CN211755081U

CN211755081U - Biological safety cabinet

Info

Publication number: CN211755081U
Application number: CN201922187108.7U
Authority: CN
Inventors: 严整辉; 邱实
Original assignee: Shanghai Qikang Regenerative Medicine Technology Co ltd
Current assignee: Shanghai Qikang Regenerative Medicine Technology Co ltd
Priority date: 2019-12-09
Filing date: 2019-12-09
Publication date: 2020-10-27
Anticipated expiration: 2029-12-09

Abstract

The utility model relates to a biological safety cabinet. Biological safety cabinet to biological sample, biological safety filtration system that biological safety cabinet internal design is complete is used for guaranteeing that outer row and inside downdraft all are through filterable clean air current, all is provided with high efficiency filter around work interval upside, downside, left side, right side to form the air current inflow outflow circulation wind channel that link up completely, make gaseous at the internal continuous filtration circulation of cabinet, filter many times, improved workstation operating space's cleanliness factor. The filtration system meets the biological safety requirements and can effectively control the molecular contamination source to be used for biological samples. The utility model discloses a humanized design provides better personnel's protection, has more effectively avoided the product to receive pollution and the cross contamination between the product.

Description

Biological safety cabinet

Technical Field

The utility model relates to a biological safety purifies technical field particularly, relates to biological safety cabinet with self-purification function.

Background

Biological Safety Cabinets (BSCs), also known as Biological or microbiological Safety cabinets, are microbiological tests with infectivity in operation or in testing, designed to protect personnel, laboratory environment and samples of the external natural environment, experiments, from exposure to aerosols and spilled substances that may be produced during the above operations, a completely enclosed ventilated laboratory working space designed for safe handling of contaminated (or potentially contaminated) pathogens requiring materials with a determined level of biosafety. There are several different types of biosafety cabinets (i.e., class I, class II, or class III) that are distinguished from each other by the degree of biosafety required. The main purpose of the biosafety cabinet is to serve as a primary means of protecting laboratory workers and the surrounding environment from pathogens.

The biological safety cabinet widely used in the prior art is a II-grade B2 or A2 type biological safety cabinet. The use of such biosafety cabinets currently places certain environmental requirements, such as the operation in laboratories with decontamination, or in the distribution centres of hospitals, whereas some hospital-used safety cabinets operate in the usual environment, which is poor in background and does not allow a better ventilation. Greatly increasing the risk of infection of the medical staff. At present, the A2 type biosafety cabinet is provided with an independent fan, the air flow direction is front window suction air and top exhaust air, and 30% of 70% of the exhaust air flows in. The B2 model is that compared with the A2 model, the connecting pipeline which is connected with the top layer filter opening by one outer exhaust fan is added, and the air exhausted by the connecting pipeline is exhausted by an outer exhaust independent fan, and is completely exhausted by 100 percent. The most of the clean rooms are installed in such a way that air is supplied to the upper part and exhausted to the lower part. The blower unit is disposed in the cabinet above the work area within the biosafety cabinet. The blower is used to circulate air downward. A portion of this downward airflow forms an air curtain at the front of the cabinet work area and passes under the floor of the work area. However, in the biosafety cabinet in the prior art, the air is introduced into the front window of the a2 type biosafety cabinet, so that more pollutants are easily introduced and are not easy to control, the gas discharged from the B2 type biosafety cabinet through the working area of the cabinet body has low filtration efficiency, the utilization rate of clean gas is insufficient, the filter is worn rapidly, and the air in the clean room from the upper part to the lower part may be polluted by the materials used in the working area.

In view of this, the present invention is especially provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to design a more effective biosafety cabinet which ensures the cleanliness of the circulating gas in the biosafety cabinet and improves the filtration efficiency and the utilization rate of the clean gas, aiming at biological samples such as DNA, RNA, Protein, bacteria, mycoplasma and endotoxin.

