KR20220077221A - Bio safety cabinet with dual positive pressure chamber - Google Patents

Abstract

The present invention, the main body; a working chamber provided at a lower portion of the main body and forming a working space therein; a negative pressure chamber provided on the upper portion of the main body and into which air introduced from the outside of the main body and air recovered from the work chamber are introduced; a blower provided in the negative pressure chamber and configured to draw air inside the negative pressure chamber to form the negative pressure chamber inside the negative pressure chamber; a circulation chamber provided in the negative pressure chamber and supplying a part of the air inside the negative pressure chamber discharged by the blower to the work chamber; and an exhaust chamber provided in the negative pressure chamber and discharging the remaining part of the air inside the negative pressure chamber discharged by the blower to the outside of the body; providing a biological safety workbench having a dual positive pressure chamber comprising: aim to do
According to the present invention as described above, by providing a dual positive pressure chamber in the biological safety cabinet, the air flow supplied to the inside of the working chamber and the air flow discharged to the exhaust port do not interfere with each other, so that the change in external air flow is caused by air circulation inside the biological safety cabinet There is an effect that can minimize the effect on the system, and the blower is composed of a main blower and an exhaust blower, so that a blower with a relatively small output can be used compared to a biosafety workbench that used one blower in the prior art, thereby making a biosafety workbench There is an effect that can reduce the vibration or noise generated in the

Description

Bio safety cabinet with dual positive pressure chamber

The present invention relates to a biological safety cabinet, and more particularly, to a biological safety cabinet having a dual positive pressure chamber in which a positive pressure box is provided in a dual structure inside the body.

It is a basic safety equipment used in laboratories dealing with infectious substances such as pathogens, to protect the safety of the experimenter, the safety of the experimenter, and the environment. .

Among them, class Ⅱ A2 type is the most commonly used biological safety cabinet, and in the case of class Ⅱ A2 type biological safety cabinet, 70% of the air circulated inside the body is recirculated through the HEPA filter, and the remaining 30% is It is filtered with a HEPA filter and configured to be discharged to the outside, and it is provided to protect the sample, the experimenter, and the surrounding environment.

On the other hand, in the case of the conventional class Ⅱ A2 type biological safety workbench, one blower and one positive pressure chamber are provided inside the main body, and the recirculation air flow from one positive pressure chamber to the inside of the main body and the exhaust air flow to the outside of the main body are formed. structure, and accordingly, the influence of the airflow change near the opening or the exhaust port greatly affects the air circulation system inside the body, so there is a problem in that it is not easy to control the air circulation inside the body.

Korean Patent Publication No. 10-2018-0114259 (published on October 18, 2018)

Accordingly, the present invention has been devised in the background described above, and by having a dual positive pressure chamber, the air flow supplied to the inside of the work chamber and the air flow discharged to the exhaust port do not interfere with each other, so that the change in the external air flow affects the internal air circulation of the body The purpose is to provide a biosafety cabinet that can minimize the impact.

In addition, by composing the blower with a main blower and an exhaust blower, a blower of relatively small output can be used with respect to a biological safety workstation that has used one conventional blower, thereby reducing vibration or noise generated by the body. Its purpose is to provide

The object of the present invention is not limited thereto, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve this object, an embodiment of the present invention includes a body; a working chamber provided at a lower portion of the main body and forming a working space therein; a negative pressure chamber provided on an upper portion of the main body and into which air introduced from the outside of the main body and air recovered from the work chamber are introduced; a blower provided in the negative pressure chamber and configured to suck air inside the negative pressure chamber to form the inside of the negative pressure chamber in a negative pressure state; a circulation chamber provided in the negative pressure chamber and configured to supply a portion of the air inside the negative pressure chamber discharged by the blower to the work chamber; and an exhaust chamber provided in the negative pressure chamber and configured to discharge the remaining part of the air inside the negative pressure chamber discharged by the blower to the outside of the main body; providing a biological safety workbench having a dual positive pressure chamber comprising: do.

In addition, the blower may include: a main blower for sucking a part of the air inside the negative pressure chamber and supplying a part of the air inside the negative pressure chamber sucked into the circulation chamber; and an exhaust blower that sucks in the remaining part of the air inside the negative pressure chamber and supplies the remaining part of the air inside the negative pressure chamber to the exhaust chamber; a biological safety workbench having a dual positive pressure chamber comprising: to provide.

