CN210342796U - But quick assembly disassembly type negative pressure detection laboratory - Google Patents

Abstract

The utility model relates to a negative pressure detection laboratory capable of being quickly disassembled and assembled, which is composed of wall modules in a modular assembly mode, wherein the interior of the negative pressure detection laboratory is divided into a detection operation room, a bath room, a sewage disinfection room, a sewage secondary packaging room and an autoclave room which are mutually separated, and the internal air pressure is lower than the ambient atmospheric pressure when the negative pressure detection laboratory is used; the negative pressure detection laboratory also comprises an air conditioner fan system operation area for realizing ventilation and exhaust in the negative pressure detection laboratory. Compared with the prior art, the utility model discloses negative pressure detection room can splice fast and dismantle, but intelligent remote monitoring possesses good biosafety, adapts to for example the detection inspection work of viruses such as new coronary pneumonia virus or microorganism.

Description

But quick assembly disassembly type negative pressure detection laboratory

Technical Field

The utility model belongs to the technical field of medical equipment, especially, relate to a but quick assembly disassembly type negative pressure detects laboratory.

Background

The outbreak and the spread of the new corolla pneumonia virus bring endless pains to patients, inconvenience to the lives of the masses of people and serious economic loss to the nation. During epidemic outbreak, the number of patients is increased rapidly, the medical conditions in some serious disaster areas are not enough to deal with the sudden illness, and especially, the number of detection laboratories is small, so that the waiting time of many patients for confirmation diagnosis is long.

The detection work of pathogenic microorganisms is generally carried out in a negative pressure detection room, the conventional negative pressure detection room is built by adopting the measures of building construction, the construction period is long, the construction cost is high, and the detection is not enough to deal with the detection of pathogenic microorganisms which are suddenly infected in a large area. The requirement of the outburst epidemic situation is difficult to meet through the form of temporarily expanding the number of the traditional negative pressure detection rooms.

Therefore, there is a need for a quick-release negative pressure test room to accommodate emergencies such as new coronavirus that may lead to a large diagnostic requirement.

Disclosure of Invention

To the problem that the breach is great, and the tradition detects the laboratory construction cycle length when handling the proruption situation of current detection laboratory quantity, the utility model aims to provide a but quick assembly disassembly type negative pressure detection laboratory, this negative pressure detection laboratory can assemble the dismantlement fast, and convenient the removal, the place requires lowly, and construction period is short, can use repeatedly, can be used to deal with some proruption medical conditions to the demand that detects laboratory quantity.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides a but quick assembly disassembly type negative pressure detection laboratory, the negative pressure detection laboratory adopts the modularization mode of assembling to constitute by the wall body module, the inside part of negative pressure detection laboratory is between the detection operation that separates each other, the bathing room, the filth disinfection room, between filth secondary packing and the autoclaving, inside atmospheric pressure is less than environment atmospheric pressure when negative pressure detection laboratory uses.

The negative pressure detection laboratory also comprises an air conditioner fan system operation area for realizing ventilation and exhaust in the negative pressure detection laboratory.

The utility model discloses an in an embodiment, set up door and window module, pass-through box module, air conditioner fan module or intelligent control module in the wall body module.

The door and window module is a stainless steel door with a window, and comprises a door frame and a door and window, wherein the door frame is connected with a wall body in a clamping groove or bolt mode, and all joints achieve a sealing effect through sealing strips.

The delivery window module is a logistics channel, is embedded in the wall body and penetrates through the wall body, and the joint is fixed and then sealed by glass cement.

The utility model discloses an in an embodiment, assemble the back fast through the mode of draw-in groove or bolt between the wall body module, reinforce at junction reuse screw to glue with glass and seal joint department. Or after the door and window module, the delivery window module, the air conditioner fan module or the intelligent control module and the wall body module are quickly assembled in a mode of a clamping groove or a bolt, the joints are reinforced by screws, and the joints are sealed by glass cement.

The utility model discloses an in one embodiment, the wall body module includes bottom plate, curb plate and roof, and the bottom plate adopts stainless steel with the roof, and the curb plate divide into two kinds, one kind be full stainless steel frame construction, one kind comprises stainless steel frame and glass, and double-deck clear glass inlays in stainless steel frame, and glass is located the position of visual height.

In an embodiment of the present invention, the size of the wall module includes a regular size and a customized size, and can be changed according to actual conditions. The top plate, the bottom plate and the side plates are quickly connected in a clamping groove or a bolt mode, and all connecting parts can be further reinforced by screws and can be sealed by glass cement.

