CN212053960U - Container - Google Patents

Abstract

The utility model discloses a container, which is characterized by comprising a container body provided with a first side wall plate, a second side wall plate, a first end wall plate and a second end wall plate; the inner cavity of the container body is divided into a plurality of functional spaces and equipment spaces by using an inner clapboard; the container provided by the embodiment also utilizes the internal partition plate to divide a cavity for communicating the detection rooms. The utility model discloses a container can accomplish all experiments and the operation of nucleic acid detection in the container, and the container body is not also walked out to the discrepancy between each detection space without personnel, therefore can arrive the detection scene fast, need not build and dispose at the scene, has greatly accelerated detection speed and has improved detection efficiency, strives for the time for the epidemic situation protection under the emergency.

Description

Container

Technical Field

The utility model relates to a medical equipment and container manufacturing field especially relate to a container.

Background

In the prior art, biological detection of viral molecules is usually performed in a laboratory set up in a hospital or a research institute, and usually has a plurality of detection chambers with different functions. However, in special cases, where detection needs to be performed at a place far from a laboratory or where large-scale detection is needed, for example, collected samples are sent back to a laboratory of a hospital or a research institute for processing and analysis, on one hand, the accuracy of detection may be reduced, and on the other hand, existing laboratories cannot meet a large number of detection requirements. This requires a temporary testing laboratory to be deployed at the testing site. In the prior art, a temporary detection laboratory is usually configured in a movable house built by movable plates, and the movable house needs to be built first, and facilities such as a strong electric line, a weak point line, equipment and instruments are configured in the movable house. This just needs to spend more time and manpower, and efficiency is lower, can't satisfy the high efficiency detection needs under the emergency, and this kind just needs a section to arrive the laboratory that can use fast on-the-spot of detection fast.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a container. The concrete steps are as follows;

a container comprises a container body provided with a first side wall plate (1), a second side wall plate (2), a first end wall plate (3) and a second end wall plate (4); the inner cavity of the container body is divided into a plurality of functional spaces and equipment spaces by using an inner clapboard; the container is also divided into a chamber (5) for communicating the detection rooms by an internal partition plate.

Optionally, the chamber (5) extends along the length of the container body and is located adjacent the second side wall panel (2).

Optionally, the functional space comprises a first detection room (6), a second detection room (7), a third detection room (8) and a sterilization room (9); said first detection compartment (6) being arranged along a second end wall panel (4) of said container body and adjacent to an end of said chamber (5); said second and third test bays (7, 8) being arranged along a first side wall panel (1) of the container body and adjacent to the sides of said chamber (5); the sterilization booth (9) is arranged along a first end wall panel (3) of the container body and adjacent to the other end of the chamber (5).

Optionally, a first door body (10) is arranged on a second side wall plate (2) of the chamber (5) close to the first detection room (6); a second door body (11) is arranged on a second side wall plate (2) of the chamber (5) close to the sterilization room (9); the sterilization room (9) is respectively provided with a third door body (12) and a fourth door body (13) along the diagonal direction; the third door body (12) is communicated with the chamber (5); the fourth door body (13) is communicated with the outside of the container body.

Optionally, a buffer channel is arranged between each of the first detection room (6) and the third detection room (8) and the chamber (5); two buffer channels are arranged between the second detection room (7) and the chamber (5).

Optionally, the buffer channel communicated with the first detection room (6) is a first buffer channel (14), and the inlet buffer channel communicated with the second detection room (7) is a second buffer channel (15); the buffer channel communicated with the third detection room (8) is a third buffer channel (16); the outlet buffer channel connected with the second detection room (7) is a fourth buffer channel (17); inlets of the first buffer channel (14) and the second buffer channel (15) are arranged opposite to the first door body (10), and the first buffer channel (14) and the second buffer channel (15) are arranged in parallel; the third buffer channel (16) and the fourth buffer channel (17) are arranged opposite to the second door body (11), and the third buffer channel (16) and the fourth buffer channel (17) are arranged in parallel.

