Partitioning device and container
By designing an adjustable partition device, the problem of fixed partition positions inside containers is solved, enabling flexible partitioning of the container space and cargo adaptability to meet the transportation needs of different customers.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU RUNYANG LOGISTIC EQUIP
- Filing Date
- 2025-07-22
- Publication Date
- 2026-07-10
AI Technical Summary
The partitions inside existing containers cannot be adjusted, which cannot meet the storage needs of different customers for goods of different sizes.
A partition device is designed, including a partition assembly, a limiting clip, and an elastic element. By moving the limiting clip and applying force with the elastic element, the position of the partition inside the container can be adjusted to meet the transportation needs of different customers.
It enables flexible adjustment of the partitions within the container to meet the transportation requirements of goods of different sizes without altering the container structure, and is easy to operate.
Smart Images

Figure CN224477373U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of containers, and more specifically to a partition device and a container. Background Technology
[0002] As LCL (Less than Container Load) shipping becomes increasingly popular, there is a need to divide the interior of containers into independent storage spaces of different sizes to meet the requirements of storing and loading / unloading different items for different customers.
[0003] Currently, a single partition is installed inside the box to divide the interior into independent storage spaces.
[0004] One method involves welding the partition directly inside the enclosure. This partition is an integral part of the enclosure and cannot be removed. The position of the partition within the enclosure cannot be adjusted.
[0005] Another approach is to use a detachable partition structure. However, this requires installing a mounting plate connected to the partition on the side panel of the enclosure. Since the position of the mounting plate is fixed relative to the enclosure, the partition's position within the enclosure is also fixed and cannot be adjusted.
[0006] Therefore, this utility model provides a partition plate device and a container to at least partially solve the above-mentioned problems. Utility Model Content
[0007] The utility model description section introduces a series of simplified concepts, which will be further described in detail in the specific embodiments section. This utility model description section is not intended to limit the key features and essential technical features of the claimed technical solution, nor is it intended to determine the scope of protection of the claimed technical solution.
[0008] To at least partially solve the above-mentioned technical problems, the present invention provides a partition plate device, the partition plate device comprising:
[0009] A partition assembly includes a body and an inner vertical beam, the inner vertical beam being connected to an end of the body along a first direction, and the length direction of the inner vertical beam extending along a second direction perpendicular to the first direction.
[0010] The limiting fastener includes a plate and a connecting column. One end of the connecting column is connected to the plate. The connecting column is movably inserted through the inner vertical beam in a first direction. The plate is located on the outside of the inner vertical beam.
[0011] The elastic element is used to contact the limit latch and the partition assembly to apply a force to the limit latch that enables it to move outward toward the partition assembly.
[0012] According to the partition plate device of this utility model, the setting of the limiting clip allows the position of the partition plate device in the container along the length of the container to be adjusted as needed, so as to meet the requirements of different customers to transport goods of different sizes without changing the structure of the container; in addition, the position of the partition plate device in the container along the length of the container can be adjusted by pulling the limiting clip along the first direction, which is simple to operate.
[0013] Optionally, the partition assembly also includes an outer vertical beam connected to the outer side of the inner vertical beam, the outer vertical beam extending along a second direction in its length direction, and a limiting clip located on the side of the outer vertical beam along the second direction.
[0014] Optionally, the main body includes two sub-bodies. Along the first direction, the first end of the sub-bodies is provided with an inner vertical beam, and the second ends of the two sub-bodies are used for connection.
[0015] Optionally, the second end of the sub-body is provided with a connecting vertical beam extending along the second direction in the length direction, and the partition plate device also includes an overlapping plate, and the two connecting vertical beams are connected by the overlapping plate to connect the two sub-body.
[0016] Optionally, the lap plate is fixedly connected to one side of the connecting vertical beam along the thickness direction of the sub-body, and along the first direction, the lap plate extends and protrudes to the side of the connecting vertical beam away from the sub-body to which it is connected.
[0017] When the two sub-bodies are connected, the two connecting vertical beams are set sequentially along the first direction, and the two overlapping plates are located on both sides of the connecting vertical beam along the thickness direction of the sub-bodies.
[0018] Optionally, at least one of the overlapping plate and the connecting vertical beam has a mounting hole, the wall of which includes a first plane. The partition plate assembly further includes two connectors, each connector having a rod portion and a head connected to one end of the rod portion. The rod portion has a second plane parallel to the length direction of the rod portion.
