation error, damage to the surrounding environment can be minimized. In addition, the safety cabinet needs to be installed in a room having a forced exhaust system for maintaining the room at a negative pressure, a biohazard countermeasure system, and the like.

  However, installing a clean room, a biohazard countermeasure facility, and the like requires considerable cost, and also requires a great deal of labor and cost for maintenance. Therefore, there are many facilities in which a clean bench or a safety cabinet is installed in a corner of a normal room to prepare a chemical solution without providing a clean room or biohazard countermeasure equipment.

  In this case, if the germs and dust in the room are mixed and the work space of the clean bench is contaminated, or if an accident occurs in which toxic substances vaporized in the work space flow out of the safety cabinet, the safety cabinet will Damage may spread not only to the room where it is installed, but also to the surrounding environment.

  Although the clean bench and the safety cabinet have different uses as described above, the clean bench and the safety cabinet have similar external configurations, and therefore may be confused by an operator and cause an accident due to misuse. For example, if a clean bench is used for the preparation of toxic drugs that should be performed using a safety cabinet, toxic substances may leak into the room.

  The safety cabinet type clean bench of the present invention has been made to solve the problems of the conventional clean bench and safety cabinet as described above. A second pass box configured so that clean air is circulated and supplied to the space is disposed, and the first pass box includes a disinfectant sprayer, an opening communicating with the working space of the main body, and Having a shutter configured to be able to open and close the opening, the second pass box having an opening communicating with the working space of the main body, and a shutter configured to be able to open and close the opening When the front door is opened, the clean air in the second pass box is blown forward from the front inlet.

  In addition, when clean air is supplied to the working space inside the main body and air in the working space is forcibly discharged, the front panel that partitions the working space at the front of the main body is opened to open the work space. It is preferable that the amount of exhaust from the space be increased. In this case, even if the target chemical solution contains a toxic substance, it can be appropriately handled. In other words, the safety cabinet-type clean bench of the present invention can be used not only as a clean bench but also as a safety cabinet.

  The safety cabinet type clean bench according to the present invention has a sterile pass box equipped with a disinfectant sprayer, so that it is possible to prevent contamination of bacteria and the like when bringing chemicals or containers into the work space. can do. Therefore, the safety cabinet type clean bench can maintain the same cleanliness as the clean bench installed in the clean room even when installed in a normal room, not in a clean room.

  Furthermore, the safety cabinet type clean bench according to the present embodiment is configured so that the exhaust volume is automatically increased when the front panel is opened, so that each time a chemical solution containing a toxic substance is handled, an operator is required. There is no need to perform adjustment work to increase the displacement.

  Also, even if a chemical solution containing toxic substances is handled while the front panel is open, it is configured to prevent air from flowing out of the work space to the work room, so that vaporized toxic substances can be removed from the work space. No spill. Therefore, a chemical solution containing a toxic substance can be handled without adversely affecting the surrounding environment while ensuring the safety of workers.

  Also, if the front panel is used with the front panel closed, there is no danger that the chemical solution being handled will flow out of the work space, and the chemical solution containing toxic substances can be used to ensure the safety of workers and to protect the surrounding environment. Can be handled without adversely affecting

  Furthermore, the safety cabinet type clean bench of the present invention can be used as a clean bench and also as a safety cabinet, so that accidents due to misuse and the like can be avoided.

  Hereinafter, the best mode for implementing the "safety cabinet type clean bench" of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a perspective view of a safety cabinet type clean bench 1 according to the present invention. As shown, the safety cabinet type clean bench 1 includes a main body 2 having a work space S, and a pass box unit 20.

  A front panel 3 made of a transparent material is attached to the front of the main body 2 so as to be slidable in the vertical direction. Further, a pair of gloves 4 and 4 are attached to the front panel 3 so as to secure airtightness.

  In this figure, reference numeral 5 denotes an air inlet for taking air into the main body 2, and reference numeral 6 denotes an exhaust pipe for discharging air from the main body 2. Reference numeral 7 denotes a side window made of a transparent material, which is attached to the front left side of the main body 2 as shown. Through the side window 7, an operator can see notes outside the work space S and a monitor of a computer.