In addition, the circulation chamber may include: a main positive pressure box having one side in communication with the blowing unit to introduce a part of the air inside the negative pressure chamber sucked by the blowing unit; and a main filter provided on the other side of the main positive pressure box to filter the air flowing into the main positive pressure box; provides a biological safety workbench having a dual positive pressure chamber comprising: a.

In addition, the exhaust chamber, one side communicates with the blower, the exhaust positive pressure box for introducing the remaining part of the air inside the negative pressure chamber sucked by the blower; and an exhaust filter provided on the other side of the positive exhaust pressure box to filter the air flowing into the positive exhaust pressure box.

According to an embodiment of the present invention, by providing a dual positive pressure chamber in the biological safety cabinet, the air flow supplied into the working chamber and the air flow discharged to the exhaust port do not interfere with each other, so that the external airflow change is the internal air of the biological safety cabinet There is an effect that can minimize the effect on circulation.

In addition, by composing the blower with a main blower and an exhaust blower, a blower of relatively small output can be used for a biological safety cabinet that has used one conventional blower, thereby reducing vibration or noise generated in the biological safety cabinet. It works.

1 is a front perspective view showing the external configuration of a biological safety cabinet according to an embodiment of the present invention.
2 is a perspective view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention.
3 is a front view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention.
4 is a side view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention.
5 is a rear perspective view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention.
6 is an exploded perspective view showing the main positive pressure box and airflow control device of the biological safety workbench according to an embodiment of the present invention.
7 is a side view showing the operation of an airflow control device for a biological safety cabinet according to an embodiment of the present invention.
8 is a side view illustrating an internal air circulation structure of a biological safety cabinet according to an embodiment of the present invention.
9 is a rear perspective view showing an internal air circulation structure of a biological safety cabinet according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is formed between each component. It should be understood that elements may also be “connected,” “coupled,” or “connected.”

1 is a front perspective view showing the external configuration of a biological safety cabinet according to an embodiment of the present invention. 2 is a perspective view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention. 3 is a front view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention. 4 is a side view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention. 5 is a rear perspective view showing the internal configuration of a biological safety cabinet according to an embodiment of the present invention. 6 is an exploded perspective view showing a main positive pressure box and an airflow control device of a biological safety workbench according to an embodiment of the present invention. 7 is a side view showing the operation of an airflow control device for a biological safety cabinet according to an embodiment of the present invention. 8 is a side view illustrating an internal air circulation structure of a biological safety cabinet according to an embodiment of the present invention. 9 is a rear perspective view showing an internal air circulation structure of a biological safety cabinet according to an embodiment of the present invention.

As shown in the drawing, a biological safety cabinet having a dual positive pressure chamber according to an embodiment of the present invention, the main body 10; a working chamber 100 provided in the lower portion of the main body 10 and forming a working space therein; a negative pressure chamber 200 provided in the upper portion of the main body 10 and into which air introduced from the outside of the main body 10 and air recovered from the work chamber 100 are introduced; a blower 300 provided in the negative pressure chamber 200 and for sucking air inside the negative pressure chamber 200 to form the inside of the negative pressure chamber 200 in a negative pressure state; a circulation chamber 400 provided in the negative pressure chamber 200 and supplying a part of the air inside the negative pressure chamber 200 discharged by the blower 300 to the work chamber 100 ; and an exhaust chamber 500 provided in the negative pressure chamber 200 to discharge the remaining part of the air inside the negative pressure chamber 200 discharged by the blower 300 to the outside of the main body 10; do.

Hereinafter, each configuration of the present invention will be described in detail with reference to FIGS. 1 to 9 .

The biological safety cabinet according to the present invention is a safety equipment used to protect the handling materials, the safety of the experimenter and the experimental environment in a laboratory dealing with infectious substances such as pathogens, and in particular, the biological safety cabinet according to the present invention It may be a Class II A2 type biological safety cabinet that protects all the environment.

First, the main body 10 may be provided in the form of a cabinet forming a predetermined accommodating space therein.

A working chamber 100 and a negative pressure chamber 200 to be described later may be provided inside the main body 10, and a controller 11 for controlling various electronic devices including a blower 300 to be described later may be provided. .