The utility model discloses an in an embodiment, the height of wall body module can carry out nimble concatenation according to the site conditions, and the total height is steerable in the within range of 2.6 meters to 3.5 meters.

The adopted stainless steel material and glass material can ensure smooth and flat surface, do not generate dust, are easy to clean and disinfect and meet the requirements of GMP factory buildings.

The utility model discloses an in an embodiment, pre-buried electric wire way, socket, fan pipeline, gas pipeline, water pipeline are used among the wall body module.

The utility model discloses an in one embodiment, type negative pressure detection laboratory is two-layer structure, and the lower floor is the functional layer, including between the detection operation that separates each other, between the bathing, between filth disinfection, between filth secondary packing and between autoclaving, the upper strata is air conditioner fan system architecture arrangement layer, and wherein upper clean system tuber pipe arrangement layer is minimum highly can only be 0.3 meters. The air conditioner fan system operation area is located the major structure side.

The utility model discloses an in one embodiment, negative pressure test laboratory is inside still to include between first buffering and the second buffering, be equipped with the access & exit that is used for business turn over negative pressure test laboratory between first buffering, the passgate communicates with each other between first buffering and the second buffering, the passgate communicates with each other between second buffering and the detection operation room, the passgate communicates with each other between the second buffering still and the bathroom between, the bathroom still communicates with each other with the passgate between the first buffering.

A fifth transfer window is arranged between the sewage sterilizing room and the sewage secondary packaging room, a third transfer window is arranged between the sewage sterilizing room and the second buffering room, a fourth transfer window is arranged between the sewage sterilizing room and the bath room, and a second transfer window is arranged between the first buffering room and the bath room.

And a first transfer window is directly arranged outside the detection operation room and the negative pressure detection laboratory.

The high-pressure sterilization room is close to the sewage sterilization room and the sewage secondary packaging room, and a sixth transfer window is arranged between the high-pressure sterilization room and the sewage secondary packaging room.

And an entrance and an exit for entering and exiting the negative pressure detection laboratory are arranged in the high-pressure sterilization room.

A door is arranged between the sewage sterilizing room and the detection operating room.

And a door is arranged between the sewage secondary packaging room and the detection operation room.

Communicating with each other with the sanitizer entry between filth secondary packing, the entry of sanitizer entry is the entry that gets into the negative pressure detection laboratory, still communicate with each other with the first export of sanitizer between filth secondary packing, the first export of sanitizer communicates with each other with the export of sanitizer second, the export of sanitizer second is for leaving the export of negative pressure detection laboratory.

The first buffer room and the bath room are clean areas, the second buffer room is a potential pollution area, the detection operation room is a pollution area, the air pressure is gradually decreased from the clean area, the potential pollution area to the pollution area, and the air pressure in the clean area is smaller than the atmospheric pressure.

In an embodiment of the present invention, the absolute value of the pressure difference in the air pressure decreasing region is not less than 15 pa.

The utility model discloses when can regard as infectious disease to detect the room and use, the function similar to clean room between bathing room, first buffering, the function of similar potential pollution area between the second buffering, the function of similar pollution area between the detection operation, its atmospheric pressure from clean area to pollution area steadilys decrease in proper order, and clean area atmospheric pressure is less than atmospheric pressure.

The negative pressure detection laboratory human flow channel has the inlet flow direction from the first buffer room to the second buffer room to the detection operation room, and the outlet flow direction from the detection operation room to the second buffer room to the bath room to the first buffer room, so that the requirement of the infectious disease detection room is met.

The utility model discloses a good planar structure design, the stream of people business turn over accords with the requirement in infectious disease detection room to design solitary clean passageway and carry out strict disinfection and isolation to the filth and handle, be fit for dealing with the detection of infectious disease microorganism such as similar SARS, new crown pneumonia virus.

The utility model discloses an in the implementation way, be equipped with test bench, safety cabinet glove box, incubator, refrigerator in the detection operation room.

The test bed, the safety cabinet glove box, the incubator and the refrigerator can meet the detection of pathogenic microorganisms.

In an embodiment of the present invention, an ultraviolet disinfection lamp is installed in each closed area in the negative pressure detection laboratory, and each room can be disinfected to sterilize.

The utility model discloses an in one embodiment, be provided with intelligent control module on the curb plate in the outside of negative pressure detection laboratory.

