CN212053961U

CN212053961U - Container

Info

Publication number: CN212053961U
Application number: CN202022037873.3U
Authority: CN
Inventors: 徐进永; 谢智颖; 范文浩; 张起兵; 聂军猛; 袁锋
Original assignee: Shanghai Baoshan Taiping Container Co ltd
Current assignee: Shanghai Baoshan Taiping Container Co ltd
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2020-12-01
Anticipated expiration: 2030-09-16

Abstract

The utility model discloses a container, which comprises a container body, wherein the container body is formed by enclosing a first side wall plate, a second side wall plate, a first end wall plate, a second end wall plate, a top plate and a bottom plate; the container body is internally provided with an internal clapboard which is used for dividing the internal space of the container body into at least one chamber. The container provided by the utility model can quickly reach the detection site according to the detection requirement without building or installing and debugging equipment, is directly put into use, and is efficient and quick; after accomplishing the detection task, the utility model discloses a container need not demolish, still can move in a flexible way other positions that need set up the detection laboratory. And simultaneously, the utility model provides a container has saved and has built and demolishd the loss that causes the equipment instrument, and the life of improve equipment instrument has reduced detection cost and environmental protection more.

Description

Container

Technical Field

The utility model relates to a container field especially relates to a nucleic acid detects 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. However, in the process of nucleic acid detection, on the one hand, pharyngeal and tonsillar secretions collected from a sampling object to be detected, such as a pharyngeal swab, are likely to carry biological pathogens such as viruses and bacteria, and thus the detection environment and the surrounding environment are easily polluted. Usually, a nucleic acid detection laboratory is arranged in a hospital building, and a detected person goes to the hospital for detection; however, when an epidemic situation or an emergency occurs, a detection laboratory needs to be temporarily disposed at a specific location, such as a hub location of an airport, a station, and the like. In the prior art, a detection laboratory which is temporarily configured is built by adopting a movable plate, although the requirement of temporary setting can be met, the movable plate and other base materials need to be conveyed to a detection field in advance, and an internal strong current system, a weak current system, an air control system and various detection instruments can be configured and used after the building is finished; after the detection task is completed, the detection instrument needs to be transported away, and the movable plate and other substrates need to be removed. Therefore, the detection laboratory in the prior art needs a long time for early construction, cannot be put into use quickly, is easy to cause loss in the instrument transportation process, and increases the detection cost; some materials can not be reused after being dismantled, which causes material waste and cost increase.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a container.

The container provided by the utility model is composed of a container body (1), wherein the container body (1) is enclosed by a first side wall plate (11), a second side wall plate (12), a first end wall plate (13), a second end wall plate (14), a top plate and a bottom plate; the container body (1) is internally provided with an internal clapboard which is used for dividing the internal space of the container body (1) into at least one chamber.

The internal partitions comprise a first partition (21) and a second partition (22), and the first partition (21) and the second partition (22) both extend along the width direction of the container body (1); the first partition plate (21) and the second partition plate (22) divide the internal space of the container body (1) into a first space section, a second space section, and a third space section.

The internal partitions also comprise a third partition (23) and a fourth partition (24); the third partition plate (23) is T-shaped; the third partition plate (23) is provided in the first space section to divide the first space section into a first chamber (31), a second chamber (32), and a third chamber (33) arranged in an inverted delta shape; the fourth clapboard (24) is in a cross shape; the fourth partition plate (24) is provided in the third space section to divide the third space section into a sixth chamber (36), a seventh chamber (37), an eighth chamber (38), and a ninth chamber (39) arranged in a zigzag manner. The internal partition plate further comprises a fifth partition plate (25), and the fifth partition plate (25) is L-shaped; the fifth partition plate (25) is arranged in the second space part and close to the first partition plate (21) and the first side wall plate (11); the fifth partition plate (25) partitions the second space portion into a fourth chamber (34) and a fifth chamber (35). The first chamber (31) and the ninth chamber (39) being diagonally positioned along the container body (1); the first chamber (31) is provided with a first door body (41) along a first side wall plate (11) of the container body (1); the ninth chamber (39) is provided with a second door body (42) along a second side wall plate (12) of the container body (1) and a third door body (43) along a second end wall plate (14), and two ends of the second chamber (32) are respectively provided with a fourth door body (44) and a fifth door body (45); the fourth door body (44) is arranged on the first side wall plate (11); the fifth door body (45) is arranged on the third partition plate (23); a sixth door body (46) and a seventh door body (47) are respectively arranged at two ends of the fifth chamber (35); the sixth door body (46) is arranged on the first side wall plate (11); the seventh door body (47) is arranged on the fifth partition plate (25); an eighth door body (48) and a ninth door body (49) are respectively arranged at the end part and the side part of the seventh chamber (37); the eighth door body (48) is arranged on the first side plate; the ninth door body (49) is arranged on the fourth partition plate (24). The container provided by the utility model also comprises a tenth door body (410), an eleventh door body (411), a twelfth door body (412) and a thirteenth door body (413); the tenth door body (410) is arranged in the eighth chamber (38) along the width direction of the container body (1) to divide the eighth chamber (38) into a first channel and a second channel; the eleventh door body (411) is arranged between the fourth chamber (34) and the eighth chamber (38); the twelfth door body (412) and the thirteenth door body (413) are arranged on the second side wall plate (12) and respectively correspond to the first channel and the second channel.