On the other hand, a lower stand 13 including wheels is provided at the lower end of the main body 10 so that it can be moved in the laboratory depending on the installation location, and a part of the air circulating inside the main body 10 is provided at the upper end of the main body. (10) An exhaust port 15 for discharging to the outside may be provided.

Then, the working chamber 100 is provided in the lower portion of the main body 10, and forms a working space therein.

A workbench 110 is formed at the bottom of the work chamber 100 , so that an experimenter can perform an experiment while placing a predetermined handling material on the workbench 110 .

At this time, a drain valve 111 capable of discharging the test liquid in the work chamber 100 to the outside may be provided at a lower portion of the work table 110 .

On the other hand, a door 130 provided to slide in the vertical direction of the main body 10 is provided in the front opening of the work chamber 100, and the opening of the work chamber 100 is opened or opened according to the sliding movement of the door 130. provided to be closed.

On the other hand, the side wall portion of the work chamber 100 may be provided with an inlet valve 150 for introducing an experimental gas or liquid into the work chamber 100, and a UV lamp for sterilizing the inside of the work chamber 100 ( 170) and a differential pressure gauge 190 for checking the pressure state may be provided.

Here, the intake grill 120 having a plurality of ventilation holes formed therein may be provided at the bottom of the work chamber 100 , and the air supplied from the circulation chamber 400 to be described later and the air introduced from the outside of the body 10 . may be discharged from the work chamber 100 to the negative pressure chamber 200 to be described later through the intake grill 120 .

Next, the negative pressure chamber 200 is provided on the upper portion of the main body 10 , and the air introduced from the outside of the main body 10 and the air recovered from the work chamber 100 are introduced therein.

The negative pressure chamber 200 may communicate with the above-described work chamber 100 through the circulation duct 210 formed in the lower portion and rear of the main body 10 .

A blower 300 to be described later is provided inside the negative pressure chamber 200, and the inside is formed in a negative pressure state by the air suction of the blower 300, and accordingly, the air inside the work chamber 100 is circulated through the circulation duct ( It may be introduced into the negative pressure chamber 200 through the 210).

At this time, the air flowing into the negative pressure chamber 200 is a mixture of the air inside the work chamber 100 and the air introduced from the outside of the body 10 .

Then, the blower 300 is provided in the negative pressure chamber 200, and sucks air inside the negative pressure chamber 200 to form the negative pressure inside the negative pressure chamber 200.

In the negative pressure chamber 200 in which the negative pressure is formed by the blower 300 , the air recovered from the work chamber 100 and the air introduced from the outside of the main body 10 are introduced through the circulation duct 210 .

Here, the blower 300 according to an embodiment of the present invention sucks a part of the air inside the negative pressure chamber 200, and supplies a part of the air inside the negative pressure chamber 200 to the circulation chamber 400 to be described later. to the main blower 310; and an exhaust blower 330 that sucks in the remaining part of the air inside the negative pressure chamber 200, and supplies the remaining part of the air inside the negative pressure chamber 200 to the exhaust chamber 500 to be described later. do.

More specifically, the main blower 310 is provided inside the negative pressure chamber 200, the suction port communicates with the negative pressure chamber 200, and sucks a part of the air inside the negative pressure chamber 200, and the discharge port is a circulation chamber In communication with 400, a portion of the air inside the suction negative pressure chamber 200 is supplied to the circulation chamber 400 to form the inside of the circulation chamber 400 in a positive pressure state.

In addition, the exhaust blower 330 is provided inside the negative pressure chamber 200, the suction port communicates with the negative pressure chamber 200, and sucks the remaining part of the air inside the negative pressure chamber 200, and the discharge port is the exhaust chamber 500 ) and supplying the remaining part of the air inside the suction negative pressure chamber 200 to the exhaust chamber 500 to form the inside of the exhaust chamber 500 in a positive pressure state.

In the case of a conventional biosafety workbench, one blower and one positive pressure chamber are provided inside the main body, and the air introduced into one positive pressure chamber is circulated to the work chamber or discharged through the exhaust port, respectively.

