CN214006677U - Container - Google Patents

Abstract

The utility model discloses a container, which comprises a container body, a functional space and a device room; the functional space and the equipment room are both arranged in the cavity of the container body; the functional space and the equipment room are formed by separating a wall plate and an internal clapboard of the container body. The container disclosed by the utility model is provided with a plurality of chambers and buffer channels, on one hand, the container can be transported conveniently and jointly, on the other hand, the container can be used as a laboratory for detection, can quickly reach a detection site and be directly put into use, 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. The utility model provides a container has buffer channel and fan control system, can adjust its inside air to the state that has pressure differential as required, can effectively reduce the risk that the granule in the outside air influences inside cleanliness factor, can reduce the risk that inside biological pathogen spreads to the outside simultaneously, and is high-efficient safety more.

Description

Container

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a container.

Background

The nucleic acid detection is a biological detection method based on that each virus has a unique gene sequence, and only needs to detect the gene sequence of the virus in human body, such as SARS virus or new coronavirus, and adopts a fluorescent quantitative PCR method, after the gene sequence is amplified, if the carrier of the virus can detect the enhancement of a fluorescent signal, thus showing a positive result. Therefore, the nucleic acid detection technology is an effective detection method for judging whether the organism carries SARS or new coronavirus. Nucleic acid detection laboratories in the prior art are usually arranged in hospitals, but in an epidemic situation or an emergency situation, when a large-scale nucleic acid detection sampling needs to be performed, a large number of nucleic acid detection laboratories need to be temporarily arranged, and after the nucleic acid detection is completed, the nucleic acid detection laboratories need to be removed from the site. But this kind of quick assembly disassembly type negative pressure detection laboratory among the prior art has quick assembly disassembly's function, can realize the needs of building up the laboratory temporarily. However, the quickly detachable negative pressure detection laboratory needs to be constructed and assembled on site before being put into use, so that the time for installation and debugging is increased; when the detection task is completed, the detection device needs to be dismantled on site, which easily causes the leakage of biological pathogens missed in the detection device into the external space and causes the risk of air pollution.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a container, this container can be arranged into the convenient rapid deployment of nucleic acid testing laboratory and detect the scene.

The utility model provides a container, which comprises a container body, a functional space and an equipment room (1); the functional space and the equipment room (1) are both arranged in a cavity of the container body; the functional space and the equipment room (1) are formed by separating a wall plate and an internal clapboard of the container body.

Optionally, a buffer channel for communicating the functional space with the space outside the container body is further arranged in the cavity of the container body; the buffer passage is provided with at least two door bodies, one of the door bodies is connected with the external space of the container, and the rest door bodies are connected with the functional space.

Optionally, the functional space is divided into a first chamber (2), a second chamber (3) and a third chamber (4) by an internal partition; the second chamber (3) and the third chamber (4) are simultaneously connected with the third buffer channel (100); a sterilization chamber (5) communicated with the second chamber (3) is also arranged in the cavity of the container body.

Optionally, the container body comprises a first side wall panel (6), a second side wall panel (7), a first end wall panel (8) and a second end wall panel (9); the first chamber (2) and the sterilization chamber (5) are arranged along the width direction of the container body and are arranged at the position of the container body close to the second end wall plate (9); the second chamber (3) and the third chamber (4) are arranged in sequence along the length direction of the container, the third chamber (4) is far away from the first chamber (2), and the width of the second chamber (3) and the width of the third chamber (4) are consistent with the width of the container body.

Optionally, the third buffer channel (100) is close to both the first side wall plate (6) and the third chamber (4); the sterilizing chamber (5) is close to the first side wall plate (6), and the first chamber (2) is provided with a door body on the second side wall plate (7).

Optionally, the functional space is divided into a first chamber (2), a second chamber (3) and a third chamber (4) by an internal partition; the buffer channel comprises a first buffer channel and a second buffer channel, and the first buffer channel (10) is respectively connected with the first chamber (2) and the second chamber (3); the second buffer channel (14) is connected to the third chamber (4).