In order to realize the above purpose of the utility model, the following technical scheme is adopted:

the utility model relates to a biosafety cabinet, including the cabinet body, centrifugal fan, filtration system and cabinet door, be provided with the cabinet door on the preceding baffle of the cabinet body, cabinet body downside is provided with the workstation, cabinet body upside is provided with the overhead gage, the workstation of the cabinet body, overhead gage and side shield constitute the work interval jointly.

In some specific embodiments, the air intake unit comprises a centrifugal fan, and the centrifugal fan is mounted on the right side of the upper part of the biological safety cabinet and is used for supplying air to the working area.

In some embodiments, the filtration system includes a vent high efficiency filter, a supply high efficiency filter, and a return high efficiency filter.

In some specific embodiments, the blowing high-efficiency filter filters the downdraft entering the working space to ensure that the cleanliness of the passing air flow meets the experimental operation requirements; and a gas detector is arranged below the air supply high-efficiency filter and used for detecting the content of microorganisms in the gas.

In some specific embodiments, the return air high efficiency filter comprises a first return air high efficiency filter, a second return air high efficiency filter, and a third return air high efficiency filter; the first air return high-efficiency filter is respectively positioned on the left side plate and the right side plate below the working interval, the second air return high-efficiency filter is positioned on the back side plate below the working interval, and the third air return high-efficiency filter is positioned below the workbench; and an air flow channel communicated with the first return air high-efficiency filter, the second return air high-efficiency filter and the third return air high-efficiency filter is formed among the first return air high-efficiency filter, the second return air high-efficiency filter and the third return air high-efficiency filter.

In some specific embodiments, the high-efficiency exhaust air filter is positioned above the biological safety cabinet and used for purifying the air flow exhausted by the biological safety cabinet, and the centrifugal fan is positioned at the right side of the high-efficiency exhaust air filter; a one-way air outlet is arranged above the air exhaust high-efficiency filter; the air rises through the airflow channel and is communicated with the air channel between the exhaust high-efficiency filter and the air supply high-efficiency filter in a penetrating way; the exhaust high-efficiency filter filters one part of the gas which rises and flows back through the airflow channel and then discharges the gas, and meanwhile, the other part of the gas enters the working area again through the air supply high-efficiency filter.

In some specific embodiments, the biosafety cabinet further comprises a differential pressure sensor for detecting a pressure differential between a pressure in the workspace and a pressure outside the biosafety cabinet or between a pressure in the workspace and a pressure downstream of the filter. The air outlet of the biological safety cabinet also comprises a baffle plate with variable air volume balance, the air entering the cabinet body is sent to the positive pressure chamber through the fan negative pressure flow channel, and the clean air is configured into two forces from the working space through the air flow channel by the air supply filter in the positive pressure chamber, wherein the two forces are transmitted to the air supply path on one hand and the clean air is transmitted to the exhaust path of the exhaust pipe from the positive pressure chamber through the exhaust high-efficiency filter on the other hand. The air amount detecting member is provided on a downstream side of each HEPA filter of the air discharge path and the air supply path. A control unit for controlling the input of the air intake unit according to a differential pressure signal input from the differential pressure sensor; the moving direction of the variable air volume balance damper is controlled according to the data of the exhaust air volume detecting member.

In some specific embodiments, the biological safety cabinet further comprises a result display module, wherein the result display module is configured to display a detection structure obtained by the gas detection component in the biological safety cabinet, and preferably, the result display module displays a detection result through a screen display, a voice broadcast or a printing mode.

In some embodiments, the filters of the filtration system are all high efficiency particulate air filters or HEPA filters; the filtration membrane of the filter meets biosafety requirements so that at least 99% of the biological particles with a diameter of more than 1.0 micron are retained.

In some embodiments, the filtration membrane is an acrylic polymer or polyethylene membrane, the filtration membrane is a free standing membrane, or the membrane has a gas permeable support member laminated to at least one surface of the filtration membrane.

In some specific embodiments, the air intake unit at the top end of the cabinet body is further provided with an air inlet for air intake, and an air intake prefilter for performing preliminary filtration on air is arranged at the air inlet; the prefilter is positioned at the upstream of the centrifugal fan, and an ultraviolet lamp is also arranged at the downstream of the centrifugal fan.