The intelligent control module comprises an intelligent monitoring system and a remote control system, the intelligent monitoring system monitors equipment, and the signal receiving equipment is connected with the intelligent panel and the mobile phone, so that monitoring information can be checked by the intelligent panel and also can be remotely checked by the mobile phone; the remote control system is connected with the control panel through a mobile phone to realize remote control.

The intelligent control module is connected with a particle counter, a temperature probe, a humidity probe, a refrigerator and an incubator in the negative pressure laboratory respectively by adopting a wireless monitor, and is used for monitoring the particle number and the temperature and humidity in the negative pressure laboratory.

The intelligent control module is connected with the ultraviolet lamp, the safety cabinet glove box and the air conditioner fan system through a wireless monitor, the intelligent controller is further connected with the remote control system, and the switch of the ultraviolet lamp, the switch of the air conditioner fan and the switch of the safety cabinet glove box can be remotely controlled.

Adopt intelligent control system to control air conditioner fan system, ultraviolet disinfection system, can closely control, also can carry out remote control through the APP system, realize remote operation air conditioner fan system, ultraviolet disinfection system.

The utility model discloses an in an embodiment, negative pressure detection laboratory exhaust system adopts dual high efficiency filter, guarantees that pathogenic microorganism is held back completely in the negative pressure room, does not leak to in the external environment.

The utility model discloses an in an embodiment, negative pressure detection laboratory air exhaust pipe's end installs small-size ultraviolet cleaning device additional, carries out the inactivation disinfection to the pathogenic microorganism who holds back on the filter.

The utility model discloses the requirement of P3 biological safety detection laboratory is satisfied to the pressure differential requirement of negative pressure detection laboratory, and to the detection operation within a definite time between the second buffering from first buffering, pressure reduces in proper order, and the pressure differential absolute value is greater than 15 handkerchiefs to 1 pressure differential is less than normal atmospheric pressure 15 handkerchiefs between the first buffering.

Compared with the prior art, the utility model discloses have following advantage and beneficial effect:

the assembled negative pressure detection laboratory can be assembled again for repeated use after being disassembled.

The utility model discloses negative pressure test laboratory has solved the drawback that receives the restriction of place floor height, and the biological safety test laboratory total floor height of ordinary negative pressure is not less than 4 meters, and this negative pressure equipment can be assembled in the building that the floor height is not less than 2.6 meters and use.

The utility model discloses the negative pressure detection laboratory is provided with intelligent control module, and accessible remote control system can carry out ultraviolet sterilization in advance, carries out air conditioner fan control in advance, provides convenience for the experimenter. The experiment site condition can be known in real time through a remote monitoring system, and the smooth proceeding of the experiment is ensured.

The negative pressure detection laboratory of the utility model can be used for detecting SARS, new coronary pneumonia and other viruses.

The utility model discloses negative pressure detection laboratory rational design people flows, commodity circulation passageway, rational design filth processing passageway.

The utility model discloses negative pressure detection room adopts dedicated filth processing passageway, and guarantee experimenter's safety when avoiding filth cross contamination between dedicated filth disinfection and filth autoclaving.

The utility model discloses negative pressure detection room can splice fast and dismantle, but intelligent remote monitoring possesses good biosafety, adapts to for example the detection inspection work of viruses such as new coronary pneumonia virus or microorganism.

Drawings

Fig. 1 is a schematic plan view of a negative pressure testing laboratory in example 1.

The reference numbers in the figures indicate:

1. air-conditioning fan system operation area, 2, test bench, 3, safety cabinet glove box, 4, incubator, 5, refrigerator, 6, curb plate, 7, door and window module, 8, sixth delivery window, 9, fifth delivery window, 10, fourth delivery window, 11, third delivery window, 12, second delivery window, 13, first delivery window, 14, intelligent control module, 15, first buffer room, 16, second buffer room, 17, bath room, 18, detection operation room, 19, filth disinfection room, 20, filth secondary packaging room, 21, cleaning personnel entry, 22, cleaning personnel first exit, 23, cleaning personnel second exit, 24, autoclaving room.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

Referring to fig. 1, the present embodiment provides a quick detachable negative pressure testing laboratory, the negative pressure testing laboratory is composed of wall modules in a modular assembly manner, the interior of the negative pressure testing laboratory is divided into a testing operation room 18, a bath room 17, a waste disinfection room 19, a waste secondary packaging room 20 and an autoclave room 24 which are separated from each other, and when the negative pressure testing laboratory is used, the internal air pressure is lower than the ambient atmospheric pressure; the negative pressure detection laboratory also comprises an air conditioner fan system operation area 1 for realizing ventilation and exhaust in the negative pressure detection laboratory.