Optionally, the equipment space comprises a first equipment room (18) and a second equipment room (19); the first equipment room (18) is arranged near one corner of the second side wall plate (2) and the second end wall plate (4); the second equipment room (19) is arranged at one corner close to the first side wall plate (1) and the first end wall plate (3), and the first equipment room (18) and the second equipment room (19) are both provided with equipment room door bodies (20) with shutter structures; an equipment maintenance door body (21) is further arranged on the first side wall plate (1).

Optionally, a first transmission window (22), a second transmission window (23) and a third transmission window (24); the first transmission window (22) is arranged on a partition board between the first detection room (6) and the second detection room (7); the second transmission window (23) is arranged on a partition between the second detection room (7) and the third detection room (8); the third conveying window (24) is arranged on the first side wall plate (1) and is communicated with the second detection room (7).

Optionally, the device is further provided with an exhaust duct, an air supply duct, a fan control system for controlling the air speed and the air direction of the exhaust duct and the air supply duct, and an air return channel arranged between the detection rooms.

Optionally, the air conditioner comprises a first air return channel, a second air return channel and a third air return channel, wherein the first air return channel is located between a first buffer channel (14) and a second buffer channel (15), the second air return channel is located between a third buffer channel (16) and a fourth buffer channel (17), and the third air return channel is located between a first detection room (6) and a second detection room (7).

Optionally, the first buffer passage (14) has a first partition wall, the first partition wall is opposite to the second buffer passage (15), the second buffer passage (15) has a second partition wall, the second partition wall is adjacent to the first partition wall and has a distance, the first partition wall and the second partition wall are arranged along the width direction of the container, a third partition wall is arranged between the first partition wall and the second partition wall and is arranged along the length direction of the container, and the first partition wall, the second partition wall and the third partition wall constitute the first air return passage between the first buffer passage (14) and the second buffer passage (15);

optionally, the third buffer passage (16) has a fourth partition wall, the fourth partition wall is opposite to the fourth buffer passage (17), the fourth buffer passage (17) has a fifth partition wall, the fourth partition wall is adjacent to and spaced from the fifth partition wall, the fourth partition wall and the fifth partition wall are arranged along the width direction of the container, a sixth partition wall is arranged between the fourth partition wall and the fifth partition wall and is arranged along the length direction of the container, and the fourth partition wall, the fifth partition wall and the sixth partition wall constitute the second return air passage between the third buffer passage (16) and the fourth buffer passage (17);

optionally, the first detection room (6) has a seventh partition wall, the seventh partition wall is opposite to the second detection room (7), the second detection room (7) has an eighth partition wall, the eighth partition wall is adjacent to the seventh partition wall and has a distance, the seventh partition wall and the eighth partition wall are arranged along the width direction of the container, the ninth partition wall is arranged between the seventh partition wall and the eighth partition wall and is arranged along the length direction of the container, and the seventh partition wall, the eighth partition wall and the ninth partition wall constitute the third return air channel between the first detection room (6) and the second detection room (7).

The container provided by the utility model can quickly reach the detection site to be directly put into use on one hand, and does not need to be built and internally configured; after the detection task is finished, the device can be quickly removed from the site without being dismantled, and is quick and efficient; on the other hand, the utility model provides a container, owing to increased the cavity that is used for the intercommunication each to detect the room, when the measurement personnel passed in and out between each detection, need not walk out the container, reduced the probability of incasement and the outer intercommunication of case, reduced the risk that the granule in the outside air influences inside cleanliness factor, reduced inside biological pathogen and diffused outside risk, also reduced the number of times that measurement personnel passed in and out the container and need change the protective clothing simultaneously, high-efficient safety more.

