container
By installing overhead crane components inside the container, including support columns, support brackets, track beams, and cranes, the problem of low loading and unloading efficiency in traditional containers is solved, enabling cross-container transport and improving loading and unloading efficiency and transportation flexibility.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU RUNYANG LOGISTIC EQUIP
- Filing Date
- 2025-06-20
- Publication Date
- 2026-07-10
AI Technical Summary
Traditional containers are inefficient when loading and unloading bulk cargo or heavy equipment, and existing container spreaders have low integration with the container body, making it impossible to achieve cross-container transport.
The container is equipped with a gantry crane assembly, including support columns, support brackets, rail beams, and a crane, to enable the lifting and transportation of goods across containers. The support columns are integrated between the top and bottom side beams of the container, and the rail beams and gantry crane beams are movablely connected. The crane can be movably connected to the gantry crane beams to realize the lifting and transportation of goods inside the container and across containers.
It improved the loading and unloading efficiency between containers, realized cross-container transportation, and enhanced loading and unloading efficiency and transportation flexibility.
Smart Images

Figure CN224477392U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates generally to the technical field of containers, and more specifically to a container. Background Technology
[0002] When traditional containers transport bulk cargo or heavy equipment, they usually rely on external lifting equipment (such as forklifts and cranes) for loading and unloading, requiring supporting loading and unloading sites and equipment, which is inefficient in specific or temporary operation scenarios.
[0003] Existing technologies also include containers with simple spreader arms inside the container. However, the spreader arms of such containers have low integration with the container body. When consolidating containers, the spreader arms between the different containers cannot be linked, making it impossible to transport goods across multiple containers and affecting the loading and unloading efficiency between containers. Utility Model Content
[0004] The utility model description section introduces a series of simplified concepts, which will be further explained in detail in the detailed description 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.
[0005] To at least partially solve the above problems, this utility model provides a container, the container comprising:
[0006] At least one enclosure, the enclosure comprising a top side beam and a bottom side beam;
[0007] A gantry crane assembly, disposed within one of the housings or a cargo-loading accommodating space formed by at least two of the housings, the gantry crane assembly comprising:
[0008] A support column is provided between the top side beam and the bottom side beam; a support bracket is provided connected to the support column and arranged above the middle of the support column along the height direction of the box body.
[0009] A track beam, which is connected to the top of the supporting bracket and extends along the length or width of the box body;
[0010] A gantry crane beam, movably connected to the track beam along its extension direction, and extending in a direction perpendicular to the track beam; and
[0011] A crane, movably connected to the gantry beam along the extension direction of the gantry beam, for lifting goods inside the container or the accommodating space.
[0012] According to the container of this utility model, the supporting columns are integrated between the top and bottom side beams of the container body. Combined with the setting of the supporting brackets, the track beam is integrated on the top of the container. The overhead crane beam is movably connected to the track beam, and the crane is movably connected to the overhead crane beam. This enables the lifting and transportation of goods inside the container or in the storage space formed by the container splicing structure, realizing cross-container transportation and improving the loading and unloading efficiency of goods between containers.
[0013] Optionally, the gantry crane assembly further includes a linear drive member and a track, the linear drive member being disposed at the end of the gantry crane beam and the track being disposed at the top of the track beam; the linear drive member is coupled to the track and configured to drive the gantry crane beam along the track.
[0014] Optionally, the overhead crane beam includes a top beam plate, a bottom beam plate, and a connecting plate, wherein the top beam plate and the bottom beam plate are spaced apart along the height direction, and the connecting plate is disposed between the top beam plate and the bottom beam plate;
[0015] The end of the bottom beam plate is recessed upward along the height direction to form a clearance groove, and the linear drive member is at least partially located in the clearance groove and connected to the bottom beam plate.
[0016] Optionally, the container includes a box body, the track beam extends along the length of the box body, and the two ends of the track beam are respectively located at the two ends of the box body; the two ends of the track beam are provided with limiters to limit the travel of the overhead crane beam.
[0017] Optionally, the container includes at least two container bodies, which are arranged and connected together along the length direction;
[0018] The overhead crane assembly includes at least two track beams and at least one connecting beam. The at least two track beams are arranged along the length direction, and the two ends of the connecting beam are respectively connected to the two adjacent track beams along the length direction.
[0019] Optionally, adjacent boxes are connected and constructed to form an accommodating space extending along the length direction, and the boxes include end wall panels or boxes at both ends of the accommodating space.