In this embodiment, the wall module is provided with a door and window module 7, a transfer window module, an air conditioner fan module or an intelligent control module 14; the door and window module is a stainless steel door with a window, and comprises a door frame and a door and window, wherein the door frame is connected with a wall body in a clamping groove or bolt mode, and all connecting parts achieve a sealing effect through sealing strips; the delivery window module is a logistics channel, is embedded in the wall body and penetrates through the wall body, and the joint is fixed and then sealed by glass cement.

In this embodiment, after the wall modules are quickly assembled in a mode of a clamping groove or a bolt, the joints are reinforced by screws, and the joints are sealed by glass cement. Or after the door and window module 7, the transfer window module, the air conditioner fan module or the intelligent control module 14 and the wall body module are quickly assembled in a mode of a clamping groove or a bolt, the joints are reinforced by screws, and the joints are sealed by glass cement.

In this embodiment, the wall body module includes bottom plate, curb plate 6 and roof, and bottom plate and roof adopt stainless steel material, and the curb plate divide into two kinds, and one kind is full stainless steel frame construction, and one kind comprises stainless steel frame and glass, and double-deck transparent glass inlays in stainless steel frame, and glass is located the position of visual height.

In this embodiment, the dimensions of the wall module include conventional dimensions and custom dimensions, which may vary depending on the actual situation. The top plate, the bottom plate and the side plates are quickly connected in a clamping groove or a bolt mode, and all connecting parts can be further reinforced by screws and can be sealed by glass cement.

In this embodiment, the height of the wall modules can be flexibly spliced according to site conditions, and the total height can be controlled within the range of 2.6 meters to 3.5 meters.

In this embodiment, the stainless steel material and the glass material of adoption can guarantee that the surface is smooth level and smooth, do not go dirty, clean the disinfection easily, satisfy the GMP factory building requirement.

In this embodiment, pre-buried electric wire way, socket, fan pipeline, gas pipeline, water pipeline use in the wall body module.

In this embodiment, the negative pressure detection laboratory has a two-layer structure, the lower layer is a functional layer, and includes a detection operation room 18, a bath room 17, a dirt disinfection room 19, a dirt secondary packaging room 20 and an autoclave room 24 which are separated from each other, the upper layer is an air conditioner fan system structure arrangement layer, and the minimum height of an upper layer purification system air pipe arrangement layer can be only 0.3 m. The air conditioner fan system operation area is located the major structure side.

In this embodiment, the negative pressure detection laboratory further includes a first buffer room 15 and a second buffer room 16, the first buffer room 15 is provided with an entrance for entering and exiting the negative pressure detection laboratory, the first buffer room 15 is communicated with the second buffer room 16 through a door, the second buffer room 16 is communicated with the detection operation room 18 through a door, the second buffer room 16 is further communicated with the bath room 17 through a door, and the bath room 17 is further communicated with the first buffer room 15 through a door.

A fifth transfer window 9 is arranged between the sewage sterilizing room 19 and the sewage secondary packaging room 20, a third transfer window 11 is arranged between the sewage sterilizing room 19 and the second buffer room 16, a fourth transfer window 10 is arranged between the sewage sterilizing room 19 and the bath room 17, and a second transfer window 12 is arranged between the first buffer room 15 and the bath room 17.

The first transmission window 13 is directly arranged outside the detection operation room 18 and the negative pressure detection laboratory.

The autoclave 24 is arranged close to the sewage sterilizing room 19 and the sewage secondary packaging room 20, and a sixth transfer window 8 is arranged between the autoclave 24 and the sewage secondary packaging room 20.

The autoclave 24 is provided with an entrance for entering and exiting the negative pressure detection laboratory.

A door is arranged between the sewage sterilizing chamber 19 and the detection operating chamber 18.

A door is arranged between the dirt secondary packaging room 20 and the detection operation room 18.

Between 20 and the cleaner entry 21 communicate with each other between filth secondary packing, the entry of cleaner entry 21 for getting into the negative pressure and detecting the entry in laboratory, 20 still communicate with each other with the first export 22 of cleaner between filth secondary packing, the first export 22 of cleaner communicates with each other with cleaner second export 23, cleaner second export 23 is for leaving the export of negative pressure and detecting the laboratory.