Drawings

Fig. 1 is a schematic plan view of a container according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment provides a container, which comprises a container body provided with a first side wall plate 1, a second side wall plate 2, a first end wall plate 3 and a second end wall plate 4; the inner cavity of the container body is divided into a plurality of functional spaces and equipment spaces by using an inner clapboard; the container provided by the embodiment also utilizes the internal partition plate to divide a cavity 5 for communicating all detection rooms. The technical personnel in the field can understand that the container provided by the embodiment can complete all experiments and operations of nucleic acid detection in the container, operators can enter and exit from each detection room without going out of the container, the probability of air intercommunication between the interior and the exterior of the container is reduced, the risk that particles in the outside air influence the inside cleanliness is reduced, the risk that internal biological pathogens are diffused to the outside is reduced, the frequency that protective clothing needs to be replaced when the operators enter and exit the container is reduced, and the container is more efficient and safer.

The chamber 5 extends along the length of the container body and is located adjacent the second side wall panel 2. As will be understood by those skilled in the art, this facilitates the communication between the chamber 5 and each detection room, and also facilitates the communication with the entrance/exit of the container for nucleic acid detection provided in this embodiment, and the space utilization of the chamber 5 is higher. Furthermore, the chamber 5 is arranged close to the second side wall plate 2, and the chamber 5 needs to be passed through when the container is accessed, so that the chamber 5 can further play a role in buffering the inside and the outside of the container, a buffer barrier is added on the original basis, the container is more beneficial to hierarchical protection, and the requirement on biological safety is more easily met.

The functional space comprises a first detection room 6, a second detection room 7, a third detection room 8 and a sterilization room 9; said first detection compartment 6 is arranged along the second end wall panel 4 of said container body and adjacent to the end of said chamber 5; said second and third test bays 7 and 8 are arranged along the first side wall panel 1 of the container body and adjacent to the sides of said chamber 5; the sterilization booth 9 is arranged along the first end wall panel 3 of the container body and adjacent to the other end of the chamber 5. As can be understood by those skilled in the art, the first detection room 6, the second detection room 7, the third detection room 8 and the sterilization room 9 are arranged around three sides of the chamber 5, so that the space utilization rate can be improved to the maximum extent, and people can conveniently enter and exit the detection rooms through the chamber 5 and enter and exit the nucleic acid detection container provided by the embodiment.

A first door body 10 is arranged on the second side wall plate 2 of the chamber 5 close to the first detection room 6; a second door body 11 is arranged on the second side wall plate 2 of the chamber 5 close to the sterilizing room 9. Those skilled in the art can understand that the first door 10 is used as an entrance for entering the container provided in this embodiment, and an operator enters the chamber 5 from the first door 10 and then enters each detection room through the door arranged between each detection room and the chamber 5, if a buffer channel is arranged outside the detection room, the operator enters the chamber 5 from the first entrance and then enters the detection room through the door arranged between the buffer channel of each detection room and the chamber 5 and then enters the buffer channel. The second door body 11 is used as an outlet of the container provided in this embodiment, and an operator goes out of the container body from the second door body 11 through the chamber 5 after going out of each detection room. The second door body 11 is arranged at a position close to the sterilization room 9, so that an operator can conveniently put articles to be sterilized into the sterilization box arranged in the sterilization room 9 when the operator walks out of the container for nucleic acid detection in the embodiment; meanwhile, the sterilization room 9 is arranged near the outlet, and when an operator leaves the container provided by the embodiment, the articles to be sterilized can be placed in the sterilization room 9 for sterilization; on the other hand, the sterilized articles can be delivered out of the container through a nearby independent outlet, so that cleaning personnel can conveniently treat the articles, the contact probability between the articles and the detection room in the container is lower, and the cleanliness and the biological safety of the detection room are better facilitated.