  The pass box unit 20 is provided with two sterile pass boxes (first pass box A and second pass box B) for bringing a drug solution, a container, and the like into the work space S. Front doors 21 (21A, 21B) are attached to the first pass box A and the second pass box B, respectively. These front doors 21 are made of a transparent material so that the inside can be visually recognized.

  A first opening 22 </ b> A communicating with the work space S is provided on a side surface (the left side in FIG. 1) of the first pass box A on the main body 2 side. Further, a shutter 23A is provided in the first opening 22A, and by closing the shutter 23A, the space in the first pass box A and the work space S can be shut off. .

  Note that the opening 22 and the shutter 23 are provided in the same manner in the second pass box B (the second opening 22B and the second shutter 23B).

  The front door 21 (21A, 21B) can be opened and closed by hand while the operator grasps the handle and the shutter 23 (23A, 23B) can be opened and closed without contaminating the operator's fingers. Thus, it can be operated by a foot switch (not shown).

  Here, the structure of the pass box unit 20 and the method of using the safety cabinet type clean bench 1 utilizing the pass box unit 20 will be described in detail with reference to FIGS. Will be described.

  The first pass box A installed in the upper stage is a sterile pass box mainly used for bringing a container or the like containing a medicine into the work space S of the main body 2. As shown in FIG. 2, a sprayer 24 is attached to the upper part of the first pass box A. The sprayer 24 can spray a disinfectant such as alcohol from the spray box 24 to disinfect the brought-in container and the like. I can do it. The sprayer 24 can be operated by a foot switch (not shown), similarly to the operation of the front door 21 and the shutter 23 described above.

  Therefore, the container or the like containing the chemicals is first brought into the first pass box A, and after disinfection, the shutter 23A is opened and brought into the work space S, so that the contamination of bacteria and the like can be avoided. The work space S can be prevented from being contaminated.

  The second pass box B installed in the lower stage is mainly a sterile path used to bring a container for a medical solution, such as an infusion bag or a syringe, in which a sterile state is secured inside, into the working space S of the main body 2. It is a box. The second pass box B is configured so that clean air is circulated and supplied.

  More specifically, as shown in FIG. 2, the pass box unit 20 has a structure in which the second pass box B is placed on a hollow base 30. Note that an intermediate flow path 29 is formed between the second pass box B and the base portion 30, and a back flow path 36 is formed on the back side of the second pass box B. ing.

  The second pass box B and the back side flow path 36 are in communication with each other, and the HEPA filter 26 is disposed between them. Further, the second pass box B and the intermediate flow passage 29 are in communication with each other via the bottom opening 27. And the base part 30 is also in the state which respectively communicated with the back side flow path 36 and the intermediate flow path 29.

  The fan 25 is arranged in the base portion 30. Since the exhaust port of the fan 25 is connected to the rear flow path 36, when the fan 25 is operated, the air in the base portion 30 is sucked, and the air flows down to the rear flow path 36. Will do. Then, the air that has flowed into the rear flow path 36 passes through the HEPA filter 26, flows into the second pass box B, flows down to the base 30 through the bottom opening 27 and the intermediate flow path 29. , Is circulating. Since the circulating air is purified when passing through the HEPA filter 26, the clean air is always supplied into the pass box B.

  Note that a slide door 33 is attached to the vent 32 located between the intermediate flow path 29 and the base 30. The slide door 33 slides in conjunction with the opening and closing operation of the front door 21B of the pass box B.

  More specifically, as shown in FIG. 2, when the front door 21 </ b> B is closed, the slide door 33 is at a position that opens the vent 32. Therefore, in this state, as described above, air circulates inside the apparatus. On the other hand, when the front door 21 is opened, the slide door 33 moves to a position where the vent 32 is closed (see FIG. 3). In this state, the route through which the air flows down from the intermediate flow path 29 to the base portion 30 is blocked, so that the air (clean air) in the second pass box B flows from the front inlet 37 to the apparatus. And is discharged to the outside of the apparatus.