[0019] The rod passes through the connecting vertical beam and the two overlapping plates to connect the two sub-bodies. The second plane is located in the mounting hole and is parallel to the first plane. The heads of the two connectors are located on both sides of the connecting vertical beam along the thickness direction of the sub-bodies.
[0020] Optionally, along the first direction, the mounting hole is located at the connecting vertical beam.
[0021] Optionally, the partition assembly also includes a crossbeam extending along a first direction in its length direction, located at the end of the body along a second direction, and connected to the end of the inner vertical beam.
[0022] Optionally, the body is a first corrugated plate, the first corrugated plate has a first trough, and the connecting column is located in the first trough along the thickness direction of the body.
[0023] This utility model also provides a container, which includes a container body and the aforementioned partition device.
[0024] According to the present invention, the container includes the aforementioned partition device and the setting of the limiting clip, the position of the partition device in the container body along the length direction of the container body can be adjusted as needed to meet the requirements of different customers to transport goods of different sizes without changing the structure of the container; in addition, the position of the partition device in the container body along the length direction of the container body can be adjusted by pulling the limiting clip along the first direction, which is simple to operate.
[0025] Optionally, the enclosure includes a side wall, the side wall includes a second corrugated plate, the inner side of the second corrugated plate has a second trough, the bottom surface of the second trough includes the bottom surface of the enclosure trough and the side surface of the enclosure trough, the side surface of the enclosure trough is inclined to the bottom surface of the enclosure trough.
[0026] The surface of the plate away from the connecting column includes a first dividing surface and a second dividing surface. The second dividing surface is inclined to the first dividing surface. When the plate abuts against the second corrugated plate, the first dividing surface is in contact with the bottom surface of the corrugated trough of the box, and the second dividing surface is in contact with the side surface of the corrugated trough of the box. Attached Figure Description
[0027] To make the advantages of this invention more readily apparent, the invention briefly described above will be described in more detail with reference to the specific embodiments shown in the accompanying drawings. It should be understood that these drawings depict only typical embodiments of the invention and should not be construed as limiting its scope of protection. The invention is described and explained with additional features and details through the drawings.
[0028] Figure 1 This is an exploded view showing the splicing of the first sub-body and the second sub-body of the partition plate device according to a preferred embodiment of the present invention.
[0029] Figure 2 for Figure 1 A cross-sectional view of the partition plate device at point AA;
[0030] Figure 3 for Figure 1 A partial schematic diagram of the top sectional view showing the partition plate device connected to the side wall;
[0031] Figure 4 for Figure 1 A partially enlarged schematic diagram of section B of the partition plate device;
[0032] Figure 5 for Figure 1 A partially enlarged schematic diagram of section C of the partition plate device;
[0033] Figure 6 for Figure 3 A partially enlarged schematic diagram of the partition plate device at point D; and
[0034] Figure 7 for Figure 3 A partially enlarged schematic diagram of point E of the partition plate device.
[0035] Explanation of reference numerals in the attached figures
[0036] 110: Partition assembly 111: Main body
[0037] 112: Inner vertical beam; 113: Outer vertical beam
[0038] 114: Connecting vertical beam 115: Horizontal beam
[0039] 116: First sub-body 117: Second sub-body
[0040] 118: Overlap plate; 119: Mounting hole
[0041] 120: Limiting clip 121: Plate body
[0042] 122: First dividing surface; 123: Second dividing surface
[0043] 124: Connecting post; 130: Elastic element
[0044] 131: First plane 132: First trough
[0045] 133: Nut; 140: Connector
[0046] 141: Rod section 142: Second plane
[0047] 143: Head 150: Lateral wall
[0048] 151: Second trough 152: Bottom surface of the box trough
[0049] 153: Side of the box trough Detailed Implementation
[0050] In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. However, it will be apparent to those skilled in the art that embodiments of the present invention may be practiced without one or more of these details. In other instances, certain technical features well-known in the art have not been described in order to avoid confusion with embodiments of the present invention.
[0051] The preferred embodiments of this utility model will now be described with reference to the accompanying drawings. It should be noted that the terms "upper," "lower," and similar expressions used herein are for illustrative purposes only and are not intended to be limiting.
[0052] In this document, ordinal numbers such as “first” and “second” used in this invention are merely identifiers and do not include any other meaning, such as a specific order.