The sterilizing room 9 is provided with a third door body 12 and a fourth door body 13 along the diagonal direction respectively; the third door body 12 is communicated with the chamber 5; the fourth door body 13 is communicated with the outside of the container body. As can be understood by those skilled in the art, when the operator leaves the nucleic acid detection container provided by the embodiment from each detection room along the chamber 5, the articles to be sterilized are put into the sterilization box by entering the sterilization room 9 through the third door 12 near the outlet; when the waste in the sterilization room 9 needs to be cleaned, a cleaner enters and exits the sterilization room 9 from the fourth door body 13 without passing through the first door body 10 and the second door body 11, so that the contact probability of the cleaner and biological pathogens is reduced, and the influence on the air cleanliness of the interior due to the fact that external air enters each operation room is avoided.

A buffer channel is arranged between the first detection room 6 and the chamber 5 and between the third detection room 8 and the chamber 5; two buffer channels are arranged between the second detection room 7 and the chamber 5. As will be understood by those skilled in the art, the first detection chamber 6, the second detection chamber 7 and the third detection chamber 8, which are arranged in sequence from the inlet to the outlet, are sequentially used as a reagent preparation chamber, a sample processing chamber and a nucleic acid amplification analysis chamber, depending on the sequence of the nucleic acid detection process. The buffer channel is provided with two door bodies, and after people enter the buffer channel, one door body is closed and the other door body is opened, so that the spaces connected with the two ends of the buffer channel are always in an isolated state, and basically no air is directly communicated between the two doors. According to the biological safety requirement, the quantity and concentration of pathogens in the air of the reagent preparation room and the nucleic acid amplification analysis room are lower, and the same door body and buffer channel are used for the exit and entrance of the reagent preparation room and the nucleic acid amplification analysis room, so that the biological safety requirement can be met; because the probability of detecting that the collected sample carries biological pathogens is higher, and the quantity and the concentration of the pathogens in the air of the sample processing room are higher, the inlet and the outlet of the sample processing room need to be separately arranged, therefore, two buffer channels are designed in the sample processing room to be respectively used as the inlet channel of the sample processing room and the outlet channel of the sample processing room, and the biological safety requirement of the sample processing room is better met.

The buffer channel communicated with the first detection room 6 is a first buffer channel 14, and the inlet buffer channel communicated with the second detection room 7 is a second buffer channel 15; the buffer channel communicated with the third detection room 8 is a third buffer channel 16; the outlet buffer channel connected with the second detection room 7 is a fourth buffer channel 17; the first buffer channel 14 and the second buffer channel 15 are arranged opposite to the first door body 10, and the first buffer channel 14 and the second buffer channel 15 are arranged in parallel; the third buffer passage 16 and the fourth buffer passage 17 are disposed opposite to the second door body 11, and the third buffer passage 16 and the fourth buffer passage 17 are arranged in parallel. As can be understood by those skilled in the art, since the second detection room 7 extends in the length direction of the container, the chamber 5 also extends in the length direction of the container, the second detection room 7 and the chamber 5 are arranged side by side in the width direction of the container, and the inlet buffer channel and the outlet buffer channel of the second detection room 7 are respectively arranged close to the inlet and the outlet of the chamber 5, so as to better meet the operation requirements of sample processing, and also keep the inlet and the outlet of the sample processing room at longer distances, which is more beneficial to ensuring that the inlet sample of the sample processing room and the processed sample cannot be polluted by each other.

The equipment space includes a first equipment room 18 and a second equipment room 19; the first equipment room 18 is arranged near a corner of the second side wall plate 2 and the second end wall plate 4; the second equipment room 19 is arranged near a corner of the first side wall panel 1 and the first end wall panel 3. As will be understood by those skilled in the art, the first equipment room 18 and the second equipment room 19 are arranged diagonally, which facilitates the opening of the equipment room at the diagonal position of the container body, the configuration and maintenance of the equipment and the heat dissipation of the equipment; on the other hand, the two devices are arranged according to the diagonal positions, so that the space is saved, more spaces can be reserved for the detection rooms, and the control of the pressure difference between each detection room and the outside is facilitated.

