CN201997339U - Biological safety protection cabin - Google Patents

Abstract

The utility model relates to a biological safety protection cabin. The utility model is characterized in that the biological safety protection cabin comprises an upper cabin body, a lower cabin body, a central control system and a negative pressure ventilation, purification and sterilization system; the upper cabin body comprises a closed negative pressure box body; at least a perspective window and an oversleeve operating hole are respectively arranged at the front side and the rear side of the negative pressure box body; the left side and the right side of the negative pressure box body are respectively provided with a delivery window; the negative pressure ventilation, purification and sterilization system comprises an air-exhaust first-level efficient particle filter, an air-exhaust second-level efficient particle filter, an exhaust fan, a first three-way connector, an electric pipeline closed valve, a second three-way connector and an air-supply first-level efficient particle filter which are sequentially connected by a ventilating pipeline; the third end of the first three-way connector is connected with an exhaust system in a laboratory by an electric exhaust closed valve; the third end of the second three-way connector is connected with an air feeder by an electric air supply closed valve; the middle part of the ventilating pipeline is connected with gas sterilization equipment by an electric sterilization closed valve; an air inlet end of the air-exhaust first-level efficient particle filter is communicated with an air outlet of the upper cabin body; and an air outlet end of the air-supply first-level efficient particle filter is communicated with an air inlet of the upper cabin body.

Description

Bio-safety protection cabin

Technical field

The utility model relates to a kind of harmful aerocolloidal protection spacer assembly, particularly about a kind of bio-safety protection cabin that is used for bioaerosol zoogenetic infection experiment protection and cause pathogeny imcrobe infection animal feeding protection.

Background technology

In the infectious disease study on prevention, its cause pathogeny imcrobe infection pathogenesis, medicine experimental evaluation and vaccine experimental evaluation etc. all need the zoogenetic infection experimental study that experimentizes.In these researchs, no matter be the pathogenic microorganism safety aerosol in the experiment, still infection animal produces the pathogenic microorganism aerosol in feeding process, all can cause laboratory environment pollution or experimenter's infection, therefore, must carry out isolating and protecting to these harmful bioaerosols.

Pathogenic microorganism is under nature, and the approach that animal, people are infected comprises that respiratory tract sucks infection, contact transmission infection and alimentary canal and eats three kinds of approach of infection.In the human infectious disease, kind more than 150 can be arranged by the microorganism of respiratory tract infection at present, common have Much's bacillus, influenza virus, yersinia pestis and a Bacillus anthracis etc.In the experimental studies such as infection pathogenesis, medicine experimental evaluation and vaccine experimental evaluation of these respiratory infectious diseases, all to carry out aerocolloidal zoogenetic infection experiment, or other approach infect raisings of back animals, all can relate to the aerosol protection question of these respiratory infectious disease cause of diseases in these processes.For small-sized rodent,, there is the negative pressure isolator can be used for the raising of metainfective these small test animals at present as mouse, rat and cavy etc.For some medium-sized animals used as test, raise as infected monkeys such as rabbit, monkeys, then there is not suitable protector.Protection for respiratory tract performance microbial aerosol infection experiment does not have corresponding bio-safety protector at present yet.

The zoopery of respiratory infectious disease cause of disease aerosol infection, abroad, usually all be in an airtight negative pressure spacer assembly, this device varies, its essential characteristic is that negative pressure, airtight, personnel operate by oversleeve, and animal used as test and equipment can enter in the spacer assembly by pass-through box before experiment.Because it is experimental size, animal used as test kind and the experimental technique of various countries are different, therefore, also different to the structure and the specification requirement of the protector of this class.

In view of the foregoing, develop a kind of bio-safety protection spacer assembly that is suitable for rodent respiratory tract aerosol infection device, and having airtight good, negative pressure, air can self-loopa, the agent gas depoisoning that can carry out disinfection, the bio-safety protection cabin of article and animal turnover pass-through box is arranged, and satisfies the scientific research needs that toxicity was raised and sucked to respiratory infectious disease pathogenic microorganism animal breath road infection experiment, infection animal.