[0053] To fully understand the embodiments of this utility model, a detailed structure will be presented in the following description. Obviously, the implementation of the embodiments of this utility model is not limited to the specific details familiar to those skilled in the art. Preferred embodiments of this utility model are described in detail below; however, in addition to these detailed descriptions, this utility model may also include other embodiments.
[0054] This utility model provides a partition device. The partition device is used in a shipping container. The shipping container includes a container body. The container body includes side walls 150, a base frame, end walls, end doors, and a top wall. The side walls 150, base frame, end walls, end doors, and top wall form a generally cuboid structure. The partition device is disposed within the container body. When the partition device is disposed within the container body, the thickness direction of the partition device body 111 is parallel to the length direction of the container body, and the two ends of the partition device along the width direction of the container body respectively abut against the two side walls 150. In this way, the partition device divides the internal space of the container body to form sub-spaces.
[0055] When used in containers, the position of the partition devices along the length of the container can be set as needed and adjusted at any time to create sub-spaces of different sizes, thus meeting the requirements of different customers for transporting goods of different sizes without changing the container's structure. Therefore, partition devices can be used on existing containers or on new containers.
[0056] Please refer to Figures 1 to 7 The partition assembly includes a partition plate assembly 110. The partition plate assembly 110 includes a body 111 and an inner vertical beam 112. The body 111 is a plate, for example, a first corrugated plate. The inner vertical beam 112 is connected to the end of the body 111 along a first direction D1. The length direction of the inner vertical beam 112 extends along a second direction D2. The second direction D2 is perpendicular to the first direction D1.
[0057] When the partition device is used in a container, the first direction D1 can be parallel to the width direction of the container. The second direction D2 can be parallel to the height direction of the container.
[0058] like Figures 1 to 3 ,as well as Figure 6As shown, the partition plate device also includes a limiting clip 120, an elastic element 130, and a nut 133. The limiting clip 120 includes a plate body 121 and a connecting post 124. One end of the connecting post 124 is connected to the plate body 121. The connecting post 124 is movably inserted through the inner vertical beam 112 along a first direction D1. The end of the connecting post 124 away from the plate body 121 is threaded to the nut 133. The plate body 121 is located on the outer side of the inner vertical beam 112 along the first direction D1, away from the center of the body 111.
[0059] The elastic element 130 is used to contact the limiting latch 120 and the partition plate assembly 110 to apply a force to the limiting latch 120. This force enables the limiting latch 120 to move outward along a first direction D1 away from the center of the partition plate assembly 110. Specifically, the elastic element 130 can be a cylindrical spring. The elastic element 130 is sleeved on the connecting post 124. The elastic element 130 is in a compressed state. One end of the elastic element 130 abuts against the inner vertical beam 112. The other end of the elastic element 130 abuts against the plate body 121. Thus, the force exerted by the elastic element 130 on the plate body 121 enables the plate body 121 to move outward along the first direction D1 away from the center of the body 111.
[0060] Thus, when the partition device is installed inside the box, the plate 121 abuts against the inner side of the side wall 150 under the action of the elastic member 130. In this way, the partition device is fixedly connected to the box. At this time, the partition assembly 110 divides the internal space of the box to form sub-spaces.
[0061] When it is necessary to remove the partition plate device, the limiting clip 120 is moved along the first direction D1 toward the center of the body 111 so that the limiting clip 120 is away from the side wall 150, and the partition plate device can be removed.
[0062] When it is necessary to adjust the position of the partition device within the box along the length of the box, the limiting clip 120 can be moved along the first direction D1 to move away from the side wall 150. At this time, the partition device can be moved to the desired position along the length of the box as needed, and then the action on the limiting clip 120 can be released. Then, under the action of the elastic member 130, the limiting clip 120 moves away from the center of the body 111 along the first direction D1, so that the limiting clip 120 abuts against the side wall 150 of the box.
[0063] Please refer to Figure 3 The connection between the connecting post 124 and the connecting nut 133 can be adjusted by rotating the nut 133 on the connecting post 124 to adjust the connection strength between the limit clip 120 and the side wall 150.
[0064] In this embodiment, the limiting clip 120 can be set to adjust the position of the partition device in the container along the length of the container as needed, so as to meet the requirements of different customers to transport goods of different sizes without changing the structure of the container. In addition, by pulling the limiting clip 120 along the first direction D1, the position of the partition device in the container along the length of the container can be adjusted, which is simple to operate.