The first equipment room 18 and the second equipment room 19 are both provided with an equipment room door body 20 opened towards the outside of the box. The positions of the equipment room door bodies 20 on the side wall plates and the end wall plates are not limited, and the number of the equipment room door bodies 20 is not limited. Therefore, the ventilation and heat dissipation efficiency can be improved, and the equipment installation or the overhaul and maintenance are facilitated.

The door body 20 of the equipment room has a louver structure for facilitating heat dissipation.

An equipment maintenance door body 21 is further arranged on the first side wall plate 1. Those skilled in the art will appreciate that the equipment maintenance door 21 may be used for access, installation and maintenance of detection equipment or other equipment in the container; in the later facility decoration process in the box body, decorative materials and the like can also enter and exit through the equipment maintenance door body 21. After the equipment is installed, equipment with larger volume can be placed at the position corresponding to the equipment maintenance door body 21, and the equipment maintenance door body 21 is opened to carry out maintenance and convenient operation.

The container for nucleic acid detection that this embodiment provided still is equipped with exhaust duct, supply air duct and is used for controlling exhaust duct and supply air duct's wind speed and fan control system of wind direction to and set up the return air passageway between detecting. It will be understood by those skilled in the art that the air pressure in each detection room, the chamber 5 and the buffer channel can be adjusted to a state of negative or positive pressure difference with the external atmospheric pressure by controlling the wind speed and wind direction of the exhaust duct and the wind supply duct, and the pressure difference between the chamber 5, the buffer channel and the detection room is sequentially increased or decreased, that is, the pressure difference is set in a gradient manner, so as to prevent biological pathogens in the internal control from leaking into the atmosphere outside the container body, or prevent air in the atmosphere outside the container body from flowing into each detection room to cause pollution to the detection environment.

Furthermore, the return air channel comprises a first return air channel, a second return air channel and a third return air channel, the first return air channel is located between the first buffer channel (14) and the second buffer channel (15), the second return air channel is located between the third buffer channel (16) and the fourth buffer channel (17), and the third return air channel is located between the first detection room (6) and the second detection room (7).

Therefore, the air return channel is arranged at the position, so that the air return efficiency can be improved, and the isolation effect is improved.

Furthermore, the first buffer passage (14) has a first partition wall opposite to the second buffer passage (15), the second buffer passage (15) has a second partition wall adjacent to the first partition wall with a distance therebetween, the first partition wall and the second partition wall are disposed along the width direction of the container, the third partition wall is disposed between the first partition wall and the second partition wall and disposed along the length direction of the container, and the first partition wall, the second partition wall and the third partition wall constitute the first air return passage between the first buffer passage (14) and the second buffer passage (15).

The third buffer channel (16) is provided with a fourth partition wall, the fourth partition wall is opposite to the fourth buffer channel (17), the fourth buffer channel (17) is provided with a fifth partition wall, the fourth partition wall is adjacent to the fifth partition wall and has a distance, the fourth partition wall and the fifth partition wall are arranged along the width direction of the container, a sixth partition wall is arranged between the fourth partition wall and the fifth partition wall and is arranged along the length direction of the container, and the fourth partition wall, the fifth partition wall and the sixth partition wall form the second return air channel between the third buffer channel (16) and the fourth buffer channel (17).

The first detection room (6) is provided with a seventh partition wall, the seventh partition wall is opposite to the second detection room (7), the second detection room (7) is provided with an eighth partition wall, the eighth partition wall is adjacent to the seventh partition wall and has a distance, the seventh partition wall and the eighth partition wall are arranged along the width direction of the container, a ninth partition wall is arranged between the seventh partition wall and the eighth partition wall and along the length direction of the container, and the seventh partition wall, the eighth partition wall and the ninth partition wall form the third return air channel between the first detection room (6) and the second detection room (7).