In contrast, the blower 300 of the present invention is provided with a main blower 310 and an exhaust blower 330 independently, respectively, the main blower 310 is a negative pressure chamber 200 in the circulation chamber 400 of the air inside A portion is supplied, and the exhaust blower 330 is provided to supply the remaining part of the air inside the negative pressure chamber 200 to the exhaust chamber 500 .

Here, the main blower 310 and the exhaust blower 330 according to the present invention may be provided as a BLDC blower driven by a brushless motor (Brushless Direct Current motor), and the main blower 310 and the exhaust blower 330 are Each operation can be controlled by the above-described controller 11 .

On the other hand, the blower 300 is the air flow rate supplied by the main blower 310 to the circulation chamber 400 by the controller 11, and the air flow rate supplied by the exhaust blower 330 to the exhaust chamber 500 is predetermined. It can be controlled to maintain the ratio A:B, preferably the air flow rate supplied to the circulation chamber 400 by the main blower 310 and the air flow rate supplied by the exhaust blower 330 to the exhaust chamber 500 This can be controlled to remain at 70:30.

That is, the blower ( 300) can be controlled.

In addition, the air flow rate discharged to the outside of the main body 10 through the exhaust unit 15 through the blower 300 depends on the opening and closing state of the door 130 provided in the front of the working chamber 100 . ) operation can be controlled to correspond to the flow rate of external air flowing into the opening.

As described above, by maintaining the same flow rate of air introduced into the body 10 and the air flow discharged to the outside of the body 10, the air flow rate circulating inside the body 10 can be configured to be kept constant.

Subsequently, the circulation chamber 400 is provided in the negative pressure chamber 200 , and supplies a part of the air inside the negative pressure chamber 200 discharged by the blower 300 to the work chamber 100 .

More specifically, the circulation chamber 400 is provided in the lower portion of the negative pressure chamber 200, and supplies a part of the air inside the negative pressure chamber 200 supplied from the main blower 310 described above to the work chamber 100. .

Here, the circulation chamber 400 according to an embodiment of the present invention has one side in communication with the blower 300, and the main positive pressure box for introducing a part of the air inside the negative pressure chamber 200 sucked by the blower 300. (410); and a main filter 430 provided on the other side of the main positive pressure box 410 to filter the air flowing into the main positive pressure box 410;

First, the main positive pressure box 410 has one side connected to the outlet of the main blower 310 to receive a portion of the air inside the negative pressure chamber 200 sucked by the main blower 310 .

The inside of the main positive pressure box 410 supplied with air from the main blower 310 is in a positive pressure state.

On the other hand, the other side of the main positive pressure box 410 is provided with a main filter 430 for filtering the air flowing into the main positive pressure box 410, where the main filter 430 is an example HEPA filter (High Efficiency Particulate Air filter) ) can be provided.

The air introduced into the main positive pressure box 410 by the main blower 310 is purified by the main filter 430 while passing through the main filter 430, and the air purified by the main filter 430 is purified by the main filter ( It may be supplied to the inside of the work chamber 100 through the diffuser 470 provided on the other side of the 430).

On the other hand, the circulation chamber 400 according to an embodiment of the present invention is provided in the main positive pressure box 410, the main positive pressure box 410, the air flow control device for adjusting the flow rate of the air introduced into the 450; may further include.

The airflow control device 450 may be provided to adjust the angle inside the main positive pressure box 410, and to adjust the flow rate of air flowing through the main positive pressure box 410 according to the adjusted angle.

More specifically, as shown in FIGS. 6 and 7 , the airflow control device 450 is provided in the form of a rotation shaft member 451 and a plate having both ends rotatably coupled to the main positive pressure box 410 and the main positive pressure box ( 410), and one end is coupled to the rotary shaft member 451 and the airflow control blade 453 rotates in the upper or lower direction of the main positive pressure box 410 according to the rotation of the rotary shaft member 451. can be done

Here, when the air flow control blade 453 rotates in the upper direction or the lower direction of the main positive pressure box 410 according to the rotation of the rotating shaft member 451, the main positive pressure box 410 partitioned by the air flow control blade 453 ) The partition ratio of the internal space is different, so that the flow rate of the air circulating inside the main positive pressure box 410 can be adjusted.

Next, the exhaust chamber 500 is provided in the negative pressure chamber 200 to discharge the remaining part of the air inside the negative pressure chamber 200 discharged by the blower 300 to the outside of the main body 10 .