[0020] Optionally, the container includes at least two container bodies, which are arranged and connected together along the width direction;
[0021] The track beam extends along the length direction, and the overhead crane beam extends along the width direction.
[0022] Optionally, the container includes at least two container bodies, which are arranged and connected together along the width direction;
[0023] The track beam extends along the width direction to at least two of the boxes, and the overhead crane beam extends along the length direction.
[0024] Optionally, adjacent boxes are connected and constructed to form an accommodating space extending along the width direction, and the boxes include side wall panels arranged along the width direction on at least one side of the accommodating space.
[0025] Optionally, at least one of the enclosures includes a side wall panel, and the supporting column is connected to the side wall panel. Attached Figure Description
[0026] The following drawings, which illustrate embodiments of the present invention, are incorporated herein as part of the present invention for understanding the invention. The drawings show embodiments of the present invention and their descriptions, serving to explain the principles of the present invention. In the drawings,
[0027] Figure 1 This is a perspective view of a container according to the first preferred embodiment of the present invention.
[0028] Figure 2 For along Figure 1 A schematic diagram of the cross-section intercepted by the centerline AA;
[0029] Figure 3 This is a perspective view of a container according to the second preferred embodiment of the present invention.
[0030] Figure 4 for Figure 3 A partial schematic diagram of the containers in the diagram;
[0031] Figure 5 This is a perspective view of a container according to the third preferred embodiment of the present invention; and
[0032] Figure 6 This is a perspective view of a container according to the fourth preferred embodiment of the present invention.
[0033] Explanation of reference numerals in the attached figures
[0034] 100: Box body; 101: Top and side beams
[0035] 102: Bottom side beam; 103: Top beam
[0036] 104: Bottom end beam; 105: Bottom corner piece
[0037] 106: Corner fittings 107: Flooring
[0038] 108: Corner post 109: Side wall panel
[0039] 110: End wall panel; 111: Box door
[0040] 112: Top plate; 120: Overhead crane assembly
[0041] 121: Support column 122: Support bracket
[0042] 123: Track beam; 124: Hoist beam
[0043] 125: Crane 126: Linear drive component
[0044] 127: Track; 128: Top beam slab
[0045] 129: Bottom beam plate; 130: Connecting plate
[0046] 131: Support plate 132: Clearance groove
[0047] 133: Limiting component; 234: Connecting beam
[0048] 113: Accommodation space; D1: Length direction
[0049] D2: Width direction; D3: Height direction 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] In this document, ordinal numbers such as "first" and "second" used in this invention are merely identifiers and do not have any other meaning, such as a specific order. Moreover, for example, the term "first component" does not imply the existence of "second component," and the term "second component" does not imply the existence of "first component."
[0052] In this article, terms such as "up," "down," "front," "back," "left," and "right" are used only to indicate the relative positional relationship between related parts, rather than to define the absolute position of these related parts.
[0053] In this document, terms such as “equal” and “same” are not strict mathematical and / or geometric limitations, but also include errors that are understandable to those skilled in the art and permissible in manufacturing or use.
[0054] Unless otherwise stated, the numerical ranges in this document include not only the entire range within its two endpoints, but also the subranges contained therein.
[0055] Figures 1 to 6 A container according to the present invention is shown. The container includes at least one container body 100 and a gantry crane assembly 120. The container body 100 includes a top side beam 101 and a bottom side beam 102. The gantry crane assembly 120 is disposed within one container body 100 or within a cargo-carrying accommodating space 113 formed by at least two container bodies 100.
[0056] The overhead crane assembly 120 includes a support column 121, a support bracket 122, a track beam 123, an overhead crane beam 124, and a crane 125. The support column 121 is disposed between the top side beam 101 and the bottom side beam 102. The support bracket 122 is connected to the support column 121 and is positioned above the middle of the support column 121 along the height direction D3 of the housing 100. The track beam 123 is connected to the top of the support bracket 122 and extends along the length direction D1 or the width direction D2 of the housing 100. The overhead crane beam 124 is movably connected to the track beam 123 along its extension direction and extends in a direction perpendicular to the track beam 123. The crane 125 is movably connected to the overhead crane beam 124 along its extension direction, and is used to lift goods within the housing 100 or the accommodating space 113.