Summary of the invention

The purpose of this utility model is to provide a kind of bio-safety protection cabin that is used for bioaerosol zoogenetic infection experiment protection and cause pathogeny imcrobe infection animal feeding protection.

For achieving the above object, the utility model is taked following technical scheme: a kind of bio-safety protection cabin is characterized in that: it comprises that following cabin body, a central control system and that a upper-deck cabin body, connects as one with described upper-deck cabin body are arranged on the exhaust ventilation purification decontamination system in the described cabin body down; Described upper-deck cabin body comprises an airtight negative pressure casing, described negative pressure casing top is provided with some fluorescent lamps, both sides are respectively arranged with at least one perspective window before and after the described negative pressure casing, described perspective window below is provided with several oversleeve gathering holes, and the described negative pressure casing left and right sides is respectively arranged with a pass-through box; Described exhaust ventilation purifies decontamination system and comprises air draft one-level highly effective particle filter, air draft secondary highly effective particle filter, exhaust blower, first three-way connection, the electronic airtight valve of pipeline, second three-way connection and the air-supply one-level highly effective particle filter that connects successively by ventilation shaft; The 3rd end of described first three-way connection connects the laboratory exhaust system by the electronic airtight valve of air draft, and the 3rd end of described second three-way connection connects a pressure fan by the electronic airtight valve of blowing; The middle part of described ventilation shaft connects a gas depoisoning equipment by the electronic airtight valve of sterilizing; The air intake of described air draft one-level highly effective particle filter is communicated with by the air outlet of air supply duct with described upper-deck cabin body, and the outlet air end of described air-supply one-level highly effective particle filter is communicated with by the air inlet of exhaust duct with described upper-deck cabin body; Described central control system is used for controlling the various working procedures that described exhaust ventilation purifies all parts in the decontamination system.

Described negative pressure box house is provided with a pressure sensor, and described negative pressure casing one side is provided with a pressure sensor interface, and described pressure sensor interface is electrically connected with described central control system.

Described negative pressure casing one side also is provided with the pipe joint that several can connect extraneous pipeline.

Described cabin body down comprises a casing, and described casing front side is provided with some fan ADs, is provided with handle on the described AD of every fan, wherein also is provided with a touch-screen runing rest on the described AD of a fan; The described casing left and right sides is respectively arranged with a ventilating fan, and described bottom half is provided with some universal caster wheels and spiral lifting support.

Described central control system adopts the touch screen control system, and it is made of control software, integrated circuit and rotatable touch-screen, and is installed on the described touch-screen runing rest.

Be provided with a differential pressure pickup on described air draft one-level highly effective particle filter and the air draft secondary highly effective particle filter, described differential pressure pickup is electrically connected described central control system.

Described exhaust blower and pressure fan are electrically connected a frequency converter, and described frequency converter is electrically connected described central controller.

Described air draft one-level highly effective particle filter, air draft secondary highly effective particle filter, exhaust blower, air-supply one-level highly effective particle filter, gas depoisoning equipment and frequency converter all are fixedly connected on the base heat radiation orifice plate, and described base heat radiation orifice plate then is fixedly connected on the base plate of described cabin body down.

Described pass-through box is made up of forms, stainless steel inner container, inner door and outer door, and described inside and outside side door is made of window, quiet knocker, moving knocker, fixed gate piece, window mandrel, knuckle buster, safety glass window and annex door-hinge.