Optionally, the container body comprises a first side wall panel (6), a second side wall panel (7), a first end wall panel (8) and a second end wall panel (9); the first chamber (2) and the first buffer channel (10) are arranged along the width direction of the container body and are arranged at the position of the container body close to the second end wall plate (9), and the first buffer channel (10) is arranged close to the first side wall plate (6); the second chamber (3) is adjacent to the first chamber (2) and extends in the longitudinal direction of the container towards the first end wall panel (8), the width of the second chamber (3) corresponding to the width of the container.

Optionally, a sterilization chamber (5) is further arranged in the cavity of the container body; the sterilization chamber (5) is respectively communicated with the second chamber (3) and the third chamber (4); the third chamber (4) and the sterilization chamber (5) are arranged along the width direction of the container, and the sterilization chamber (5) is arranged between the third chamber (4) and the second side wall plate (7); said second buffer channel (14) and said third chamber (4) being arranged along the length of said container body against said first end wall panel (8); the second chamber (3) is arranged between the first chamber (2) and the third chamber (4).

Optionally, a sterilization chamber (5) communicated with the second chamber (3) is further arranged in the cavity of the container body; the second chamber (3) is arranged between the first chamber (2) and the third chamber (4); the third chamber (4) and the second buffer channel (14) are arranged along the width direction of the container body and are close to the first end wall plate (8), and the second buffer channel (14) is arranged close to the first side wall plate (6); the sterilization chamber (5) is arranged close to the first side wall plate (6) and adjacent to the second buffer channel (14).

Optionally, the system further comprises a first transmission window (11), a second transmission window (12) and a third transmission window (13); the first transfer window (11) is arranged on an internal partition between the first chamber (2) and the second chamber (3); the second transfer window (12) is arranged on an internal partition between the second chamber (3) and the third chamber (4); the third transfer window (13) is provided at a position where the second side wall plate (7) communicates with the second chamber (3).

Optionally, the wind power generation system further comprises an exhaust duct, an air supply duct and a fan control system for controlling the wind directions and the wind speeds of the exhaust duct and the air supply duct; the container also comprises the equipment room (1), the equipment room (1) is positioned at the end part of the container body, the size of the equipment room (1) along the width direction of the container is consistent with the width of the container, and the fan control system is arranged in the equipment room (1); the container is also internally provided with a return air structure which is a rectangular columnar structure enclosed by a partition plate and internally provided with a cavity; the bottom of return air structure is by the bottom plate shutoff of container body, the top of return air structure is by the roof shutoff of container body, the return air structure is established first cavity (2) with between second cavity (3).

The container provided by the utility model is provided with a plurality of chambers and buffer channels, on one hand, the container can be transported conveniently and jointly, on the other hand, the container can be used as a temporary detection laboratory, can quickly reach a detection site and be directly put into use, 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. The utility model provides a container has buffer channel and fan control system, return air structure, can adjust its inside air to the state that has pressure differential as required, can effectively reduce the risk that the granule in the outside air influences inside cleanliness factor, can reduce the risk that inside biological pathogen spreads the outside simultaneously, and is high-efficient safety more.

Drawings

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

fig. 2 is a schematic plan view of a container according to a second embodiment of the present invention;

fig. 3 is a schematic plan view of another container according to the second 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.

Example one

The embodiment provides a container, which comprises a container body, a functional space and an equipment room 1; the functional space and the equipment room 1 are both arranged in the cavity of the container body; the functional space and the equipment room 1 are formed by separating a wall plate and an internal clapboard of the container body. The container is provided with a plurality of chambers and buffer channels, so that the container can be transported jointly, can be used as a temporary detection laboratory, can quickly arrive at a detection site and be directly put into use, 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.