[0057] According to the container of this utility model, the support column 121 is integrated between the top side beam 101 and the bottom side beam 102 of the container body 100. Combined with the setting of the support bracket 122, the track beam 123 is integrated on the top of the container. The overhead crane beam 124 is movably connected to the track beam 123, and the crane 125 is movably connected to the overhead crane beam 124. This enables the hoisting and transportation of goods within the container body 100 or within the accommodating space 113 formed by the splicing structure of the container body 100, realizing cross-container transportation and improving the loading and unloading efficiency of goods between containers 100.
[0058] The following combination Figures 1 to 6 The present invention provides a more detailed description of the container through several specific embodiments.
[0059] First Implementation Method
[0060] Reference Figure 1 and Figure 2 According to the first embodiment, the container includes a container body 100. The main frame of the container body 100 includes two bottom side beams 102, two bottom end beams 104, four bottom corner pieces 105, four corner posts 108, four top corner pieces 106, two top side beams 101, and two top end beams 103.
[0061] The bottom side beam 102 extends along the length direction D1 of the box body 100, and the two bottom side beams 102 are spaced apart along the width direction D2 of the box body 100. Two bottom end beams 104 are arranged at both ends of the bottom side beams 102 along the length direction D1 of the box body 100, and four bottom corner pieces 105 are respectively arranged at both ends of the two bottom end beams 104, with the ends of both the bottom side beams 102 and the bottom end beams 104 connected to the bottom corner pieces 105. The top side beam 101 extends along the length direction D1 of the box body 100, and the two top side beams 101 are spaced apart along the width direction D2 of the box body 100. Two top top beams 103 are arranged at both ends of the top side beams 101 along the length direction D1 of the box body 100, and four top corner pieces 106 are respectively arranged at both ends of the two top top beams 103, with the ends of both the top side beams 101 and the top top beams 103 connected to the top corner pieces 106. The corner posts 108 extend along the height direction D3 of the box 100, and the four corner posts 108 are respectively disposed between the four bottom corner pieces 105 and the four top corner pieces 106. The top end of the corner post 108 is connected to the top corner piece 106, and the bottom end of the corner post 108 is connected to the bottom corner piece 105, thereby constructing the main frame structure of the box 100.
[0062] Optionally, refer to Figure 1 and Figure 2 The enclosure 100 also includes a floor 107, side wall panels 109, end wall panels 110, a door 111, and a top panel 112. The floor 107 is positioned above the bottom side beams 102 and the bottom end beams 104, and the bottom surface of the floor 107 is connected to the top surfaces of the bottom side beams 102 and the bottom end beams 104. Preferably, the enclosure 100 may also include a bottom crossbeam (not shown in the figure), which is positioned between the two bottom side beams 102, and the bottom surface of the floor 107 is connected to the bottom crossbeam, thereby making the floor 107 more stable. The side wall panels 109 may be corrugated plates and are arranged along the width direction D2 of the enclosure 100 on one or both sides of the enclosure 100. The side wall panels 109 are positioned between the top side beams 101 and the bottom side beams 102, and the side wall panels 109 are connected to the corner posts 108, thereby achieving side enclosure of the enclosure 100. The end wall panel 110 can be a corrugated plate, and the end wall panel 110 and the box door 111 are arranged at both ends of the box body 100 along the length direction D1. The end wall panel 110 is located between the top beam 103 and the bottom beam 104, and the end wall panel 110 is connected to the corner post 108. The box door 111 is located between the top beam 103 and the bottom beam 104, and the box door 111 is constructed as a double door and is respectively connected to two corner posts 108 spaced apart along the width direction D2 of the box body 100.
[0063] Reference Figure 1 and Figure 2Optionally, a top plate 112 is disposed on the top of the housing 100, and the top plate 112 is connected to the top side beam 101 and the top beam 103, thereby achieving the enclosure of the top of the housing 100. Optionally, the housing 100 may also include a top crossbeam (not shown in the figure), which is disposed between two top side beams 101, and the end of the top crossbeam is connected to the top side beam 101. The top crossbeam is connected to the top plate 112, thereby providing support for the top plate 112.
[0064] The core protection of this utility model's container lies in the gantry crane assembly 120 and its integration with the container body 100. The above description illustrates the basic structure of the container body 100 according to the first embodiment, serving as a general-purpose container type. It is understood that other improvements to the basic configuration of the container body 100 (e.g., a 40-foot container with a gooseneck structure) should also be within the protection scope of this utility model's container body 100.
[0065] The following is combined Figure 1 and Figure 2 The overhead crane assembly 120 according to the first embodiment will be further described.