The utility model is owing to take above technical scheme, and it has the following advantages: 1, the utility model is an independently negative pressure fence operation system, and supply air system has the one-level highly effective particle filter, guarantees to enter the cleanliness factor of air in the case; Exhaust system has the two-stage highly effective particle filter, guarantees that the purification of discharge air reaches the requirement of pollution; And box house reach negative pressure value can-50Pa～-regulate between the 100Pa.2, the space is big in the case of the present utility model, and extraneous pipe interface and airtight valve are arranged, can satisfy the needs of kinds of experiments chamber research, infect and the infection animal raising as propagating between respiratory infectious disease pathogenic microorganism animal breath road infection experiment, simulating nature animal, and the scientific research of suction toxicity needs.3, the utility model adopts the design of universal wheel, spiral lifting support, therefore can mobile very easily the utility model, satisfy the different needs of lab space and work; Can also raise very easily or reduce the utility model, satisfy the different crowd requirements of one's work.4, the utility model adopts the layout at the diagonal angle, opposite of air outlet, floss hole, in case, form a windstream flow pattern from upwind to following wind direction, also form simultaneously a gradient and distribute, satisfy the space requirement of different infective dose animal feedings from pollution-free to pollution.5, the utility model has designed a gas sterilizing unit between air-supply and air draft path, and realizes and being connected of supply and exhaust pipeline by airtight valve.Close the external interface of air draft and air-supply, open the airtight valve of gas sterilizing unit, form between air supply duct, air-supply one-level highly effective particle filter, casing, exhaust duct, air draft secondary highly effective particle filter and the gas sterilizing unit one airtight from the body airflow circulating system, in the gaseous decontaminant closed gas-flow circulation system, repeatedly the inner surface of cabin body, supply and exhaust pipe inner surface, air-supply highly effective particle filter and air draft secondary highly effective particle filter are carried out disinfection, behind the certain hour, just reach the effect of sterilizing and purifying.6, no matter the utility model is the negative pressure duty, or the sterilizing and purifying state, all is to carry out under the automatic control of central control system, by pressure sensor and working procedure, pressure state in the monitoring box when negative pressure surpasses range of set value, just sends alarm signal in real time; And the time of each working procedure can be set and regulate.7, the pass-through box in the utility model adopts all steel plate to make, and innovative mechanical bullhead compressing structure, sealing property is good, easy to clean disinfects.

Description of drawings

Fig. 1 is the front-face maintaining door projection view of opening of the present utility model

Fig. 2 is cabin body overall appearance figure of the present utility model

Fig. 3 is that negative pressure of the present utility model purifies decontamination system

Fig. 4 is air flow direction figure of the present utility model

Fig. 5 is a pass-through box cutaway view of the present utility model

Fig. 6 is a pass-through box perspective view of the present utility model

Fig. 7 is a supply and exhaust cleaning system flow chart of the present utility model

Fig. 8 is a gas depoisoning circulatory system flow chart of the present utility model

The specific embodiment

Below in conjunction with drawings and Examples the utility model is described in detail.

As shown in Figure 1, the utility model comprises a upper-deck cabin body 1, once cabin body 2, a central control system 3 and an exhaust ventilation purify decontamination system 4.

As shown in Figure 2, upper-deck cabin body 1 comprises an airtight negative pressure casing 101, and casing 101 tops are provided with two fluorescent lamps 102 (only as example, being not limited to this), both sides, casing 101 front and back are respectively arranged with two perspective windows 103, and perspective window 103 belows are provided with four oversleeve gathering holes 104.The casing left and right sides is respectively arranged with a pass-through box 105.

In the foregoing description, casing 101 inside are provided with a pressure sensor (not shown), casing 101 right sides are provided with a pressure sensor interface 106 simultaneously, pressure sensor interface 106 is electrically connected with central control system 3, and pressure sensor institute measuring pressure value is presented on the central control system 3, during with monitoring in the upper-deck cabin body 1 negative pressure value can remain on-50Pa～-100Pa between.

In the foregoing description, casing 101 right sides also are provided with four pipe joints 107 that can connect extraneous pipeline, to satisfy the needs of kinds of experiments chamber research, infect and the infection animal raising as propagating between respiratory infectious disease pathogenic microorganism animal breath road infection experiment, simulating nature animal, and the scientific research of suction toxicity needs.

Following cabin body 2 comprises a casing 201 that links into an integrated entity with upper-deck cabin body 1, and casing 201 front sides are provided with some fan ADs 202, are provided with handle 203 on every fan AD 202, wherein also is provided with a touch-screen runing rest 204 on the fan AD 203.Casing 201 left and right sides are respectively arranged with a ventilating fan 205, and casing 201 bottoms are provided with some universal caster wheels 206 and spiral lifting support 207.