  Therefore, first, the front door 21B is opened, and in the vicinity of the opened front introduction port 37, the container or the outer bag for a chemical solution in a sterile state is opened while being exposed to the clean air to be blown out, and the second pass is performed. If the medicine is brought into the box B, the medical solution can be introduced into the second pass box B while maintaining the sterility.

  Then, when the front door 21B is closed, the clean air circulates again inside the apparatus. In this state, the shutter 23B (see FIG. 1) in the second pass box B is opened, and a container for the introduced chemical solution or the like is opened. Is moved to the work space S of the main body 2, it is possible to avoid a situation in which germs, dust, and the like enter the work space S, and it is possible to suitably prevent the work space S from being contaminated.

  As shown in FIG. 3, a suction port 34 is provided on the front surface of the base portion 30, the front door 21B is opened, and clean air is discharged from the front introduction port 37 toward the front of the apparatus. In this case, an amount of air corresponding to the discharged amount is taken into the base portion 30 through the pre-filter 35 from the suction port 34.

  By the way, the “safety cabinet type clean bench” according to the present embodiment also has a function as a “safety cabinet” capable of handling toxic substances by the configuration described below. Hereinafter, this point will be described.

  First, the flow of air in the main body 2 will be described. FIG. 4 is a cross-sectional view of the main body 2 and is a view for explaining the flow of air in the main body 2. FIG. 4 shows a state in which the front panel 3 is completely closed.

  First, the air sucked from the air suction port 5 is drawn into the air supply fan 9 through the pre-filter 8 attached to the upper part of the main body 2. Then, by the function of the air supply fan 9, the air is supplied to the work space S in the main body 2 through the air supply filter 10. Since the air supply filter 10 is a HEPA filter, the air supplied to the work space S is purified air (clean air).

  The clean air supplied to the work space S flows into the space in the main body base portion 13 through the intake slot 12 opened on the periphery of the work table 11. Then, the light passes through the exhaust filter 15 and is taken out of the base portion 13. After that, the air that has flowed out of the base portion 13 is sucked by the exhaust fan 14 installed at the upper part of the main body 2, passes through the exhaust passage 16 provided on the back side of the main body 2, and And is discharged from the main body 2 through the exhaust pipe 6.

  As described above, since the main body 2 is configured such that the clean air is always supplied to the work space S and the air is discharged from the work space S, the cleanliness of the air in the work space S is improved. It is being maintained.

  In the state where the front panel 3 is completely closed, there is no danger that the chemical solution being handled flows out of the work space S, and furthermore, the worker inevitably wears the glove 4 to work. In addition, chemical solutions containing toxic substances can be handled without adversely affecting the surrounding environment while ensuring the safety of workers.

  On the other hand, when performing the compounding work in the work space S, as shown in FIG. 5, the front panel 3 is slid upward to form a gap in the front of the main body 2, and the worker puts his hand through this gap to form the compound. It is also possible to do work.

  Even when the front panel 3 is slid upward in this way, the main body 2 according to the present embodiment automatically increases the amount of exhaust air, thereby allowing air to flow from the work space S to the work room. Since it is configured to prevent outflow, even if a chemical solution containing a toxic substance is handled, the safety of workers is ensured and the surrounding environment is not adversely affected. Hereinafter, this point will be described in detail.

  A sensor (not shown) for detecting whether or not the front panel 3 is in a closed state is attached to the main body 2, and the sensor has a control mechanism (for controlling the rotation speed of the exhaust fan 14). (Not shown). This sensor detects that a gap is formed in the front of the main body 2 when the front panel 3 slides upward from the fully closed state, and transmits information to a control mechanism. When receiving the information from the sensor, the control mechanism switches the voltage applied to the motor of the exhaust fan 14 to increase the rotation speed of the exhaust fan 14 and increase the amount of exhaust from the work space S. .