The optimized setting of the specific structure of first return air passageway, second return air passageway and third return air passageway combines the overall layout of above-mentioned container, can further improve return air efficiency, further improves the isolation effect.

The container for nucleic acid detection provided by the present embodiment further includes a first transmission window 22, a second transmission window 23, and a third transmission window 24; the first transmission window 22 is arranged on a partition between the first detection room 6 and the second detection room 7; the second transmission window 23 is arranged on a partition between the second detection room 7 and the third detection room 8; the third transmitting window 24 is disposed on the first sidewall plate 1 and is communicated with the second detecting room 7. As will be understood by those skilled in the art, the first transfer window 22 is used for transferring articles between the first inspection room 6 and the second inspection room 7; the second conveying window 23 is used for transferring articles between the second detection room 7 and the third detection room 8; the third transfer window is used for transferring the collected sample from the outside of the container body to the inside of the second detection room 7. As can be understood by those skilled in the art, the transfer window is composed of a frame body and movable sealing plates arranged at two ends, and an operator opens one sealing plate to place objects into the frame body and closes the movable sealing plate; and the operator at the other side opens the sealing plate at the other side to take out the article. Like this, it is the same with the buffering passageway principle, utilize conveying window conveying article, can keep detecting the air separation between, do not circulate each other to the guarantee cleanliness factor is not influenced or biological pathogen can not spread, can also realize that article convey fast conveniently between each space.

A super clean bench and a reagent storage freezer are arranged in the first detection room 6; a vibration instrument, water bath equipment, a refrigerator, a biological safety cabinet and nucleic acid detection and analysis equipment are also arranged in the second detection room 7; an analysis operating platform and a PCR amplification instrument are arranged in the third detection room 8; and a hand washing table is respectively arranged in the sterilizing room 9 and the second detection room 7.

It should be noted that the above containers include not only containers conforming to conventional structures such as ISO, but also containers without corner fittings.

The panels of the container are not limited to corrugated plates, but may be flat plates, such as sandwich plates or other flat plate structures.

The container beam framework formed by the bottom beam, the top beam and the corner post of the container and the box body structure formed by splicing the flat plate and the corrugated plate also belong to the container range protected by the utility model.

The container comprises not only standard ISO container size, but also ultra-wide containers and ultra-long containers. If the ultra-wide container and the ultra-long container are used, the using space of personnel is wider or more testing equipment or supporting devices can be accommodated, and the operation flexibility and the convenience are higher.

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 should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (13)

1. A container is characterized by comprising a container body provided with a first side wall plate (1), a second side wall plate (2), a first end wall plate (3) and a second end wall plate (4); the inner cavity of the container body is divided into a plurality of functional spaces and equipment spaces by using an inner clapboard; the container is also divided into a chamber (5) for communicating the detection rooms by an internal partition plate.

2. A container as claimed in claim 1, characterised in that the chamber (5) extends along the length of the container body and is located adjacent the second side wall panel (2).

3. A container as claimed in claim 2, characterised in that the functional space comprises a first inspection room (6), a second inspection room (7) and a third inspection room (8) and a sterilization room (9); said first detection compartment (6) being arranged along said second end wall panel (4) of said container body and adjacent to an end of said chamber (5); -said second and third detection rooms (7, 8) are arranged along said first side wall panel (1) of said container body and adjacent to the sides of said chamber (5); the sterilization booth (9) is arranged along the first end wall panel (3) of the container body and adjacent to the other end of the chamber (5).

4. A container as claimed in claim 3, characterised in that said second side wall panel (2) of said chamber (5) adjacent to said first detection compartment (6) is provided with a first door body (10); a second door body (11) is arranged on the second side wall plate (2) of the chamber (5) close to the sterilization room (9); the sterilization room (9) is respectively provided with a third door body (12) and a fourth door body (13) along the diagonal direction; the third door body (12) is communicated with the chamber (5); the fourth door body (13) is communicated with the outside of the container body.