Central control system 3 adopts the touch screen control system, and it is made of control software, integrated circuit and rotatable touch-screen, and is installed on the touch-screen runing rest 204, is used for controlling the various working procedures that exhaust ventilation purifies all parts in the decontamination system 4.

As Fig. 1, Fig. 3, shown in Figure 4, exhaust ventilation purifies decontamination system 4 and is arranged on down in the cabin body 2, it comprises the air draft one-level highly effective particle filter 401 that connects successively by ventilation shaft 5, air draft secondary highly effective particle filter 402, exhaust blower 403, three-way connection 404, the electronic airtight valve 405 of pipeline, three-way connection 406 and air-supply one-level highly effective particle filter 407, the 3rd end of three-way connection 404 connects laboratory exhaust system (not shown) by the electronic airtight valve 408 of air draft, and the 3rd end of three-way connection 406 connects a pressure fan 410 by the electronic airtight valve 409 of air-supply.The middle part of ventilation shaft 5 connects a gas depoisoning equipment 412 by the electronic airtight valve 411 of sterilization.The air intake of air draft one-level highly effective particle filter 401 is communicated with the air outlet of upper-deck cabin body 1 by air supply duct 6, the outlet air end of air-supply one-level highly effective particle filter 407 is communicated with the air inlet of upper-deck cabin body 1 by exhaust duct 7, thereby forms independent supply and exhaust, can carry out air cleaning and sterilization, the bio-safety of negative pressure isolation protects the cabin.

In the foregoing description, be provided with a differential pressure pickup 413 on air draft one-level highly effective particle filter 401 and the air draft secondary highly effective particle filter 402, differential pressure pickup 413 is electrically connected central control system 3, and institute is surveyed numerical value be presented on the central control system 3, whether stop up to detect air draft one-level highly effective particle filter 401 and air draft secondary highly effective particle filter 402, can normal filtration use.

In the foregoing description, exhaust blower 403 and pressure fan 410 are electrically connected a frequency converter 414, frequency converter 414 is electrically connected central controller 3, analog quantity by frequency converter 414 is regulated, outer air draft of Monitoring and Controlling and the ratio variation that enters wind, the motor speed of increase/reduction exhaust blower 403 and pressure fan 410 keeps advancing/the air draft constant rate automatically, make the air-flow by upper-deck cabin body 1 keep constant, with guarantee self-loopa wind upper-deck cabin body 1 inside reach negative pressure value-50Pa～-100Pa between.

In the foregoing description, air draft one-level highly effective particle filter 401, air draft secondary highly effective particle filter 402, exhaust blower 403, air-supply one-level highly effective particle filter 407, gas depoisoning equipment 412 and frequency converter 414 all are fixedly connected on the base heat radiation orifice plate 415, and 415 of orifice plates of base heat radiation are fixedly connected on down on the base plate of cabin body 2.

As Fig. 5, shown in Figure 6, pass-through box 105 is made up of forms 1051, stainless steel inner container 1052, inner door 1053 and outer door 1054, and inside and outside side door 1053,1054 is made of window 10501, quiet knocker 10502, moving knocker 10503, fixed gate piece 10504, window mandrel 10505, knuckle buster 10506, safety glass window 10507 and annex door-hinge 10508 etc.

Describe operation principle of the present utility model below in detail:

1, supply and exhaust cleaning system flow process: as Fig. 4, shown in Figure 7, when air carries out ventilation cleaning in to the bio-safety cabin, close pass-through box 105 in, outer door 1053,1054, connect power supply, open central control system 3, start pressure fan 410 from the indoor wind regime of taking, and unlatching electronic airtight valve 409 of air-supply and the electronic airtight valve 408 of air draft, close electronic airtight valve 411 of sterilization and the electronic airtight valve 405 of pipeline simultaneously, air-flow in the bio-safety cabin flow through successively the air-supply the electronic airtight valve 409 → electronic airtight valve of air-supply one-level highly effective particle filter 407 → upper-deck cabin body 1 → air draft one-level highly effective particle filter 401 → air draft secondary highly effective particle filter 402 → exhaust blower, 403 → air draft 408 → laboratory exhaust system, thereby finish the ventilation cleaning that air in the bio-safety cabin is sent out.