A third buffer channel 100 for communicating the functional space with the external space of the container body is also arranged in the cavity of the container body; the third buffer passage 100 is provided with three door bodies. Those skilled in the art can understand that two door bodies of the third buffer passage 100 are respectively communicated with the functional space and the rest door body is communicated with the external space of the container; set up the door body of third buffering passageway 100 into normal close door, after operating personnel got into the buffering space, normal close door can self-closing, and operating personnel can disinfect, change after isolation clothes or other safeguard measure reentrant function space or go out the exterior space of container body this moment in third buffering passageway 100. The buffer channel can ensure that each chamber in the connected functional space is kept isolated from the external space of the container body, and the internal air and the external air are not communicated and flow.

The functional space is divided by an internal partition into a first chamber 2, a second chamber 3 and a third chamber 4.

In the container provided in this embodiment, a third buffer passage 100 may be provided, as shown in fig. 1, the first chamber 2 is not connected to the third buffer passage 100, and the second chamber 3 and the third chamber 4 are respectively connected to the third buffer passage 100. As will be appreciated by those skilled in the art, the reagent preparation area for nucleic acid detection may be configured to be a reagent preparation area for nucleic acid detection where there is less chance of a biological pathogen or sensing particles in the air than the sample processing area and the nucleic acid amplification analysis area.

The container provided by the embodiment comprises a first side wall plate 6, a second side wall plate 7, a first end wall plate 8 and a second end wall plate 9; the first chamber 2 and the sterilization chamber 5 are arranged along the width direction of the container body and are arranged at the position of the container body close to the second end wall plate 9; the second chamber 3 and the third chamber 4 are sequentially arranged along the length direction of the container, the third chamber 4 is far away from the first chamber 2, and the widths of the second chamber 3 and the third chamber 4 are consistent with the width of the container body. It will be understood by those skilled in the art that the articles or garbage in each chamber, especially in the second chamber 3, such as waste biological samples, protective clothing passed by the operator, etc., are liable to carry harmful substances such as biological pathogens, etc., the operator enters the sterilization chamber 5 when leaving the second chamber 3 after completing the task, and leaves the container provided in this embodiment after performing sterilization treatment on the articles or garbage in the sterilization chamber 5, and the articles or garbage can be centralized-treated by a special person in the sterilization chamber 5 of the container body, thereby maintaining the biosafety of the container and the environment.

The equipment room 1 is located at the end of the container body and the dimension of the equipment room 1 along the width direction of the container is consistent with the width of the container. As shown in fig. 1, the equipment room 1 is arranged in the container body near the first end wall plate 8, and the length of the equipment room 1 is consistent with the width of the container body. The equipment room 1 may also be arranged in the container body near the second end wall 9. As can be understood by those skilled in the art, the equipment room 1 is arranged at the end part of the container body and occupies the width of the whole container body, so that on one hand, on the basis of ensuring the area of the equipment room 1, the equipment room occupies less length space of the container body, and more length space is reserved for functional space; on the other hand, the door of the equipment room 1 can be arranged at the end part of the container body, so that the door of the equipment room 1 has larger width, and the equipment installation and maintenance are convenient; the door of the equipment room 1 is designed to have a louver structure, so that the equipment room 1 has high heat dissipation performance.

The third buffer passage 100 is close to both the first side wall plate 6 and the third chamber 4; the sterilization chamber 5 is close to the first side wall plate 6; the first chamber 2 is provided with a door body on the second side wall plate 7, and the door body is used as an entrance and exit of the first chamber 2 and used for an operator to enter and exit the first chamber 2.

The third chamber 4 is arranged in a position adjacent to the equipment room 1; the length of the equipment room 1 is consistent with the width of the container body. The person skilled in the art will understand that the third chamber 4 is thus arranged alongside the equipment room 1 in the cavity of the container body, near the first end wall 8.

A rectangular space formed by the second chamber 3 and the third buffer passage 100 is clamped between the first chamber 2 and the third chamber 4; the third buffer passage 100 is disposed adjacent to the first side wall plate 6 and adjacent to the third chamber 4. It will be appreciated by those skilled in the art that the outlet and inlet of the second chamber 3 can be kept at a greater distance, and when the container provided in this embodiment is used as a nucleic acid testing laboratory, the outlet and inlet of the second chamber 3 will be kept at a greater distance to keep them isolated from each other and prevent the spread or infection of biological pathogens.