[0066] Optionally, the gantry crane assembly 120 further includes a linear drive member 126 and a track 127. The linear drive member 126 may be an electric trolley, a linear motor, or other drive components. The linear drive member 126 is disposed at the end of the gantry crane beam 124, and the track 127 is disposed at the top of the track beam 123. The linear drive member 126 is fitted to the track 127 and configured to drive the gantry crane beam 124 along the track 127, thereby enabling the transport of goods along the extension direction of the track beam 123.
[0067] Optionally, the crane 125 is configured to have a drive component. The crane 125 is coupled to the overhead crane beam 124 to realize the transportation of goods along the extension direction of the overhead crane beam 124. By transporting goods in two directions, namely the extension direction of the track beam 123 and the extension direction of the overhead crane beam 124, a large range of goods transportation within the container 100 is realized, and the lifting range is large.
[0068] Optionally, refer to Figure 2The overhead crane beam 124 includes a top beam plate 128, a bottom beam plate 129, and a connecting plate 130. The top beam plate 128 and the bottom beam plate 129 are arranged in parallel and spaced apart along the height direction D3. The connecting plate 130 is disposed between the top beam plate 128 and the bottom beam plate 129, and is located at both ends of the top beam plate 128 and the bottom beam plate 129. The end of the bottom beam plate 129 is recessed upward along the height direction D3 and connected to the connecting plate 130, thereby forming a clearance groove 132. The linear drive member 126 is at least partially located within the clearance groove 132 and connected to the bottom beam plate 129, so that the linear drive member 126 does not occupy too much height space within the housing 100, making the overhead crane assembly 120 more compact and improving the transport capacity of the housing 100.
[0069] Optionally, the crane 125 may have a drive wheel (not shown in the figure), and the drive wheel is disposed between the top beam plate 128 and the bottom beam plate 129 and abuts against the bottom beam plate 129, thereby realizing the cooperation between the crane 125 and the overhead crane beam 124.
[0070] Optionally, the gantry crane beam 124 further includes a support plate 131, which is disposed between the top beam plate 128 and the bottom beam plate 129. The top edge of the support plate 131 is connected to the bottom surface of the top beam plate 128, and the bottom edge of the support plate 131 is connected to the top surface of the bottom beam plate 129, thereby making the structure of the gantry crane beam 124 more stable and with higher structural strength. In addition, the drive wheels of the crane 125 can be arranged on both sides of the support plate 131, making the cooperation between the crane 125 and the gantry crane beam 124 more stable.
[0071] Reference Figure 1 and Figure 2 According to the first embodiment, the container is a single-box structure; in other words, the container according to the first embodiment includes a box body 100. Furthermore, the extension direction of the track beam 123 of the gantry crane assembly 120 of the container according to the first embodiment is parallel to the length direction D1 of the box body 100, with both ends of the track beam 123 located at both ends of the box body 100, and the extension direction of the gantry crane beam 124 is parallel to the width direction D2 of the box body 100. This allows for the lifting and transportation of goods along both the length direction D1 and the width direction D2 of the box body 100, covering the entire space within the box body 100.
[0072] Optionally, limiters 133 are provided at both ends of the track beam 123 to limit the travel of the overhead crane beam 124, thereby limiting the transport distance of the goods along the length direction D1 of the container 100 and preventing damage caused by the goods colliding with the container door 111. The limiters 133 are plate-shaped or block-shaped, and can be welded to the track beam 123 or fixed to the track beam 123 by fasteners.
[0073] Optionally, the track beam 123 can be an I-beam; in other words, the cross-section of the track beam 123 is I-shaped, which is easy to manufacture and has high structural strength. The track 127 can be welded to the top surface of the track beam 123, resulting in a stable structure. Alternatively, the track 127 can be fixed to the top surface of the track beam 123 with fasteners, making it easy to install.
[0074] Optionally, the gantry crane assembly 120 includes multiple support columns 121 and multiple support brackets 122. The multiple support columns 121 are divided into two groups along the width direction D2 of the housing 100. The multiple support columns 121 in each group are arranged at intervals along the length direction D1 of the housing 100, and the multiple support brackets 122 correspond one-to-one with and are connected to the multiple support columns 121. The support brackets 122 can be fixed to the support columns 121 with fasteners for easy assembly and disassembly. The support brackets 122 can also be welded to the support columns 121 for easy installation. The gantry crane assembly 120 includes two track beams 123, which are spaced apart along the width direction D2 of the housing 100 and correspondingly installed on the support brackets 122 on both sides of the housing 100. The two ends of the gantry crane beam 124 extend along the width direction D2 of the housing 100 to the two track beams 123, thereby achieving stable support for the gantry crane beam 124.