2, gas depoisoning circulatory system flow process: when air and surface carry out disinfection in to the bio-safety cabin, gas depoisoning cyclic program in the operation central control system 3, open the electronic airtight valve 409 of air-supply, the electronic airtight valve 405 of electronic airtight valve 411 and pipeline of sterilizing, gas depoisoning equipment 412 is sent gaseous decontaminant into ventilation shaft by the electronic airtight valve 411 of sterilizing, gaseous decontaminant is with the air-flow electronic airtight valve 405 of the pipeline → air-supply one-level highly effective particle filter 407 → upper-deck cabin body 1 → air draft one-level highly effective particle filter 401 → air draft secondary highly effective particle filter 402 → exhaust blower 403 of flowing through successively, and gaseous decontaminant can make the inner surface of upper-deck cabin body 1 and the outer surface of interior items, pass-through box 105 inner surfaces reach pasteurised completely.After finishing the gas depoisoning program, start the electronic airtight valve 408 of exhaust outlet, gas after the sterilization in the upper-deck cabin body 1 is discharged the laboratory through the laboratory exhaust system.

3, in the time of in article pass in and out upper-deck cabin body 1, clean article enter from the right pass-through box 105 of air outlet one side, operating personnel close the inner door 1053 of pass-through box 105 earlier by the oversleeve of oversleeve gathering hole 104, open outer door 1054 again, clean article are put into pass-through box 105, close outer door 1054, open inner door 1053 afterwards, take out clean article, put into casing 101; When article unnecessary or that other do not need need take out, close the outer door 1054 of exhaust outlet one side pass-through box 105 earlier, operating personnel open the inner door 1053 of exhaust outlet one side pass-through box 105 earlier by the oversleeve of oversleeve gathering hole 104, the article that will take out are put into pass-through box 105, close inner door 1053, open outer door 1054 afterwards and take out clean article.

The utility model only describes with the foregoing description; the structure of each parts, the position is set and connects and all can change to some extent; on the basis of technical solutions of the utility model; all improvement and equivalents of individual component being carried out according to the utility model principle all should not got rid of outside protection domain of the present utility model.

Claims (15)

1. bio-safety protection cabin is characterized in that: it comprises that following cabin body, a central control system and that a upper-deck cabin body, connects as one with described upper-deck cabin body are arranged on the exhaust ventilation purification decontamination system in the described cabin body down;

Described upper-deck cabin body comprises an airtight negative pressure casing, described negative pressure casing top is provided with some fluorescent lamps, both sides are respectively arranged with at least one perspective window before and after the described negative pressure casing, described perspective window below is provided with several oversleeve gathering holes, and the described negative pressure casing left and right sides is respectively arranged with a pass-through box;

Described exhaust ventilation purifies decontamination system and comprises air draft one-level highly effective particle filter, air draft secondary highly effective particle filter, exhaust blower, first three-way connection, the electronic airtight valve of pipeline, second three-way connection and the air-supply one-level highly effective particle filter that connects successively by ventilation shaft; The 3rd end of described first three-way connection connects the laboratory exhaust system by the electronic airtight valve of air draft, and the 3rd end of described second three-way connection connects a pressure fan by the electronic airtight valve of blowing; The middle part of described ventilation shaft connects a gas depoisoning equipment by the electronic airtight valve of sterilizing; The air intake of described air draft one-level highly effective particle filter is communicated with by the air outlet of air supply duct with described upper-deck cabin body, and the outlet air end of described air-supply one-level highly effective particle filter is communicated with by the air inlet of exhaust duct with described upper-deck cabin body;

Described central control system is used for controlling the various working procedures that described exhaust ventilation purifies all parts in the decontamination system.

2. bio-safety protection as claimed in claim 1 cabin, it is characterized in that: described negative pressure box house is provided with a pressure sensor, described negative pressure casing one side is provided with a pressure sensor interface, and described pressure sensor interface is electrically connected with described central control system.

3. bio-safety protection as claimed in claim 1 cabin, it is characterized in that: described negative pressure casing one side also is provided with the pipe joint that several can connect extraneous pipeline.