The utility model provides a container still includes air pipe, return air system and fan controlling means, fan controlling means is used for control air pipe and return air system

The utility model provides a container, the return air system includes first column structure and/or second column structure, the container still includes sixth baffle (26) and seventh baffle (27); the sixth partition plate (26) is adjacent to the first partition plate (21), and the first partition plate (21), the sixth partition plate (26), the first side wall plate (11) and the second side wall plate (12) jointly enclose a first cylindrical structure with a cavity inside, wherein the first cylindrical structure extends along the width direction of the container and is positioned between the third chamber and the fourth chamber; the seventh partition plate (27) is adjacent to the second partition plate (2), the seventh partition plate (27) is arranged in the sixth chamber (36), the second partition plate (22), the seventh partition plate (27), the first side wall plate (11) and the fourth partition plate (24) jointly enclose a second cylindrical structure with a cavity inside, the second cylindrical structure extends along the width direction of the container and is positioned between the fourth chamber (34) and the sixth chamber (36), and the length of the first cylindrical structure is greater than that of the second cylindrical structure.

The container provided by the utility model also comprises a first transmission window (51), a second transmission window (52) and a third transmission window; the first transmission window (51) is arranged on the first cylindrical structure; the second transfer window (52) is disposed on the second cylindrical structure; the third transfer window (53) is provided on the second side wall plate (12) and communicates with the fourth chamber (34).

The container provided by the utility model can quickly reach the detection site according to the detection requirement without building or installing and debugging equipment, is directly put into use, and is efficient and quick; after accomplishing the detection task, the utility model provides a container need not demolish, still can move in a flexible way other positions that need set up the detection laboratory. And simultaneously, the utility model provides a container has saved and has built and demolishd the loss that causes the equipment instrument, and the life of improve equipment instrument has reduced detection cost and environmental protection more.

Drawings

Fig. 1 is a schematic view of a planar structure 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 1, wherein the container body 1 is enclosed by a first side wall plate 11, a second side wall plate 12, a first end wall plate 13, a second end wall plate 14, a top plate and a bottom plate; the container body 1 is internally provided with an internal clapboard which is used for dividing the internal space of the container body 1 into at least one chamber. As can be understood by those skilled in the art, the container provided by the embodiment is integrated in the container body 1, and can quickly reach a detection site according to detection needs, and the container is directly put into use, efficient and quick without building and installing and debugging equipment; after accomplishing the detection task, the utility model provides a container need not demolish, still can move in a flexible way other positions that need set up the detection laboratory. And simultaneously, the utility model provides a container has saved and has built and demolishd the loss that causes the equipment instrument, and the life of improve equipment instrument has reduced detection cost and environmental protection more.

Further, the internal partitions include a first partition 21 and a second partition 22, and both the first partition 21 and the second partition 22 extend in the width direction of the container body 1; the first partition plate 21 and the second partition plate 22 divide the internal space of the container body 1 into a first space portion, a second space portion, and a third space portion. It will be understood by those skilled in the art that the first partition plate 21 and the second partition plate 22 are configured to divide the internal space of the container body 1 into a middle second space portion which is slightly larger; a main frame structure in which the first space portion and the third space portion are slightly smaller.