  When the amount of exhaust air from the work space S increases, the work space S becomes a negative pressure with respect to the work room, and the air in the work room flows from the gap in front of the main body 2, so that the air from the work space S to the work room Outflow can be prevented. Therefore, even if a chemical solution containing a toxic substance is handled without completely closing the front panel 3, it is possible to ensure the safety of workers and perform the compounding work without adversely affecting the surrounding environment. it can.

  When the front panel 3 is slid upward, the rotation speed of the exhaust fan is set from a gap at the front of the main body 2 so as to prevent air from flowing out of the work space S to the work room. It is preferable to set the flow velocity of the inflowing air to be 0.5 m / s or more.

  Further, the rotation speed of the exhaust fan 14 can be increased by a method of switching the frequency of the motor in addition to the method of switching the voltage applied to the motor described above. In addition, as a method of increasing the exhaust amount, an electrically operated damper (not shown) attached to an exhaust flange 17 connecting the main body 2 and the exhaust pipe 6 is used instead of increasing the rotation speed of the exhaust fan 14. ) May be used.

  As described above, the safety cabinet type clean bench 1 according to the present embodiment prevents air from flowing out of the work space to the work room even when a chemical solution containing a toxic substance is handled with the front panel opened. The vaporized toxic substance does not flow out of the work space. Therefore, a chemical solution containing a toxic substance can be handled without adversely affecting the surrounding environment while ensuring the safety of workers.

FIG. 2 is a perspective view of the safety cabinet type clean bench 1 according to the present invention. Sectional drawing of the pass box unit 20 in the state which closed the front door 21B. Sectional drawing of the pass box unit 20 in the state which opened the front door 21B. FIG. 3 is a cross-sectional view of the main body 2 in a state where the front panel 3 is completely closed. FIG. 3 is a cross-sectional view of the main body 2 with the front panel 3 opened.

Explanation of reference numerals

1: Safety cabinet type clean bench,
2: body,
3: front panel,
4: Glove,
5: air inlet,
6: exhaust pipe,
7: Side window,
8: Pre-filter 9: Air supply fan,
10: Air supply filter 11: Workbench,
12: intake slot,
13: base part,
14: exhaust fan,
15: exhaust filter,
16: exhaust path,
17: exhaust flange,
20: pass box unit,
21A, 21B: front door,
22A, 22B: opening,
23A, 23B: shutter 24: sprayer,
25: Fan,
26: HEPA filter,
27: bottom opening,
28: back opening,
29: intermediate flow path,
30: base part,
32: vent,
33: sliding door,
34: inlet,
35: Prefilter,
36: back side channel,
A: First pass box,
B: Second pass box,
S: Work space

Claims (5)

A safety cabinet type clean bench in which a pass box is arranged adjacent to the main body,
A safety cabinet, wherein the pass box has a disinfectant sprayer, an opening communicating with a work space of the main body, and a shutter configured to open and close the opening. Type clean bench. A pass box configured to circulate and supply clean air to the internal space is a safety cabinet type clean bench arranged adjacent to the main body,
The pass box has an opening communicating with the work space of the main body, and a shutter configured to be able to open and close the opening, and when the front door is opened, the clean air in the pass box has a front surface. A safety cabinet type clean bench characterized by being configured to blow out from the inlet to the front. A safety cabinet type clean bench in which a first pass box and a second pass box configured to circulate and supply clean air to the internal space are arranged adjacent to the main body,
The first pass box has a disinfectant sprayer, an opening communicating with the working space of the main body, and a shutter configured to be able to open and close the opening.
The second pass box has an opening communicating with the work space of the main body, and a shutter configured to be able to open and close the opening, and when the front door is opened, the inside of the second pass box A safety cabinet-type clean bench, wherein clean air is blown forward from a front inlet. The main body is configured so that clean air is supplied to an internal working space, and air in the working space is forcibly discharged,
4. The exhaust system according to claim 1, wherein an exhaust amount from the work space is increased when a front panel that partitions a work space is opened at a front surface of the main body. Safety cabinet type clean bench. The safety cabinet type clean bench according to any one of claims 1 to 4, wherein a glove hermetically attached is provided on the front panel.

Images