The container provided by the embodiment further comprises a first transmission window 11, a second transmission window 12 and a third transmission window 13; the first transmission window 11 is arranged on the inner partition between the first chamber 2 and the second chamber 3; the second transfer window 12 is arranged on the internal partition between the second chamber 3 and the third chamber 4; the third transfer window 13 is provided at a position of the second side wall plate 7 and communicated with the second chamber 3. As can be understood by those skilled in the art, in the nucleic acid detection process, reagents, biological samples and the like in the detection process can be conveyed through the first conveying window 11, the second conveying window 12 and the third conveying window 13, so that people are prevented from frequently entering and exiting each functional space, the risk of transmission of biological pathogens among the air of each functional space is reduced, and the times of wearing protective clothing when people enter and exit are reduced.

A reagent storage ice bin is provided in the first chamber 2; the second chamber 3 is internally provided with an oscillator, a water bath device, a sample storage refrigerator, a biological safety cabinet, a nucleic acid detection and analysis system and a nucleic acid extractor; the third chamber 4 is internally provided with an analysis operating platform and a PCR amplification instrument; a sterilization box is arranged in the sterilization chamber 5.

The container that this embodiment provided still is equipped with exhaust duct, supply air duct, is used for controlling exhaust duct with the fan control system of supply air duct's wind direction and wind speed. The fan control system is arranged in the equipment room 1; the container is also internally provided with a return air structure which is a rectangular columnar structure enclosed by a partition plate and internally provided with a cavity; the bottom of return air structure is by the bottom plate shutoff of container body, the top of return air structure is by the roof shutoff of container body, the return air structure is established first cavity 2 with between the second cavity 3. Those skilled in the art can understand that the blower control system can adjust the air pressure difference between each functional space, the third buffer passage 100 and the sterilization chamber 5 and the external atmospheric pressure to form a negative pressure space or a positive pressure space, so that on one hand, particles in the external atmosphere can be prevented from entering the functional space, and the cleanliness of the functional space is reduced; on the other hand, pathogen particles in the detection sample can be prevented from flowing into the air outside the container body, so that the infection risk is increased.

Example two

The embodiment provides a container, which comprises a container body, a functional space and an equipment room 1; the functional space and the equipment room 1 are both arranged in the cavity of the container body; the functional space and the equipment room 1 are formed by separating a wall plate and an internal clapboard of the container body. The technical personnel in the field can understand that the functional space is arranged in the cavity of the container, the detection equipment or the matching device can be debugged and installed in advance, the container body can be conveniently and quickly moved to a detection place, and the container body can be directly put into use without building and assembling after reaching the detection place; after the detection task is finished, the container does not need to be dismantled, the container is transported away from the detection site through the container transporting equipment, the evacuation speed is high, the risk that biological pathogens in a nucleic acid detection laboratory enter the air of a detection point can be reduced, and the biological safety is higher.

A buffer channel for communicating the functional space with the external space of the container body is also arranged in the cavity of the container body; the buffer passage is provided with at least two door bodies, one of the door bodies is connected with the external space of the container, and the rest door bodies are connected with the functional space. As will be understood by those skilled in the art, one end of the buffer passage communicates with the functional space and the other end communicates with the space outside the container; the doors at the two ends of the buffer channel are set to be normally closed, the normally closed doors can be automatically closed after an operator enters the buffer space, and the operator can disinfect, replace an isolation suit or other protective measures in the buffer channel and then enter the functional space or go out of the outer space of the container body.

The functional space is divided by an internal partition into a first chamber 2, a second chamber 3 and a third chamber 4.