In this embodiment, the test bed 2, the glove box 3 of the safety cabinet, the incubator 4, and the refrigerator 5 are disposed in the detection operation room 18. The test bed 2, the safety cabinet glove box 3, the incubator 4 and the refrigerator 5 are arranged to meet the detection of pathogenic microorganisms.

The first buffer room 15 and the bath room 17 are clean areas, the second buffer room 16 is a potential pollution area, the detection operation room 18 is a pollution area, the air pressure is decreased from the clean area, the potential pollution area to the pollution area, and the air pressure in the clean area is smaller than the atmospheric pressure.

In this embodiment, the absolute value of the pressure difference in the air pressure decreasing region is not less than 15 pa.

When the embodiment can be used as an infectious disease detection room, the bathing room and the first buffer room have the functions similar to a clean room, the second buffer room has the functions similar to a potential pollution area, and the detection operation room has the functions similar to a pollution area, the air pressure of the detection operation room is gradually decreased from the clean area to the pollution area, and the air pressure of the clean area is less than the atmospheric pressure.

The flow channel of the negative pressure detection laboratory is that the inlet flow direction is from the first buffer room 15 to the second buffer room 16 to the detection operation room 18, and the outlet flow direction is from the detection operation room 18 to the second buffer room 16 to the bath room 17 to the first buffer room 15, which meets the requirements of the infectious disease detection room.

In the embodiment, the design of an excellent plane structure is adopted, the people flow in and out to meet the requirements of an infectious disease detection room, and an independent cleaning channel is designed to carry out strict disinfection and sterilization treatment on sewage, so that the device is suitable for detecting infectious disease microorganisms such as SARS (Severe acute respiratory syndrome), new coronary pneumonia virus and the like.

In this embodiment, an ultraviolet disinfection lamp is installed in each closed area in the negative pressure detection laboratory, and each room can be disinfected to sterilize.

In this embodiment, an intelligent control module 14 is arranged on a side plate outside the negative pressure detection laboratory, the intelligent control module 14 includes an intelligent monitoring system and a remote control system, the intelligent monitoring system monitors equipment, and signal receiving equipment is connected with an intelligent panel and a mobile phone, so that monitoring information can be viewed by the intelligent panel, and monitoring information can also be viewed remotely by the mobile phone; the remote control system is connected with the control panel through a mobile phone to realize remote control. The intelligent control module 14 is connected with a particle counter, a temperature probe, a humidity probe, a refrigerator and an incubator in the negative pressure laboratory by adopting a wireless monitor respectively, and is used for monitoring the particle number, the temperature and the humidity in the negative pressure laboratory. The intelligent control module 14 is connected with the ultraviolet lamp, the safety cabinet glove box and the air conditioner fan system by adopting a wireless monitor, and the intelligent controller is also connected with a remote control system and can remotely control the switch of the ultraviolet lamp, the switch of the air conditioner fan and the switch of the safety cabinet glove box. Adopt intelligent control system to control air conditioner fan system, ultraviolet disinfection system, can closely control, also can carry out remote control through the APP system, realize remote operation air conditioner fan system, ultraviolet disinfection system.

In this embodiment, the negative pressure detection laboratory exhaust system adopts dual high-efficiency filters, and ensures that pathogenic microorganisms are completely trapped in the negative pressure room and do not leak to the external environment.

In this embodiment, a small ultraviolet cleaning device is additionally installed at the tail end of the exhaust air pipe of the negative pressure detection laboratory to inactivate and disinfect pathogenic microorganisms trapped on the filter.

In this embodiment, the pressure difference requirement of the negative pressure detection laboratory meets the requirement of the P3 biosafety detection laboratory, the pressure decreases from the first buffer room to the second buffer room to the detection operation room in sequence, the absolute value of the pressure difference is greater than 15 pa, and the pressure difference between the first buffer rooms is less than 15 pa of the normal atmospheric pressure.

In the embodiment, the bath room is provided with an upper water channel and a lower water channel, the upper water channel and the lower water channel are connected with an outdoor water supply pipeline through water pipelines during installation, and the lower water channel is connected with an outdoor drainage pipeline in a clean floor drain mode.