The internal partitions further comprise a third partition 23 and a fourth partition 24; the third partition plate 23 is T-shaped; the third partition plate 23 is provided in the first space section to divide the first space section into a first chamber 31, a second chamber 32, and a third chamber 33 arranged in an inverted delta shape; the fourth partition plate 24 is in a cross shape; the fourth partition plate 24 is provided in the third space section to divide the third space section into a sixth chamber 36, a seventh chamber 37, an eighth chamber 38, and a ninth chamber 39 arranged in a zigzag shape. As will be appreciated by those skilled in the art, the first chamber 31 and the second chamber 32 have a smaller space, and the third chamber 33 has a larger space for a reagent preparation room in a nucleic acid detection process. Among the sixth chamber 36, the seventh chamber 37, the eighth chamber 38, and the ninth chamber 39, the sixth chamber 36 has a large space and is located at the other end of the container body 1 away from the third chamber 33, and thus the sixth chamber 36 is used as an amplification analysis room in the nucleic acid detection process.

The internal partition plate further comprises a fifth partition plate 25, and the fifth partition plate 25 is L-shaped; the fifth partition plate 25 is provided in the second space portion adjacent to the first partition plate 21 and the first side wall plate 11; the fifth partition plate 25 partitions the second space portion into a fourth chamber 34 and a fifth chamber 35. It will be appreciated by those skilled in the art that the fourth chamber 34 has a maximum chamber volume and can be used as a sample processing chamber in a nucleic acid detection assay.

The first chamber 31 and the ninth chamber 39 are diagonally positioned along the container body 1; the first chamber 31 is provided with a first door 41 along the first side wall plate 11 of the container body 1; the ninth chamber 39 is provided with a second door 42 along the second side wall panel 12 of the container body 1 and a third door 43 along the second end wall panel 14. It will be understood by those skilled in the art that the first chamber 31 and the ninth chamber 39 are disposed at two opposite corners of the container body 1 for installing and configuring instruments, power distribution facilities and the like in the operation, control and detection processes of the fan. The ninth chamber 39 is provided with two door bodies, so that the installation and debugging of the equipment are facilitated, and the door bodies are of a louver structure, so that the heat dissipation of the equipment in the door bodies is facilitated.

A fourth door body 44 and a fifth door body 45 are respectively arranged at two ends of the second chamber 32; the fourth door 44 is disposed on the first side wall plate 11; the fifth door body 45 is arranged on the third partition plate 23; a sixth door body 46 and a seventh door body 47 are respectively arranged at two ends of the fifth chamber 35; the sixth door body 46 is arranged on the first side wall plate 11; the seventh door body 47 is arranged on the fifth partition plate 25; an eighth door body 48 and a ninth door body 49 are respectively arranged at the end part and the side part of the seventh chamber 37; the eighth door body 48 is arranged on the first side plate; the ninth door body 49 is provided on the fourth partition plate 24. As will be understood by those skilled in the art, the second chamber 32 is provided with two door bodies and communicates the external space of the container with the third chamber 33, so that the second chamber 32 serves as a buffer passage for the third chamber 33 and the outside, and air convection caused by the entrance and exit of people between the third chamber 33 and the external space can be prevented, so that the cleanliness of the air in the third chamber 33 is reduced. The fifth chamber 35 is provided with two door bodies and is communicated with the external space of the container and the fourth chamber 34, so that the fifth chamber 35 is used as a buffer channel between the fourth chamber 34 and the outside, and can prevent air flow caused by personnel entering the fourth chamber 34 and the external space, so that biological pathogens in the fourth chamber 34 can be diffused into the external air; the seventh chamber 37 is provided with two door bodies and is communicated with the external space of the container and the sixth chamber 36, so that the seventh chamber 37 can be used as a buffer channel between the sixth chamber 36 and the outside, and biological pathogens in the sixth chamber 36 can be prevented from being diffused into the external air.

The container provided by this embodiment further includes a tenth door body 410, an eleventh door body 411, a twelfth door body 412, and a thirteenth door body 413; the tenth door body 410 is arranged in the eighth chamber 38 along the width direction of the container body 1 to divide the eighth chamber 38 into a first passage and a second passage; the eleventh door body 411 is arranged between the fourth chamber 34 and the eighth chamber 38; the twelfth door body 412 and the thirteenth door body 413 are disposed on the second side wall plate 12 and respectively correspond to the first channel and the second channel. It will be appreciated by those skilled in the art that the tenth door 410 divides the eighth chamber 38 into two lanes, and the sterilization chamber 600 may be placed in the second lane, thereby using the eighth chamber 38 as a sterilization chamber, and allowing the disposed sample and the protective clothing that passes through to be placed in the sterilization chamber for disposal. The twelfth door body 412 is used as an outlet of the fourth chamber 34; the thirteenth door 413 serves as an entrance and exit of the second channel to clean the articles in the sterilization box 600.