As shown in fig. 2 or fig. 3, the container provided in this embodiment is provided with two buffer passages, where the buffer passages include a first buffer passage 10 and a second buffer passage 14, and the first buffer passage 10 is connected to the first chamber 2 and the second chamber 3 respectively; the second buffer passage 14 is connected to the third chamber 4. It will be appreciated by those skilled in the art that the first chamber 2 may now be used as a reagent preparation zone, the second chamber 3 as a sample processing zone and the third chamber 4 as a nucleic acid amplification analysis zone; that is, the reagent preparation area and the sample processing area share the same first buffer channel 10 from the outside of the container to the inside of the container, and enter the nucleic acid amplification analysis area through another second buffer channel 14.

In the case of the container of this embodiment, the container body includes a first side wall panel 6, a second side wall panel 7, a first end wall panel 8 and a second end wall panel 9; the first chamber 2 and the first buffer passage 10 are arranged along the width direction of the container body and are arranged at the position of the container body close to the second end wall plate 9, and the first buffer passage 10 is arranged close to the first side wall plate 6; the second chamber 3 is adjacent to the first chamber 2 and extends in the longitudinal direction of the container towards the first end wall 8, the width of the second chamber 3 corresponding to the width of the container.

The equipment room 1 is located at the end of the container body and the dimension of the equipment room 1 along the width direction of the container is consistent with the width of the container. As shown in fig. 2 or 3, the equipment room 1 is arranged in the container body near the first end wall plate 8, and the length of the equipment room 1 is consistent with the width of the container body. The equipment room 1 may also be arranged in the container body near the second end wall 9. As can be understood by those skilled in the art, the equipment room 1 is arranged at the end part of the container body and occupies the width of the whole container body, so that on one hand, on the basis of ensuring the area of the equipment room 1, the equipment room occupies less length space of the container body, and more length space is reserved for functional space; on the other hand, the door of the equipment room 1 can be arranged at the end part of the container body, so that the door of the equipment room 1 has larger width, and the equipment installation and maintenance are convenient; the door of the equipment room 1 is designed to have a louver structure, so that the equipment room 1 has high heat dissipation performance.

In the container provided by the embodiment, a sterilization chamber 5 is further arranged in the cavity of the container body; as shown in fig. 2, the sterilization chamber 5 communicates with the second chamber 3 and the third chamber 4, respectively; the third chamber 4 and the sterilization chamber 5 are arranged along the width direction of the container, and the sterilization chamber 5 is arranged between the third chamber 4 and the second side wall plate 7; said second buffer channel 14 and said third chamber 4 are arranged along the length of the container body against said first end wall plate 8; the second chamber 3 is arranged between the first chamber 2 and the third chamber 4. It will be appreciated by those skilled in the art that the sterilization chamber 5 and the second buffer passage 14 are thus located on opposite diagonal sides of the container body. It can be understood by those skilled in the art that the articles or garbage in each chamber, especially in the second chamber 3, such as waste biological samples, protective clothing passed by operators, etc., are easy to carry harmful substances such as biological pathogens, etc., when the operators leave the second chamber 3 or the third chamber 4 after completing their tasks, the operators enter the sterilization chamber 5 first, and leave the container provided in this embodiment after performing sterilization and disinfection treatment on the articles or garbage in the sterilization chamber, and the articles or garbage can also be placed in the sterilization chamber 5 of the container body and intensively treated by a special person, so as to maintain the biological safety of the container and the environment. According to the container provided by the embodiment, the entrance and the exit of an operator are respectively positioned on two side surfaces of the container body, so that the entrance and the exit are far away from the space outside the container, and the entrance passage and the exit passage of the operator are effectively isolated.