When the laboratory of the embodiment is used, an experimenter enters a negative pressure laboratory channel and sequentially comprises a first buffer room 15, a second buffer room 16 and a detection operation room 18; the laboratory staff leaves the negative pressure detection chamber and sequentially comprises a detection operation room 18, a second buffer room 16, a bath room 17 and a first buffer room 15; a cleaner enters the negative pressure detection laboratory through the cleaner inlet 21 and leaves the negative pressure laboratory through the cleaner first outlet 22 and the cleaner second outlet 23 in sequence; the detection reagent and the consumable material enter the detection operation room through the first transfer window; the bath-related articles enter the bath room through the second delivery window; potential pollution dirt in the second buffer room enters the dirt disinfection room through the third transfer window for disinfection treatment; potential pollutants in the bath room enter the sewage disinfection room through the fourth transfer window; the sewage in the sewage sterilizing room enters the sewage secondary packaging room through the fifth transfer window; and the secondarily packaged dirt enters an autoclave sterilization room through a sixth delivery window to be autoclaved.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (10)

1. A negative pressure detection laboratory capable of being quickly disassembled and assembled is characterized in that the negative pressure detection laboratory is composed of wall body modules in a modularized assembling mode, the interior of the negative pressure detection laboratory is divided into a detection operation room (18), a bath room (17), a sewage disinfection room (19), a sewage secondary packaging room (20) and an autoclave room (24), which are mutually separated, and when the negative pressure detection laboratory is used, the internal air pressure is lower than the ambient atmospheric pressure;

the negative pressure detection laboratory also comprises an air conditioner fan system operation area (1) for realizing ventilation and exhaust in the negative pressure detection laboratory.

2. The negative pressure detection laboratory capable of being rapidly disassembled and assembled according to claim 1, wherein a door and window module (7), a transmission window module, an air conditioner fan module or an intelligent control module (14) is arranged on the wall body module;

the door and window module is a stainless steel door with a window, and comprises a door frame and a door and window, wherein the door frame is connected with a wall body in a clamping groove or bolt mode, and all connecting parts achieve a sealing effect through sealing strips;

the delivery window module is a logistics channel, is embedded in the wall body and penetrates through the wall body, and the joint is fixed and then sealed by glass cement.

3. The negative pressure detection laboratory capable of being disassembled and assembled quickly as claimed in claim 1, wherein the wall body module comprises a bottom plate, side plates (6) and a top plate, the bottom plate and the top plate are made of stainless steel, the side plates are divided into two types, one type is an all-stainless steel frame structure, the other type is composed of a stainless steel frame and glass, a double-layer transparent glass is embedded in the stainless steel frame, and the glass is located at a position with a visible height.

4. The negative pressure detection laboratory capable of being disassembled and assembled quickly as claimed in claim 3, wherein the top plate, the bottom plate and the side plate are connected quickly by means of a clamping groove or a bolt.

5. The negative pressure detection laboratory capable of being disassembled and assembled quickly as claimed in claim 1, wherein the wall module is embedded with an electric line, a socket, a fan pipeline, an air pipeline or a water pipeline.

6. The quick detachable type negative pressure detection laboratory according to claim 1, wherein the type negative pressure detection laboratory has a two-layer structure, the lower layer is a functional layer and comprises a detection operation room (18), a bath room (17), a dirt disinfection room (19), a dirt secondary packaging room (20) and an autoclave room (24) which are separated from each other, and the upper layer is an air conditioner fan system structure arrangement layer.

7. The negative pressure detection laboratory capable of being disassembled and assembled quickly as claimed in claim 1, wherein the detection operation room (18) is internally provided with a test bed (2), a safety cabinet glove box (3), an incubator (4) and a refrigerator (5).

8. The negative pressure test laboratory capable of being disassembled and assembled quickly as claimed in claim 1, wherein an ultraviolet disinfection lamp is installed in each closed area in the negative pressure test laboratory, and each room can be disinfected and sterilized.

9. The negative pressure detection laboratory capable of being disassembled and assembled quickly according to claim 1, wherein an intelligent control module (14) is arranged on the side plate outside the negative pressure detection laboratory,

the intelligent control module (14) comprises an intelligent monitoring system and a remote control system, the intelligent monitoring system monitors equipment, and the signal receiving equipment is connected with the intelligent panel and the mobile phone, so that monitoring information can be checked by the intelligent panel and also can be remotely checked by the mobile phone; the remote control system is connected with the control panel through a mobile phone to realize remote control.

10. The negative pressure detection laboratory capable of being quickly disassembled and assembled according to claim 1, wherein an exhaust system of the negative pressure detection laboratory adopts a double high-efficiency filter, and a small ultraviolet cleaning device is additionally arranged at the tail end of an exhaust air pipe of the negative pressure detection laboratory.

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