[0065] Optionally, such as Figure 6 As shown, the side wall 150 of the enclosure includes a second corrugated plate. The inner surface of the second corrugated plate has a second trough 151. The partition assembly 110 also includes an outer vertical beam 113. The outer vertical beam 113 is connected to the outer surface of the inner vertical beam 112 away from the body 111. The length direction of the outer vertical beam 113 extends along a second direction D2. Along the second direction D2, the outer vertical beam 113 is located between the two ends of the inner vertical beam 112. Along the second direction D2, there is a gap between the ends of the outer vertical beam 113 and the inner vertical beam 112. Along the second direction D2, a retaining clip 120 is located to the side of the outer vertical beam 113. Thus, when the partition assembly connects to the side wall 150 to partition the internal space of the enclosure, the outer vertical beam 113 extends into the second trough 151 of the enclosure. Furthermore, the outer vertical beam 113 can increase the strength of the partition assembly.
[0066] Optionally, such as Figures 1 to 3 As shown, the main body 111 includes two sub-bodies. The two sub-bodies include a first sub-bodies 116 and a second sub-bodies 117. Along the first direction D1, each of the first ends of both sub-bodies is provided with an inner vertical beam 112. Along the first direction D1, the second ends of the two sub-bodies are positioned opposite each other for connection. Along the first direction D1, the first and second ends of the sub-bodies are back-to-back. Thus, by splicing the two sub-bodies along the width direction of the box, the internal space of the box is separated; each sub-bodies are lightweight and easy to transport.
[0067] It is understood that, in embodiments not shown, the partition assembly may be a single, non-removable unit.
[0068] Alternatively, please refer to Figures 1 to 5 The second end of the sub-body is provided with a connecting vertical beam 114 extending along the second direction D2 in the length direction. The partition plate device also includes an overlapping plate 118. After the two sub-body bodies are spliced along the width direction of the box, the two connecting vertical beams 114 face each other and are connected by the overlapping plate 118 to connect the two sub-body bodies. Thus, the connecting vertical beams 114 can increase the strength of the sub-body bodies. The two connecting vertical beams 114 of the two sub-body bodies connected by the overlapping plate 118 facilitate operation.
[0069] Furthermore, the overlapping plate 118 is fixedly connected to one side of the connecting vertical beam 114 along the thickness direction of the sub-body. Along the first direction D1, the overlapping plate 118 extends and protrudes to the side of the connecting vertical beam 114 away from the sub-body to which it is connected, and the two connecting vertical beams 114 of the two sub-body are respectively connected to the two overlapping plates 118.
[0070] When the two sub-bodies are connected, the two connecting vertical beams 114 are arranged sequentially along the first direction D1. The overlapping plate 118 of the first sub-bodies 116 overlaps with the connecting vertical beam 114 of the second sub-bodies 117, and the overlapping plate 118 of the second sub-bodies 117 overlaps with the connecting vertical beam 114 of the first sub-bodies 116. The two overlapping plates 118 are located on both sides of the connecting vertical beam 114 along the thickness direction of the body 111.
[0071] Thus, when a partition device needs to be installed inside the box to divide the internal space, the first sub-body 116 is made upright (the inner vertical beam 112 of the first sub-body 116 extends along the height direction of the box), and the plate 121 of the first sub-body 116 is disposed within the second trough 151 of the inner side surface of the first side wall 150. The plane on which the first sub-body 116 is located is inclined to the plane on which the first side wall 150 of the box is located. At this time, along the length direction of the box, the connecting vertical beam 114 of the first sub-body 116 is closer to the first end of the box than the inner vertical beam 112 of the first sub-body 116.
[0072] The second sub-body 117 is made upright (the inner vertical beam 112 of the second sub-body 117 extends along the height direction of the box), and the plate 121 of the second sub-body 117 is disposed within the second trough 151 on the inner side surface of the second side wall 150. The plane on which the second sub-body 117 is located is inclined to the plane on which the second side wall 150 of the box is located. At this time, along the length direction of the box, the connecting vertical beam 114 of the second sub-body 117 is closer to the second end of the box than the inner vertical beam 112 of the second sub-body 117.
[0073] The connecting vertical beams 114 of the first sub-body 116 and the second sub-body 117 are pushed along the length of the box body to cause the two sub-body bodies to swing, thereby bringing the two connecting vertical beams 114 of the two sub-body bodies closer together until the thickness direction of the two sub-body bodies (that is, the thickness direction of the body 111) is parallel to the length direction of the box body. At this point, the two sub-body bodies are spliced along the width direction of the box body. Thus, the connection between the two sub-body bodies is firm.