In the container provided by the embodiment, a sterilization chamber 5 communicated with the second chamber 3 is further arranged in the cavity of the container body; as shown in fig. 3, the second chamber 3 is arranged between the first chamber 2 and the third chamber 4; the third chamber 4 and the second buffer passage 14 are arranged along the width direction of the container body and close to the first end wall plate 8, and the second buffer passage 14 is arranged close to the first side wall plate 6; the sterilization chamber 5 is disposed adjacent to the first side wall plate 6 and adjacent to the second buffer passage 14. It will be understood by those skilled in the art that the sterilization chamber 5, the first buffer passage 10 and the second buffer passage 14 are located on the same side of the container body, and the articles or garbage in each chamber, especially the second chamber 3, such as waste biological samples, protective clothing passed by the operator, and the like, are easy to carry harmful substances such as biological pathogens, and the like, and when the operator completes the task and leaves the second chamber 3, the operator first enters the sterilization chamber 5, and then leaves the container provided in this embodiment after performing sterilization and disinfection treatment on the articles or garbage in the sterilization chamber, and the articles or garbage can also be placed in the container body and intensively treated by a special person, so as to maintain the biological safety of the container and the environment.

The container provided by the embodiment further comprises a first transmission window 11, a second transmission window 12 and a third transmission window 13; the first transmission window 11 is arranged on the inner partition between the first chamber 2 and the second chamber 3; the second transfer window 12 is arranged on the internal partition between the second chamber 3 and the third chamber 4; the third transfer window 13 is provided at a position of the second side wall plate 7 and communicated with the second chamber 3. As can be understood by those skilled in the art, reagents, biological samples and the like in the detection process can be conveyed through the first conveying window 11, the second conveying window 12 and the third conveying window 13 in the checking detection process, so that people are prevented from frequently entering and exiting each functional space, the risk of biological pathogens spreading among the air of each functional space is reduced, and the times of wearing and taking off protective clothing when people enter and exit are reduced.

A reagent storage ice bin is provided in the first chamber 2; the second chamber 3 is internally provided with an oscillator, a water bath device, a sample storage refrigerator, a biological safety cabinet, a nucleic acid detection and analysis system and a nucleic acid extractor; the second chamber 3 is internally provided with an analysis operation table and a PCR amplification instrument; a sterilization box is arranged in the sterilization chamber 5.

The container provided by the embodiment is also provided with an exhaust pipeline, an air supply pipeline and a fan control system for controlling the wind direction and the wind speed of the exhaust pipeline and the air supply pipeline; the fan control system is arranged in the equipment room 1; the container is also internally provided with a return air structure which is a rectangular columnar structure enclosed by a partition plate and internally provided with a cavity; the bottom of return air structure is by the bottom plate shutoff of container body, the top of return air structure is by the roof shutoff of container body, the return air structure is established first cavity 2 with between the second cavity 3. As will be understood by those skilled in the art, the blower control system can be used to adjust the air pressure difference between each functional space, the buffer passage and the sterilization chamber 5 and the external atmospheric pressure, so as to form a negative pressure space or a positive pressure space, thereby preventing particles in the external atmosphere from entering the functional space and reducing the cleanliness of the functional space; on the other hand, pathogen particles in the detection sample can be prevented from flowing into the air outside the container body, so that the infection risk is increased.

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.

The sterilization chamber has the same principle as the buffer channel and can also be used as a buffer space; the sterilization chamber is provided with at least two door bodies, wherein one door body is connected with the external space of the container, and the rest door bodies are connected with the functional space.

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 (10)

1. A container is characterized by comprising a container body, a functional space and an equipment room (1); the functional space and the equipment room (1) are both arranged in a cavity of the container body; the functional space and the equipment room (1) are formed by separating a wall plate and an internal clapboard of the container body.

2. A container as claimed in claim 1, wherein a buffer passage is provided in the cavity of the container body for communicating the functional space with a space outside the container body; the buffer passage is provided with at least two door bodies, one of the door bodies is connected with the external space of the container, and the rest door bodies are connected with the functional space.

3. A container as claimed in claim 2, characterised in that the functional space is divided by an internal partition into a first chamber (2), a second chamber (3) and a third chamber (4); the buffer channels comprise a third buffer channel (100), and the second chamber (3) and the third chamber (4) are simultaneously connected with the third buffer channel (100); a sterilization chamber (5) communicated with the second chamber (3) is also arranged in the cavity of the container body; and/or the functional space is divided into a first chamber (2), a second chamber (3) and a third chamber (4) by an internal partition; the buffer channel comprises a first buffer channel (10) and a second buffer channel (14), and the first buffer channel (10) is respectively connected with the first chamber (2) and the second chamber (3); the second buffer channel (14) is connected to the third chamber (4).