More specifically, the exhaust chamber 500 is provided in the upper part of the negative pressure chamber 200, and the remaining part of the air inside the negative pressure chamber 200 supplied from the exhaust blower 330 described above is removed from the main body 10 in the laboratory. discharged into space

Here, in the exhaust chamber 500 according to an embodiment of the present invention, one side communicates with the blower 300 , and the positive exhaust pressure for introducing the remaining part of the air inside the negative pressure chamber 200 sucked by the blower 300 . box 510; and an exhaust filter 530 provided on the other side of the positive exhaust pressure box 510 to filter the air flowing into the positive exhaust pressure box 510 .

First, one side of the positive exhaust pressure box 510 is connected to the outlet of the exhaust blower 330 , and the remaining part of the air inside the negative pressure chamber 200 sucked by the exhaust blower 330 is supplied.

The inside of the positive exhaust pressure box 510 supplied with air from the exhaust blower 330 is in a positive pressure state.

On the other hand, the other side of the positive exhaust pressure box 510 is provided with an exhaust filter 530 for filtering the air flowing into the exhaust positive pressure box 510, where the exhaust filter 530 is one example like the main filter 430 described above. As a result, it may be provided as a High Efficiency Particulate Air filter (HEPA).

The air introduced into the positive exhaust pressure box 510 by the exhaust blower 330 is purified by the exhaust filter 530 while passing through the exhaust filter 530 , and the air purified by the exhaust filter 530 is the main body 10 . ) may be discharged to the outside of the main body 10 through the exhaust port 15 formed at the upper end.

On the other hand, the exhaust port 15 is provided with a wind speed sensor, it may be provided to sense the wind speed of the air discharged through the exhaust port (15).

Next, an air circulation process inside the biosafety cabinet according to an embodiment of the present invention will be briefly described with reference to FIGS. 8 and 9 .

First, when the blower 300 provided inside the negative pressure chamber 200 is operated by the controller 11, the blower 300 sucks the air inside the negative pressure chamber 200 to blow the inside of the negative pressure chamber 200. formed under negative pressure.

Here, since the blower 300 is composed of the main blower 310 and the exhaust blower 330 as described above, the main blower 310 and the exhaust blower 330 operate at the same time to form the negative pressure chamber 200 inside. will inhale air.

When the inside of the negative pressure chamber 200 is formed in a negative pressure state, the air in the working chamber 100 and the air flowing in through the opening of the working chamber 100 are introduced into the negative pressure chamber 200 through the circulation duct 210. As it flows, the internal air of the body 10 circulates.

The air introduced into the negative pressure chamber 200 is sucked in through the inlet of the main blower 310 and the exhaust blower 330 in operation, at this time the main blower 310 and the exhaust blower 330 by the controller 11. The ratio of the air flow rate sucked into the air conditioner can be adjusted to approximately 70:30.

Part of the air inside the negative pressure chamber 200 sucked in by the main blower 310 is introduced into one side of the main positive pressure box 410 of the circulation chamber 400 connected to the outlet of the main blower 310, and the main positive pressure box The air introduced into the 410 is purified by the main filter 430 provided on the other side of the main positive pressure box 410 , and the purified air is supplied to the work chamber 100 by the diffuser 470 .

Here, by the air flow control device 450 provided in the main positive pressure box 410, the flow rate of the air circulating inside the main positive pressure box 410 can be adjusted.

The air supplied to the work chamber 100 through the diffuser 470 may form an air curtain while descending to the front opening of the work chamber 100 , and the descending air may be externally through the front opening of the work chamber 100 . It may be mixed with the air introduced from the and discharged to the circulation duct 210 through the intake grill 120 formed at the bottom of the work chamber 100 .

The air discharged to the circulation duct 210 is introduced into the negative pressure chamber 200 again by the main blower 310 and the exhaust blower 330 .

On the other hand, the remaining part of the air inside the negative pressure chamber 200 sucked by the exhaust blower 330 flows into one side of the positive exhaust pressure box 510 of the exhaust chamber 500 connected to the outlet of the exhaust blower 330, The air introduced into the positive exhaust pressure box 510 is purified by the exhaust filter 530 provided on the other side of the exhaust positive pressure box 510 , and the purified air is passed through the exhaust port 15 provided at the upper end of the body 10 . It is discharged to the outside of the main body (10).