[0074] Alternatively, please refer to Figures 3 to 5 ,as well as Figure 7Both overlapping plates 118 have mounting holes 119. The wall of the mounting hole 119 includes a first plane 131. The partition plate device also includes two connectors 140. Each connector 140 has a rod portion 141 and a head 143 connected to one end of the rod portion 141. The rod portion 141 has a second plane 142 parallel to the length direction of the rod portion 141.
[0075] The rod 141 passes through the connecting vertical beam 114 and connects to the two overlapping plates 118, and is then connected to the nut 133 to connect the two sub-bodies. The second plane 142 is located within the mounting hole 119 and is parallel to the first plane 131. Thus, the connector 140 passing through the connecting vertical beam 114 cannot rotate. Two connectors 140 are respectively inserted into the two connecting vertical beams 114. Along the thickness direction of the body 111, the heads 143 of the two connectors 140 are located on opposite sides of the connecting vertical beam 114. Thus, the heads 143 of the two connectors 140 are located within the two sub-spaces separated by the partition device. Personnel located in either sub-space cannot disassemble the two connectors 140, thereby improving the anti-theft function.
[0076] Furthermore, the connector 140 can be a semi-circular head square neck bolt. This facilitates the selection of the connector 140.
[0077] It is understood that, in embodiments not shown, the overlapping plate can be a component independent of the sub-body. There can be only one overlapping plate. Two sub-body sections are joined along the width of the housing, and the overlapping plate can overlap to the two connecting vertical beams of the two sub-body sections, and be connected by connectors described later. In this case, both the overlapping plate and one connecting vertical beam have mounting holes. The mounting holes in the overlapping plate are for inserting one connector. The mounting holes in the connecting vertical beam are for inserting another connector.
[0078] Alternatively, please refer to Figure 5 Along the first direction D1, the mounting hole 119 is located at the connecting vertical beam 114. Therefore, the mounting hole 119 is not easily damaged.
[0079] Optionally, please return Figure 1 The partition assembly 110 also includes a crossbeam 115. The crossbeam 115 extends along a first direction D1. The crossbeam 115 is located at the end of the sub-body along a second direction D2 and is connected to the end of the inner vertical beam 112. The crossbeam 115 is also connected to the end of the connecting vertical beam 114. Two crossbeams 115 are respectively provided at both ends of the first sub-body 116 and the second sub-body 117 along the second direction D2. An inner vertical beam 112 and a connecting vertical beam 114 are respectively provided at both ends of the first sub-body 116 and the second sub-body 117 along the first direction D1. Both the first sub-body 116 and the second sub-body 117 are provided with an outer vertical beam 113. As a result, the sub-body has high strength.
[0080] Optionally, such as Figure 6 As shown, the first corrugated plate has a first trough portion 132. A connecting post 124 is located within the first trough portion 132 along the thickness direction of the body 111. This allows for a reduction in the thickness of the partition plate assembly 110.
[0081] This invention also includes a container. The container includes the aforementioned partition device.
[0082] In this embodiment, the container includes the aforementioned partition device. The setting of the limiting clip 120 allows the position of the partition device in the container along the length of the container to be adjusted as needed, meeting the requirements of different customers to transport goods of different sizes without changing the structure of the container. In addition, by pulling the limiting clip 120 along the first direction D1, the position of the partition device in the container along the length of the container can be adjusted, which is simple to operate.
[0083] Optionally, such as Figure 6 As shown, the second trough portion 151 includes a bottom surface 152 and a side surface 153. The bottom surface 152 is perpendicular to the width direction of the box. The side surface 153 is inclined to the bottom surface 152.
[0084] The surface of plate 121 away from connecting post 124 includes a first separating surface 122 and a second separating surface 123. The second separating surface 123 is inclined to the first separating surface 122. When plate 121 abuts against the second corrugated plate, the first separating surface 122 adheres to and abuts against the bottom surface 152 of the corrugated trough of the box, and the second separating surface 123 adheres to and abuts against the side surface 153 of the corrugated trough of the box. This increases the connection strength between the separating plate device and the side wall 150.