5. A container as claimed in claim 4, characterised in that a buffer channel is provided between each of said first and third test compartments (6, 8) and said chamber (5); two buffer channels are arranged between the second detection room (7) and the chamber (5).

6. A container as claimed in claim 5, characterised in that the buffer channel in communication with said first inspection compartment (6) is a first buffer channel (14) and the inlet buffer channel in communication with said second inspection compartment (7) is a second buffer channel (15); the buffer channel communicated with the third detection room (8) is a third buffer channel (16); the outlet buffer channel connected with the second detection room (7) is a fourth buffer channel (17); inlets of the first buffer channel (14) and the second buffer channel (15) are arranged opposite to the first door body (10), and the first buffer channel (14) and the second buffer channel (15) are arranged in parallel; the third buffer channel (16) and the fourth buffer channel (17) are arranged opposite to the second door body (11), and the third buffer channel (16) and the fourth buffer channel (17) are arranged in parallel.

7. A container as claimed in claim 6, characterised in that said equipment space comprises a first equipment room (18) and a second equipment room (19); the first equipment room (18) is arranged near one corner of the second side wall plate (2) and the second end wall plate (4); the second equipment room (19) is arranged at one corner close to the first side wall plate (1) and the first end wall plate (3), and the first equipment room (18) and the second equipment room (19) are both provided with equipment room door bodies (20) with louver structures; an equipment maintenance door body (21) is further arranged on the first side wall plate (1).

8. A container as claimed in claim 6, further comprising a first transfer window (22), a second transfer window (23) and a third transfer window (24); the first transmission window (22) is arranged on a partition between the first detection room (6) and the second detection room (7); the second transmission window (23) is arranged on a partition between the second detection room (7) and the third detection room (8); the third conveying window (24) is arranged on the first side wall plate (1) and communicated with the second detection room (7).

9. A container as claimed in any one of claims 1 to 8, wherein exhaust ducts, supply ducts and fan control systems for controlling the speed and direction of the wind in the exhaust ducts and supply ducts, and return air passages between test compartments are provided.

10. A container as claimed in claim 9, characterised by comprising a first return air channel between the first buffer channel (14) and the second buffer channel (15), a second return air channel between the third buffer channel (16) and the fourth buffer channel (17), and a third return air channel between the first test room (6) and the second test room (7).

11. The container according to claim 10, wherein the first buffer passage (14) has a first partition wall opposite to the second buffer passage (15), the second buffer passage (15) has a second partition wall adjacent to and spaced apart from the first partition wall, the first and second partition walls are arranged in the width direction of the container, and a third partition wall is arranged between the first and second partition walls and in the length direction of the container, and the first, second and third partition walls constitute the first air return passage between the first buffer passage (14) and the second buffer passage (15).

12. The container as claimed in claim 10, wherein the third buffer passage (16) has a fourth partition wall opposite to the fourth buffer passage (17), the fourth buffer passage (17) has a fifth partition wall adjacent to and spaced apart from the fifth partition wall, the fourth partition wall and the fifth partition wall are arranged in the width direction of the container, a sixth partition wall is arranged between the fourth partition wall and the fifth partition wall and arranged in the length direction of the container, and the fourth partition wall, the fifth partition wall and the sixth partition wall constitute the second return air passage between the third buffer passage (16) and the fourth buffer passage (17).

13. The container as claimed in claim 10, wherein the first test bay (6) has a seventh partition wall opposite to the second test bay (7), the second test bay (7) has an eighth partition wall adjacent to and spaced from the seventh partition wall, the seventh and eighth partition walls are arranged in the width direction of the container, a ninth partition wall is arranged between the seventh and eighth partition walls and in the length direction of the container, and the seventh, eighth and ninth partition walls constitute the third return air passage between the first test bay (6) and the second test bay (7).

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