In this embodiment, the ventilation duct includes a first ventilation duct, a second ventilation duct, and a fan control device for controlling the airflow direction and airflow speed in the first ventilation duct and the second ventilation duct. As can be understood by those skilled in the art, the air direction and the air speed of the first ventilation pipeline and the second ventilation pipeline are adjusted by the fan control device, so that the air state with negative pressure difference or positive pressure difference in each chamber can be adjusted. As can be understood by those skilled in the art, when the interior of the chamber has a positive pressure difference, particles in the outside air can be prevented from entering the interior of the chamber, so that the cleanliness of the chamber can be kept; when the interior of the strong chamber has a negative pressure difference, the particles or pathogens in the interior air can be prevented from being diffused to the outside. Because the third chamber 33 should be adjusted to have a positive pressure differential; the fourth chamber 34 and the sixth chamber 36 should be adjusted to a state with a negative pressure difference. In other embodiments, the number of the ventilation ducts may be one, which also belongs to the protection scope of the present invention.

The container provided by the embodiment is characterized in that the return air system comprises a first cylindrical structure and a second cylindrical structure, and the container further comprises a sixth partition plate (26) and a seventh partition plate (27); the sixth partition plate (26) is adjacent to the first partition plate (21), and the first partition plate (21), the sixth partition plate (26), the first side wall plate (11) and the second side wall plate (12) jointly enclose a first cylindrical structure with a cavity inside, wherein the first cylindrical structure extends along the width direction of the container and is positioned between the third chamber and the fourth chamber; the seventh partition plate (27) is adjacent to the second partition plate (2), the seventh partition plate (27) is arranged in the sixth chamber (36), the second partition plate (22), the seventh partition plate (27), the first side wall plate (11) and the fourth partition plate (24) jointly enclose a second cylindrical structure with a cavity inside, the second cylindrical structure extends along the width direction of the container and is positioned between the fourth chamber (34) and the sixth chamber (36), and the length of the first cylindrical structure is greater than that of the second cylindrical structure.

Those skilled in the art can understand that, according to the unique structural layout in the container, the first cylindrical structure and the second cylindrical structure have an organizing effect on the air flow in the container body 1, so that the fan control system can better orderly operate the air flow among the first ventilation pipeline, the second ventilation pipeline and the chambers, and the isolation and cleanliness of the container can be improved.

In other embodiments, the air return system has only the first cylindrical structure or only the second cylindrical structure, which also falls within the protection scope of the present invention.

In other embodiments, there is also a return air system with a non-cylindrical structure, which also belongs to the protection scope of the present invention.

The container provided by the embodiment further includes a first transmission window 51, a second transmission window 52 and a third transmission window; the first transmission window 51 is provided on the first cylindrical structure; the second transfer window 52 is disposed on the second cylindrical structure; the third transfer window 53 is provided on the second side wall plate 12 and communicates with the fourth chamber 34. 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 a detector opens one sealing plate to place objects into the frame body and closes the movable sealing plate; and the inspector on the other side opens the sealing plate on the other side to take out the article. Like this, but the buffering passageway principle is the same, utilizes conveying window conveying article, can keep detecting the air separation between, does not circulate each other to the guarantee cleanliness factor is not influenced or biological pathogen can not spread.

It should be noted that, nucleic acid detection equipment, such as a PCR workbench, a reagent storage freezer, a nucleic acid rapid detection equipment, an oscillator, a water bath equipment, a nucleic acid extractor, a biosafety cabinet, a sample storage freezer, a PCR instrument, an amplified sample storage freezer, etc., can be arranged in the first space portion, the second space portion and the third space portion, so that the container can be used for completing the nucleic acid detection task in emergency.

The container provided by the above embodiment includes not only a container conforming to conventional structures such as ISO, but also a container 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

1. The container is characterized by comprising a container body (1), wherein the container body (1) is formed by enclosing a first side wall plate (11), a second side wall plate (12), a first end wall plate (13), a second end wall plate (14), a top plate and a bottom plate; the container is characterized in that an internal partition plate used for dividing the internal space of the container body (1) into at least one chamber is arranged in the container body (1).