[0085] This utility model has been described through the above embodiments. However, it should be understood that the above embodiments are for illustrative purposes only and are not intended to limit the utility model to the described embodiments. Furthermore, those skilled in the art will understand that this utility model is not limited to the above embodiments, and many more variations and modifications can be made based on the teachings of this utility model, all of which fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.
[0086] Unless otherwise defined, the technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used herein is for descriptive purposes only and is not intended to limit the scope of the invention. Terms such as “component” as used herein may refer to a single part or a combination of multiple parts. Terms such as “installation” or “installation” as used herein may refer to one component being directly attached to another component or one component being attached to another component via an intermediary. A feature described in one embodiment herein may be applied, alone or in combination with other features, to another embodiment, unless that feature is not applicable in that other embodiment or is otherwise stated.
Claims
1. A partition plate device, characterized in that, The partition plate device includes: A partition assembly, the partition assembly including a body and an inner vertical beam, the inner vertical beam being connected to an end of the body along a first direction, the length direction of the inner vertical beam extending along a second direction perpendicular to the first direction; A limiting fastener, comprising a plate and a connecting post, one end of the connecting post being connected to the plate, the connecting post being movably inserted through the inner vertical beam along the first direction, and the plate being located on the outside of the inner vertical beam; An elastic element is provided for contacting the limiting latch and the partition assembly to apply a force to the limiting latch that causes it to move outward toward the partition assembly.
2. The partition plate device according to claim 1, characterized in that, The partition assembly also includes an outer vertical beam connected to the outer side of the inner vertical beam. The length direction of the outer vertical beam extends along the second direction, and the limiting clip is located to the side of the outer vertical beam along the second direction.
3. The partition plate device according to claim 1, characterized in that, The main body includes two sub-bodies. Along the first direction, the first end of each sub-bodies is provided with the inner vertical beam, and the second ends of the two sub-bodies are used for connection.
4. The partition plate device according to claim 3, characterized in that, The second end of the sub-body is provided with a connecting vertical beam extending along the second direction in the length direction. The partition plate device also includes an overlapping plate. The two connecting vertical beams are connected through the overlapping plate to connect the two sub-body bodies.
5. The partition plate device according to claim 4, characterized in that, The overlapping plate is fixedly connected to one side of the connecting vertical beam along the thickness direction of the sub-body. Along the first direction, the overlapping plate extends and protrudes to the side of the connecting vertical beam away from the sub-body to which it is connected. When the two sub-bodies are connected, the two connecting vertical beams are arranged sequentially along the first direction, and the two overlapping plates are respectively located on both sides of the connecting vertical beams along the thickness direction of the sub-bodies.
6. The partition plate device according to claim 4 or 5, characterized in that, At least one of the overlapping plate and the connecting vertical beam has a mounting hole, the wall of the mounting hole including a first plane, and the partition plate device further includes two connectors, each connector having a rod portion and a head connected to one end of the rod portion, the rod portion having a second plane parallel to the length direction of the rod portion. The rod passes through the connecting vertical beam and the two overlapping plates to connect the two sub-bodies. The second plane is located in the mounting hole and is parallel to the first plane. The heads of the two connectors are respectively located on both sides of the connecting vertical beam along the thickness direction of the sub-bodies.
7. The partition plate device according to claim 6, characterized in that, Along the first direction, the mounting hole is located at the connecting vertical beam.
8. The partition plate device according to claim 1, characterized in that, The partition assembly also includes a crossbeam extending along the first direction in its length direction, located at the end of the body along the second direction, and connected to the end of the inner vertical beam.
9. The partition plate device according to claim 1, characterized in that, The body is a first corrugated plate, which has a first trough. Along the thickness direction of the body, the connecting post is located within the first trough.
10. A container, characterized in that, The container includes a container body and a partition device according to any one of claims 1 to 9.
11. The container according to claim 10, characterized in that, The enclosure includes a side wall, the side wall includes a second corrugated plate, the inner side of the second corrugated plate has a second trough, the bottom surface of the second trough includes the bottom surface of the enclosure trough and the side surface of the enclosure trough, the side surface of the enclosure trough is inclined to the bottom surface of the enclosure trough; The surface of the plate away from the connecting column includes a first separating surface and a second separating surface. The second separating surface is inclined to the first separating surface. When the plate abuts against the second corrugated plate, the first separating surface is in contact with the bottom surface of the corrugated trough of the box, and the second separating surface is in contact with the side surface of the corrugated trough of the box.