In some specific embodiments, an air diffuser is further disposed downstream of the high-efficiency blowing filter, and the air diffuser is a metal diffuser.

In some embodiments, the high-efficiency exhaust air filter further comprises a hood mounted obliquely above the high-efficiency exhaust air filter to prevent material storage at the top of the cabinet from blocking the high-efficiency exhaust air filter and adversely affecting airflow. The biosafety cabinet must be certified to confirm that the exhaust HEPA filter and its mounting frame seal are free of leaks that could lead to the passage of microorganisms and contamination of the laboratory environment.

In some specific embodiments, the high-efficiency exhaust air filter further comprises an activated carbon filter screen.

In some specific embodiments, the cabinet door is made of transparent glass, and the cabinet door is movable.

In some specific embodiments, two symmetrical vertical grooves are formed in the cabinet body, pulleys are arranged on two sides of the cabinet door, and the cabinet door is movably mounted in the vertical grooves of the cabinet body up and down through the pulleys.

In some embodiments, the cabinet door includes a window that is movable longitudinally and can be raised to a specific position along a track, the track is provided with a circulating air switch, and when the window is moved to the circulating air switch position, the air exhaust is started.

Definition of terms

Any directional terms appearing in the present invention, such as "upper", "lower", "left", "right", "front", "back", are not restrictive, but merely serve to illustrate the structure and the schematic.

Advantageous effects

The biological safety cabinet of the utility model is mainly used for biological samples, such as DNA, RNA, Protein, bacteria, mycoplasma and endotoxin. Compared with the prior art, the beneficial effects of the utility model are that:

(1) the biological safety cabinet of the utility model adopts four filters at left, right, back and lower to form an airflow outflow circulating air channel which is communicated with the air inflow circulating channel at the upper part of the working area, so that the air is continuously filtered and circulated in the cabinet body, and the front air inlet basically has no inflow airflow, thereby reducing the entrance of external pollution gas; on one hand, the air in the working area reaches the specified cleanliness and dangerous particles such as aerosol generated in a sample during a test are filtered out, so that the cross contamination of a test material is protected, and on the other hand, the safe sealed biological safety cabinet can be prevented from directly discharging the dangerous particles in the air to the environment by the combined use of the multi-stage filter. In other words, the filter is configured to ensure that both the outer and inner downdraft streams are filtered clean streams.

(2) The utility model discloses a biological safety cabinet can reduce the pollution to the filter, improves the life of filter to gaseous at the internal circulation of cabinet, the multiple filtration has improved workstation operating space's cleanliness factor, can be super clean bench concurrently.

(3) The utility model discloses a biosafety cabinet is equipped with complete biosafety filtration system, and the filter equipment material satisfies the biosafety requirement, and the effective control in molecular pollution source can be ensured in filter material's material and aperture moreover.

(4) The utility model discloses biosafety cabinet's air intake is provided with the centrifugal fan according to pressure differential regulation, and the air exit still sets up the baffle that has variable amount of wind balance according to gaseous detection component data adjustment, and the balance of the internal and external gaseous business turn over of cabinet can be guaranteed in the cooperation jointly.

(5) The utility model discloses a biosafety cabinet is through humanized design, for example the structure of cabinet door to reduce the gas exchange of front window operation mouth, provide better personnel's protection, more effectively avoided the product to receive the cross contamination between pollution and the product.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a front view of a biosafety cabinet;

FIG. 2 is a side view of the biosafety cabinet;

FIG. 3 is a partial view of the operational area of the biosafety cabinet;

the air conditioner comprises an air exhaust high-efficiency filter 1, a centrifugal fan 2, an air supply high-efficiency filter 3, a first return air high-efficiency filter 4, a second return air high-efficiency filter 5 and a third return air high-efficiency filter 6.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to examples, but those skilled in the art will understand that the following examples are only for illustrating the present invention and should not be construed as limiting the scope of the present invention.