4. bio-safety protection as claimed in claim 2 cabin, it is characterized in that: described negative pressure casing one side also is provided with the pipe joint that several can connect extraneous pipeline.

5. as claim 1 or 2 or 3 or 4 described bio-safety protection cabins, it is characterized in that: described cabin body down comprises a casing, described casing front side is provided with some fan ADs, be provided with handle on the described AD of every fan, wherein also be provided with a touch-screen runing rest on the described AD of a fan; The described casing left and right sides is respectively arranged with a ventilating fan, and described bottom half is provided with some universal caster wheels and spiral lifting support.

6. bio-safety protection as claimed in claim 5 cabin, it is characterized in that: described central control system adopts the touch screen control system, and it is made of control software, integrated circuit and rotatable touch-screen, and is installed on the described touch-screen runing rest.

7. as claim 1 or 2 or 3 or 4 or 6 described bio-safety protection cabins, it is characterized in that: be provided with a differential pressure pickup on described air draft one-level highly effective particle filter and the air draft secondary highly effective particle filter, described differential pressure pickup is electrically connected described central control system.

8. as claim 1 or 2 or 3 or 4 or 6 described bio-safety protection cabins, it is characterized in that: described exhaust blower and pressure fan are electrically connected a frequency converter, and described frequency converter is electrically connected described central controller.

9. bio-safety protection as claimed in claim 5 cabin, it is characterized in that: described exhaust blower and pressure fan are electrically connected a frequency converter, and described frequency converter is electrically connected described central controller.

10. bio-safety protection as claimed in claim 7 cabin, it is characterized in that: described exhaust blower and pressure fan are electrically connected a frequency converter, and described frequency converter is electrically connected described central controller.

11. bio-safety protection as claimed in claim 8 cabin, it is characterized in that: described air draft one-level highly effective particle filter, air draft secondary highly effective particle filter, exhaust blower, air-supply one-level highly effective particle filter, gas depoisoning equipment and frequency converter all are fixedly connected on the base heat radiation orifice plate, and described base heat radiation orifice plate then is fixedly connected on the base plate of described cabin body down.

12. as claim 9 or 10 described bio-safety protection cabins, it is characterized in that: described air draft one-level highly effective particle filter, air draft secondary highly effective particle filter, exhaust blower, air-supply one-level highly effective particle filter, gas depoisoning equipment and frequency converter all are fixedly connected on the base heat radiation orifice plate, and described base heat radiation orifice plate then is fixedly connected on the base plate of described cabin body down.

13. as claim 1 or 2 or 3 or 4 or 6 or 9 or 10 described bio-safety protection cabins, it is characterized in that: described pass-through box is made up of forms, stainless steel inner container, inner door and outer door, and described inside and outside side door is made of window, quiet knocker, moving knocker, fixed gate piece, window mandrel, knuckle buster, safety glass window and annex door-hinge.

14. bio-safety protection as claimed in claim 5 cabin, it is characterized in that: described pass-through box is made up of forms, stainless steel inner container, inner door and outer door, and described inside and outside side door is made of window, quiet knocker, moving knocker, fixed gate piece, window mandrel, knuckle buster, safety glass window and annex door-hinge.

14, bio-safety as claimed in claim 7 is protected the cabin, it is characterized in that: described pass-through box is made up of forms, stainless steel inner container, inner door and outer door, and described inside and outside side door is made of window, quiet knocker, moving knocker, fixed gate piece, window mandrel, knuckle buster, safety glass window and annex door-hinge.

14, bio-safety as claimed in claim 8 is protected the cabin, it is characterized in that: described pass-through box is made up of forms, stainless steel inner container, inner door and outer door, and described inside and outside side door is made of window, quiet knocker, moving knocker, fixed gate piece, window mandrel, knuckle buster, safety glass window and annex door-hinge.

15. bio-safety protection as claimed in claim 12 cabin, it is characterized in that: described pass-through box is made up of forms, stainless steel inner container, inner door and outer door, and described inside and outside side door is made of window, quiet knocker, moving knocker, fixed gate piece, window mandrel, knuckle buster, safety glass window and annex door-hinge.

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