[0075] Optionally, the supporting bracket 122 can be made of thick steel plates spliced together or pre-cut steel profiles, which has low manufacturing cost, high structural strength, and can effectively support the track beam 123.
[0076] In addition, refer to Figure 1 and Figure 2 The housing 100 includes side wall panels 109, and the supporting column 121 is connected to the side wall panels 109, thereby making the connection between the overhead crane assembly 120 and the housing 100 more stable and improving the structural strength of the housing 100. The supporting column 121 and the side wall panel 109 can be fixed by fasteners, or the supporting column 121 can be welded to the side wall panel 109. Optionally, the supporting column 121 may not be connected to the side wall panel 109.
[0077] Reference Figure 1 and Figure 2 As described above, the container structure according to the first embodiment is a single container 100, with the overhead crane assembly 120 housed within the container 100. However, this does not mean that the container according to the first embodiment cannot be used for consolidation with other containers or even other containers according to the first embodiment. On the contrary, consolidation with other containers according to the first embodiment can better realize cross-container transport of goods, offering high transport flexibility, high loading and unloading efficiency, good scalability, and a wide range of applicable scenarios.
[0078] Second Implementation Method
[0079] Reference Figure 3 and Figure 4 The main difference between the container according to the second embodiment and the container according to the first embodiment is that the container according to the second embodiment includes two container bodies 100, which are arranged and connected together along the length direction D1 of the container bodies 100.
[0080] Optionally, the container body 100 and the overhead crane assembly 120 according to the second embodiment are substantially the same as those according to the first embodiment. However, the container according to the second embodiment eliminates the container doors 111 and end wall panels 110 that are close to each other in the two container bodies 100, thereby allowing the internal spaces of the two container bodies 100 to be interconnected and forming an accommodating space 113 extending along the length direction D1 of the container body 100.
[0081] The gantry crane assembly 120 includes four track beams 123 and two connecting beams 234. Two track beams 123 are correspondingly arranged within a single box 100, and these two track beams 123 are spaced apart along the width direction D2 of the box 100. Two track beams 123 arranged along the width direction D2 on one side of the box 100 are arranged along the length direction D1. Correspondingly, two connecting beams 234 are respectively positioned between the two sets of track beams 123 spaced apart along the width direction D2 of the box 100. Furthermore, both ends of the connecting beams 234 are connected along the length direction D1 to two adjacent track beams 123, thereby connecting the track beams 123 arranged along the length direction D1. This allows the gantry crane beams 124 to transport goods along the length direction D1 of the box 100 within the accommodating space 113 formed by the two box 100s, realizing cross-box transport between the two box 100s.
[0082] It is understood that the container according to the second embodiment may also include two or more container bodies 100, and the track beams 123 between adjacent container bodies 100 are connected by connecting beams 234, so that cross-container transport between two or more container bodies 100 can be realized.
[0083] Third Implementation Method
[0084] Reference Figure 5 The main difference between the container according to the third embodiment and the container according to the first embodiment is that the container according to the third embodiment includes two container bodies 100, which are arranged and connected together along the width direction D2 of the container bodies 100.
[0085] Optionally, refer to Figure 5According to the third embodiment, the top side beam 101 and side wall panel 109 on the side of the two containers 100 that are close to each other are eliminated, and the two track beams 123 of the gantry crane assembly 120 are respectively arranged on the side of the two containers 100 that are far from each other. The two ends of the gantry crane beam 124 extend into the two containers 100 and onto the two track beams 123, thereby enabling the crane 125 to transport goods between the two containers 100 along the width direction D2, realizing the transportation of goods in the accommodating space 113 formed by the two containers 100 arranged along the width direction D2.
[0086] It is understood that the container according to the third embodiment may also include two or more container bodies 100. The two track beams 123 of the gantry crane assembly 120 are respectively arranged on the two container bodies 100 that are furthest apart along the width direction D2 of the container body 100, and the gantry crane beam 124 extends along the width direction D2 of the container body 100 to each container body 100, thereby realizing cross-container transport between two or more container bodies 100 along the width direction D2.