Please refer to fig. 1-3, the utility model relates to a biosafety cabinet, which comprises a cabinet body, a centrifugal fan 2, a filtering system and a cabinet door, a cabinet door is arranged on a front baffle of the cabinet body, a workbench is arranged on the lower side of the cabinet body, an upper baffle is arranged on the upper side of the cabinet body, and the workbench, the upper baffle and a side baffle of the cabinet body jointly form a working space.

The air inlet unit comprises a centrifugal fan 2, and the centrifugal fan 2 is arranged on the right side of the upper part of the biological safety cabinet and is convenient for supplying air between working areas. The air inlet unit at the top end of the cabinet body is also provided with an air inlet for air to enter, and an air inlet prefilter for performing preliminary filtration on air is arranged at the air inlet; the prefilter is positioned at the upstream of the centrifugal fan, and an ultraviolet lamp is also arranged at the downstream of the centrifugal fan and used for effectively controlling microorganisms in the air.

The filtering system comprises an exhaust efficient filter 1, an air supply efficient filter 3, a first return air efficient filter 4, a second return air efficient filter 5 and a third return air efficient filter 6. The filters of the filtering system are both high-efficiency particulate air filters or HEPA filters; the filtration membrane of the filter meets biosafety requirements so that at least 99% of the biological particles with a diameter of more than 1.0 micron are retained. The filtration membrane is an acrylic polymer filtration membrane or a polyethylene membrane, the filtration membrane is a free standing membrane, or a membrane having a gas permeable support member laminated on at least one surface of the filtration membrane.

And the air supply high-efficiency filter 3 filters the descending air flow entering the working interval so as to ensure that the cleanliness of the passing air flow meets the experimental operation requirements. And a gas detector is arranged below the air supply high-efficiency filter and used for detecting the content of microorganisms in the gas. Air diffuser is still provided with in air supply high efficiency filter low reaches, air diffuser is the metal diffuser for the clean gas of evenly distributed entering working space.

The table top of the workbench is provided with meshes, so that the unidirectional flow of gas between the workbench working space and the return air high-efficiency filter can be realized. The return air high-efficiency filter comprises a first return air high-efficiency filter 4, a second return air high-efficiency filter 5 and a third return air high-efficiency filter 6; as shown in fig. 3, the first high-efficiency return air filter 4 is respectively located on the left and right side plates below the working space, and is used for filtering air entering the airflow channel from the left and right sides of the workbench; as shown in fig. 2, the second return air high-efficiency filter 5 is located on the back side plate below the working space and is used for filtering the air entering the airflow channel from the rear of the workbench; the third return air high-efficiency filter 6 is positioned below the workbench and is used for filtering gas entering the airflow channel from the lower part of the workbench; and an airflow channel communicated with the first return air high-efficiency filter 4, the second return air high-efficiency filter 5 and the third return air high-efficiency filter 6 in a penetrating manner is formed among the first return air high-efficiency filter, the second return air high-efficiency filter and the third return air high-efficiency filter, so that the cleanliness of air in a working area is ensured.

The high-efficiency exhaust air filter 1 is positioned above the biological safety cabinet and used for purifying air flow exhausted by the biological safety cabinet, and the centrifugal fan 2 is positioned on the right side of the high-efficiency exhaust air filter 1; a one-way air outlet is arranged above the air exhaust high-efficiency filter 1; the air rises through the airflow channel and is communicated with the air channel between the exhaust high-efficiency filter and the air supply high-efficiency filter in a penetrating way; the exhaust efficient filter 1 filters one part of the gas which rises and flows back through the airflow channel and then discharges the gas, and meanwhile, the other part of the gas enters the working area again through the air supply efficient filter 3. The circulation flow forms convection, and the gas is filtered for many times in the cabinet body, so that a better cleaning effect is obtained.