2. A container as claimed in claim 1, characterised in that the internal partitions comprise a first partition (21) and a second partition (22), the first partition (21) and the second partition (22) each extending in the width direction of the container body (1); the first partition plate (21) and the second partition plate (22) divide the internal space of the container body (1) into a first space section, a second space section, and a third space section.

3. A container as claimed in claim 2, characterised in that said internal partitions further comprise a third partition (23) and a fourth partition (24); the third partition plate (23) is T-shaped; the third partition plate (23) is provided in the first space section to divide the first space section into a first chamber (31), a second chamber (32), and a third chamber (33) arranged in an inverted delta shape; the fourth clapboard (24) is in a cross shape; the fourth partition plate (24) is provided in the third space section to divide the third space section into a sixth chamber (36), a seventh chamber (37), an eighth chamber (38), and a ninth chamber (39) arranged in a zigzag manner.

4. A container as claimed in claim 3, characterised in that said internal partitions further comprise a fifth partition (25), said fifth partition (25) being L-shaped; the fifth partition plate (25) is arranged in the second space part and close to the first partition plate (21) and the first side wall plate (11); the fifth partition plate (25) partitions the second space portion into a fourth chamber (34) and a fifth chamber (35).

5. A container as claimed in claim 4, characterised in that the first (31) and ninth (39) chambers are diagonally located along the container body (1); the first chamber (31) is provided with a first door body (41) along a first side wall plate (11) of the container body (1); the ninth chamber (39) is provided with a second door body (42) along a second side wall plate (12) of the container body (1) and a third door body (43) along a second end wall plate (14).

6. A container as claimed in claim 5, characterised in that the second chamber (32) is provided at its ends with a fourth door (44) and a fifth door (45), respectively; the fourth door body (44) is arranged on the first side wall plate (11); the fifth door body (45) is arranged on the third partition plate (23); a sixth door body (46) and a seventh door body (47) are respectively arranged at two ends of the fifth chamber (35); the sixth door body (46) is arranged on the first side wall plate (11); the seventh door body (47) is arranged on the fifth partition plate (25); an eighth door body (48) and a ninth door body (49) are respectively arranged at the end part and the side part of the seventh chamber (37); the eighth door body (48) is arranged on the first side plate; the ninth door body (49) is arranged on the fourth partition plate (24).

7. The container according to claim 6, further comprising a tenth door body (410), an eleventh door body (411), a tenth door (412), and a thirteenth door body (413); the tenth door body (410) is arranged in the eighth chamber (38) along the width direction of the container body (1) to divide the eighth chamber (38) into a first channel and a second channel; the eleventh door body (411) is arranged between the fourth chamber (34) and the eighth chamber (38); the twelfth door body (412) and the thirteenth door body (413) are arranged on the second side wall plate (12) and respectively correspond to the first channel and the second channel.

8. A container as claimed in claim 7, further comprising ventilation ducting, a return air system and fan control means for controlling the ventilation ducting and return air system.

9. A container as claimed in claim 8, in which the return air system comprises a first cylindrical configuration and/or a second cylindrical configuration, the container further comprising a sixth baffle (26) and a seventh baffle (27); the sixth partition plate (26) is adjacent to the first partition plate (21), and the first partition plate (21), the sixth partition plate (26), the first side wall plate (11) and the second side wall plate (12) jointly enclose a first cylindrical structure with a cavity inside, wherein the first cylindrical structure extends along the width direction of the container and is positioned between the third chamber and the fourth chamber; the seventh partition plate (27) is adjacent to the second partition plate (22), the seventh partition plate (27) is arranged in the sixth chamber (36), the second partition plate (22), the seventh partition plate (27), the first side wall plate (11) and the fourth partition plate (24) jointly enclose a second cylindrical structure with a cavity inside, the second cylindrical structure extends along the width direction of the container and is positioned between the fourth chamber (34) and the sixth chamber (36), and the length of the first cylindrical structure is greater than that of the second cylindrical structure.

10. The container according to claim 9, further comprising a first transmission window (51), a second transmission window (52), and a third transmission window; the first transmission window (51) is arranged on the first cylindrical structure; the second transfer window (52) is disposed on the second cylindrical structure; the third transfer window (53) is provided on the second side wall plate (12) and communicates with the fourth chamber (34).