4. A container as claimed in claim 3, characterised in that the buffer passage comprises a third buffer passage (100), and the container body comprises a first side wall panel (6), a second side wall panel (7), a first end wall panel (8) and a second end wall panel (9); the first chamber (2) and the sterilization chamber (5) are arranged along the width direction of the container body and are arranged at the position of the container body close to the second end wall plate (9); the second chamber (3) and the third chamber (4) are arranged in sequence along the length direction of the container, the third chamber (4) is far away from the first chamber (2), and the widths of the second chamber (3) and the third chamber (4) are consistent with the width of the container body.

5. A container as claimed in claim 4, characterised in that said third buffer channel (100) is adjacent both said first side wall (6) and said third chamber (4); the sterilizing chamber (5) is close to the first side wall plate (6), and the first chamber (2) is provided with a door body on the second side wall plate (7).

6. A container as claimed in claim 3, characterised in that the buffer passage comprises a first buffer passage (10) and a second buffer passage (14), and the container body comprises a first side wall panel (6), a second side wall panel (7), a first end wall panel (8) and a second end wall panel (9); the first chamber (2) and the first buffer channel (10) are arranged along the width direction of the container body and are arranged at the position of the container body close to the second end wall plate (9), and the first buffer channel (10) is arranged close to the first side wall plate (6); the second chamber (3) is adjacent to the first chamber (2) and extends in the longitudinal direction of the container towards the first end wall panel (8), the width of the second chamber (3) corresponding to the width of the container.

7. A container as claimed in claim 6, characterised in that a sterile chamber (5) is provided within the cavity of the container body; the sterilization chamber (5) is respectively communicated with the second chamber (3) and the third chamber (4); the third chamber (4) and the sterilization chamber (5) are arranged along the width direction of the container, and the sterilization chamber (5) is arranged between the third chamber (4) and the second side wall plate (7); said second buffer channel (14) and said third chamber (4) being arranged along the length of said container body against said first end wall panel (8); the second chamber (3) is arranged between the first chamber (2) and the third chamber (4).

8. A container as claimed in claim 6, characterised in that a sterile chamber (5) is provided in the cavity of the container body in communication with the second chamber (3); the second chamber (3) is arranged between the first chamber (2) and the third chamber (4); the third chamber (4) and the second buffer channel (14) are arranged along the width direction of the container body and are close to the first end wall plate (8), and the second buffer channel (14) is arranged close to the first side wall plate (6); the sterilization chamber (5) is arranged close to the first side wall plate (6) and adjacent to the second buffer channel (14).

9. A container as claimed in claim 5, 7 or 8, further comprising a first transfer window (11), a second transfer window (12) and a third transfer window (13); the first transfer window (11) is arranged on an internal partition between the first chamber (2) and the second chamber (3); the second transfer window (12) is arranged on an internal partition between the second chamber (3) and the third chamber (4); the third transfer window (13) is provided at a position where the second side wall plate (7) communicates with the second chamber (3).

10. The container according to claim 9, further comprising an exhaust duct, an air supply duct, a fan control system for controlling wind direction and wind speed of the exhaust duct and the air supply duct; the container also comprises the equipment room (1), the equipment room (1) is positioned at the end part of the container body, the size of the equipment room (1) along the width direction of the container is consistent with the width of the container, and the fan control system is arranged in the equipment room (1); the container is also internally provided with a return air structure which is a rectangular columnar structure enclosed by a partition plate and internally provided with a cavity; the bottom of return air structure is by the bottom plate shutoff of container body, the top of return air structure is by the roof shutoff of container body, the return air structure is established first cavity (2) with between second cavity (3).

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