The exhaust high-efficiency filter also comprises a shield which is obliquely arranged above the exhaust high-efficiency filter so as to prevent materials stored at the top of the cabinet from blocking the exhaust high-efficiency filter and generating adverse effect on airflow. The biosafety cabinet must be certified to confirm that the exhaust HEPA filter and its mounting frame seal are free of leaks that could lead to the passage of microorganisms and contamination of the laboratory environment. The exhaust efficient filter also comprises an activated carbon filter screen.

The biosafety cabinet further includes a differential pressure sensor for detecting a pressure differential between a pressure in the workspace and a pressure outside the biosafety cabinet or between a pressure in the workspace and a pressure downstream of the filter. The air outlet of the biological safety cabinet also comprises a baffle plate with variable air volume balance, the air entering the cabinet body is sent to the positive pressure chamber through the fan negative pressure flow channel, and the clean air is configured into two forces from the working space through the air flow channel by the air supply filter in the positive pressure chamber, wherein the two forces are transmitted to the air supply path on one hand and the clean air is transmitted to the exhaust path of the exhaust pipe from the positive pressure chamber through the exhaust high-efficiency filter on the other hand. The air amount detecting member is provided on a downstream side of each HEPA filter of the air discharge path and the air supply path. A control unit for controlling the input of the air intake unit according to a differential pressure signal input from the differential pressure sensor; the movement direction of the baffle with the variable air volume balance is controlled according to the data of the exhaust volume detection component, so that the balance of the air delivery inside and outside the cabinet body is ensured.

The biological safety cabinet further comprises a result display module, the result display module is used for displaying the detection structure obtained by the gas detection component in the biological safety cabinet, and preferably, the result display module displays the detection result in a screen display, sound broadcasting or printing mode.

The cabinet door is made of transparent glass, the cabinet door is movable, the air inlet can be shielded by the closed glass door, and the working space for the air outside the cabinet body to enter the workbench is reduced. The cabinet body is provided with two symmetrical vertical grooves, pulleys are arranged on two sides of the cabinet door, and the cabinet door is movably mounted in the vertical grooves of the cabinet body up and down through the pulleys. Alternatively, the cabinet door includes a plurality of laterally movable small windows which are overlapped like a layered sliding door, one of the plurality of small windows is provided at a working space side thereof with a pair of glove ports to which a pair of gloves for operating in the working space can be airtightly attached, a relatively airtight environment can be formed by facilitating movement to an area requiring operation through the movable small window, and the possibility of contact of the head of a person with outside polluted air is reduced, achieving the effect of an ultra clean bench.

To sum up, owing to adopted above technical characteristic, make the utility model discloses compare in prior art, have following advantage and positive effect: the utility model adopts the structure that the completely through airflow inflow and outflow circulating air channel is formed in the cabinet body, so that the air is continuously filtered and circulated in the cabinet body, and the front air inlet basically has no inflow airflow, thereby reducing the entrance of external polluted air; and a complete filtering system is arranged to ensure that the discharged air flow and the internal descending air flow are both filtered clean air flows. The utility model discloses can reduce the pollution to the filter, improve the life of filter to gaseous at the internal circulation of cabinet, the multiple filtration has improved workstation operating space's cleanliness factor, can do super clean bench concurrently. The utility model discloses a biosafety cabinet is equipped with complete biosafety filtration system, and the filter equipment material satisfies the biosafety requirement, ensures the effective control in molecular pollution source. The utility model discloses a humanized design provides better personnel's protection, has more effectively avoided the product to receive pollution and the cross contamination between the product.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims

1. The utility model provides a biosafety cabinet, includes the cabinet body, centrifugal fan, filtration system and cabinet door, be provided with the cabinet door on the preceding baffle of the cabinet body, cabinet body downside is provided with the workstation, cabinet body upside is provided with the overhead gage, the workstation, overhead gage and the side shield of the cabinet body constitute the work interval jointly, its characterized in that:

the air inlet unit comprises a centrifugal fan which is arranged on the right side of the upper part of the biological safety cabinet and is convenient for supplying air to the working area;

the filtering system comprises an exhaust efficient filter, an air supply efficient filter and a return air efficient filter;

the air supply high-efficiency filter is used for filtering descending air flow entering the working area so as to ensure that the cleanliness of the passing air flow meets the requirement of experimental operation;

the return air high-efficiency filter comprises a first return air high-efficiency filter, a second return air high-efficiency filter and a third return air high-efficiency filter; the first air return high-efficiency filter is respectively positioned on the left side plate and the right side plate below the working interval, the second air return high-efficiency filter is positioned on the back side plate below the working interval, and the third air return high-efficiency filter is positioned below the workbench; an air flow channel is formed among the first return air high-efficiency filter, the second return air high-efficiency filter and the third return air high-efficiency filter;

the high-efficiency exhaust air filter is positioned above the biological safety cabinet and used for purifying air flow exhausted by the biological safety cabinet, and the centrifugal fan is positioned on the right side of the high-efficiency exhaust air filter; a one-way air outlet is arranged above the air exhaust high-efficiency filter; the air flow rises through the air flow channel and is communicated with the air flow channel between the exhaust high-efficiency filter and the air supply high-efficiency filter in a penetrating way; the exhaust high-efficiency filter filters one part of the gas which rises and flows back through the airflow channel and then discharges the gas, and meanwhile, the other part of the gas enters the working area again through the air supply high-efficiency filter;

the biosafety cabinet further comprises a differential pressure sensor for detecting a differential pressure between the pressure in the workspace and the pressure outside the biosafety cabinet or between the pressure in the workspace and the pressure downstream of the filter; and the control unit is used for controlling the input of the air inlet unit according to the differential pressure signal input from the differential pressure sensor.

2. The biosafety cabinet according to claim 1, wherein the filters of the filtration system are all high efficiency particulate air filters or HEPA filters; the filtration membrane of the filter meets biosafety requirements and has a 1.0 micron diameter particle rejection of at least 99%.

3. The biosafety cabinet according to claim 2, wherein the filter membrane is an acrylic polymer filter membrane or a polyethylene membrane, the filter membrane is a freestanding membrane, or the membrane has a gas permeable support member laminated to at least one surface of the filter membrane.

4. The biosafety cabinet according to claim 1, wherein the air inlet unit at the top end of the cabinet body is further provided with an air inlet for air to enter, and an air inlet prefilter for prefiltering air is arranged at the air inlet; the prefilter is positioned at the upstream of the centrifugal fan, and an ultraviolet lamp is also arranged at the downstream of the centrifugal fan.

5. The biosafety cabinet according to claim 1, wherein a gas detector is arranged below the air supply high-efficiency filter and used for detecting the content of microorganisms in gas; the air diffuser is further arranged at the downstream of the air supply high-efficiency filter and is a metal diffuser.

6. The biosafety cabinet of claim 2, wherein the high-efficiency exhaust filter further comprises a hood mounted at an angle above the high-efficiency exhaust filter to prevent material stored at the top of the cabinet from blocking the high-efficiency exhaust filter and adversely affecting airflow.

7. The biosafety cabinet according to claim 1, wherein the high-efficiency exhaust filter further comprises an activated carbon filter screen; the air outlet of the biological safety cabinet also comprises a baffle plate which is a baffle plate with variable air volume balance, and an air volume detection component is arranged at the downstream side of each HEPA filter of the air discharge path and the air supply path; and the control unit is also used for controlling the movement direction of the baffle with the variable air volume balance according to the data of the air volume detection component.

8. The biosafety cabinet according to claim 1, wherein: the cabinet door is made of transparent glass and is movable.

9. The biosafety cabinet according to claim 8, wherein: the cabinet body is provided with two symmetrical vertical grooves, pulleys are arranged on two sides of the cabinet door, and the cabinet door is movably mounted in the vertical grooves of the cabinet body up and down through the pulleys.

10. The biosafety cabinet according to claim 8, wherein the cabinet door includes a window movable longitudinally, the window being raised along a track, the track having a circulating air switch, the air discharge being activated when the window is moved to the circulating air switch position.