[0087] Fourth Implementation Method
[0088] Reference Figure 6 The main difference between the container according to the fourth embodiment and the container according to the first embodiment is that the container according to the fourth embodiment includes four container bodies 100, which are arranged and connected together along the width direction D2 of the container bodies 100.
[0089] Optionally, according to the fourth embodiment, the container eliminates the adjacent side wall panels 109 of the four container bodies 100, thereby allowing the internal spaces of the four container bodies 100 to be interconnected and forming a accommodating space 113. The gantry crane assembly 120 includes two track beams 123 extending along the width direction D2 of the container body 100 and arranged at one point within the accommodating space 113 along the length direction D1 of the container body 100, while the gantry crane beam 124 extends along the length direction D1 of the container body 100, with both ends of the gantry crane beam 124 extending above the two track beams 123, thereby realizing the transportation of goods within a local area of the accommodating space 113.
[0090] It is understood that the container according to this utility model is not limited to the containers of the above-described embodiments. Containers that are connected by consolidation based on the first embodiment and realize cross-container transport of goods between multiple containers 100 should all be within the protection scope of this utility model.
[0091] 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 “set” appearing herein can refer to either a component being directly attached to another component or a component being attached to another component via an intermediary. A feature described in one embodiment 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.
[0092] 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 this utility model to the described embodiments. Those skilled in the art will understand that many more variations and modifications can be made based on the teachings of this utility model, and all such variations and modifications fall within the scope of protection claimed by this utility model.
Claims
1. A container, characterized in that, The container includes: At least one enclosure, the enclosure comprising a top side beam and a bottom side beam; A gantry crane assembly, disposed within one of the housings or a cargo-loading accommodating space formed by at least two of the housings, the gantry crane assembly comprising: A supporting column is provided between the top side beam and the bottom side beam; A supporting bracket is provided, which is connected to the supporting column and is arranged above the middle of the supporting column along the height direction of the box body. A track beam, which is connected to the top of the supporting bracket and extends along the length or width of the box body; A gantry crane beam, movably connected to the track beam along its extension direction, and extending in a direction perpendicular to the track beam; and A crane, movably connected to the gantry beam along the extension direction of the gantry beam, for lifting goods inside the container or the accommodating space.
2. The container according to claim 1, characterized in that, The gantry crane assembly further includes a linear drive component and a track. The linear drive component is disposed at the end of the gantry crane beam, and the track is disposed at the top of the track beam. The linear drive component is coupled to the track and configured to drive the gantry crane beam along the track.
3. The container according to claim 2, characterized in that, The overhead crane beam includes a top beam plate, a bottom beam plate, and a connecting plate. The top beam plate and the bottom beam plate are spaced apart along the height direction, and the connecting plate is disposed between the top beam plate and the bottom beam plate. The end of the bottom beam plate is recessed upward along the height direction to form a clearance groove, and the linear drive member is at least partially located in the clearance groove and connected to the bottom beam plate.
4. The container according to claim 1, characterized in that, The container includes a box body, the track beam extends along the length of the box body, and the two ends of the track beam are respectively located at the two ends of the box body; the two ends of the track beam are provided with limiters to limit the travel of the overhead crane beam.
5. The container according to claim 1, characterized in that, The container includes at least two container bodies, which are arranged and connected together along the length direction; The overhead crane assembly includes at least two track beams and at least one connecting beam. The at least two track beams are arranged along the length direction, and the two ends of the connecting beam are respectively connected to the two adjacent track beams along the length direction.
6. The container according to claim 5, characterized in that, The adjacent boxes are connected and constructed to form the accommodating space extending along the length direction. The boxes include end wall panels or boxes with doors at both ends of the accommodating space.
7. The container according to claim 1, characterized in that, The container includes at least two container bodies, which are arranged and connected together along the width direction; The track beam extends along the length direction, and the overhead crane beam extends along the width direction.
8. The container according to claim 1, characterized in that, The container includes at least two container bodies, which are arranged and connected together along the width direction; The track beam extends along the width direction to at least two of the boxes, and the overhead crane beam extends along the length direction.
9. The container according to claim 7 or 8, characterized in that, The adjacent boxes are connected and constructed to form the accommodating space extending along the width direction, and the boxes include side wall panels arranged along the width direction on at least one side of the accommodating space.
10. The container according to any one of claims 1 to 8, characterized in that, At least one of the enclosures includes a side wall panel, and the supporting column is connected to the side wall panel.