Here, the biosafety workbench according to the present invention includes a single blower, and unlike the conventional biosafety workbench that supplies air to the inside of the work chamber or discharges it to the outside through one positive pressure unit, the main blower 310 and the exhaust blower A circulation chamber having a 330, respectively, and connecting the circulation chamber 400 and the exhaust chamber 500 to the main blower 310 and the exhaust blower 330, respectively, and supplying air to the inside of the work chamber 100 400 and the exhaust chamber 500 for discharging air to the exhaust port 15 are each independently provided, so that the air flow supplied to the work chamber 100 and the air flow discharged to the exhaust port 15 do not interfere with each other is characterized by

According to this configuration, the change in airflow near the front opening of the working chamber 100 affects only the airflow supplied to the inside of the working chamber 100, and the change in the airflow near the exhaust port 15 is discharged to the exhaust port 15 Since only the airflow is affected, the effect of external airflow changes on the air circulation system inside the BSC can be minimized, making it easier to control the air circulation inside the BSC.

As described above, according to an embodiment of the present invention, by providing a dual positive pressure chamber in the biological safety workbench, the airflow supplied to the inside of the work chamber and the airflow discharged through the exhaust port are configured not to interfere with each other, thereby changing the external airflow It has the effect of minimizing the effect on the air circulation inside the biosafety cabinet.

In addition, by composing the blower with a main blower and an exhaust blower, a blower of relatively small output can be used for a biological safety cabinet that has used one conventional blower, thereby reducing vibration or noise generated in the biological safety cabinet. It works.

In the above, even though all the components constituting the embodiment of the present invention are described as being combined or operated in combination, the present invention is not necessarily limited to this embodiment. That is, within the scope of the object of the present invention, all the components may operate by selectively combining one or more.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: body 11: controller
13: lower stand 15: exhaust port
100: work chamber 110: work table
111: drain valve 120: intake grill
130: door 150: inlet valve
170: UV lamp 190: differential pressure gauge
200: negative pressure chamber 210: circulation duct
300: blower 310: main blower
330: exhaust blower
400: circulation chamber 410: main positive pressure box
430: main filter 450: air flow control device
451: rotation shaft member 453: air flow control blade
470: diffuser
500: exhaust chamber 510: exhaust positive pressure box
530: exhaust filter

Claims (4)

main body;
a working chamber provided at a lower portion of the main body and forming a working space therein;
a negative pressure chamber provided on the upper portion of the main body and into which air introduced from the outside of the main body and air recovered from the work chamber are introduced;
a blower provided in the negative pressure chamber and configured to draw air inside the negative pressure chamber to form the negative pressure chamber inside the negative pressure chamber;
a circulation chamber provided in the negative pressure chamber and supplying a part of the air inside the negative pressure chamber discharged by the blower to the work chamber; and
an exhaust chamber provided in the negative pressure chamber for discharging the remaining part of the air inside the negative pressure chamber discharged by the blower to the outside of the main body;
A biological safety workbench having a dual positive pressure chamber, characterized in that it comprises a.
According to claim 1,
The blower unit,
a main blower for sucking a part of the air inside the negative pressure chamber and supplying a part of the air inside the negative pressure chamber sucked into the circulation chamber; and
an exhaust blower for sucking in the remaining part of the air inside the negative pressure chamber and supplying the remaining part of the sucked air inside the negative pressure chamber to the exhaust chamber;
A biological safety workbench having a dual positive pressure chamber, characterized in that it comprises a.
According to claim 1,
The circulation chamber,
a main positive pressure box having one side in communication with the blower and introducing a part of the air inside the negative pressure chamber sucked by the blower; and
a main filter provided on the other side of the main positive pressure box to filter the air flowing into the main positive pressure box;
A biological safety workbench having a dual positive pressure chamber, characterized in that it comprises a.
According to claim 1,
The exhaust chamber,
an exhaust positive pressure box having one side in communication with the blowing unit to introduce the remaining part of the air inside the negative pressure chamber sucked by the blowing unit; and
an exhaust filter provided on the other side of the positive exhaust pressure box to filter the air flowing into the positive exhaust pressure box;
A biological safety workbench having a dual positive pressure chamber, characterized in that it comprises a.

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