A container
By using a container design with welded aluminum frames and aluminum bases, combined with a triangular structure and openable doors, the problems of low structural strength and poor resistance to deformation of containers are solved, achieving higher structural strength and stability, and improving transportation safety and cargo loading and unloading efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- STANDARD AUTOMOBILE (GUANGDONG) CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-09
AI Technical Summary
Existing container structures have low structural strength, are prone to deformation under stress, and have poor resistance to deformation. They are especially difficult to provide sufficient strength support under complex stress conditions, which affects service life and transportation safety.
The structure adopts a welded aluminum frame and aluminum base, combined with a bottom beam, horizontal plate, reinforcing plate and inclined plate to form a triangular structure, which enhances the stability of the box. The aluminum frame and bottom beam are welded together to form a tight connection. The box door is designed as an openable hinged structure to facilitate loading and unloading of goods.
It improves the overall structural strength and stability of the container, enhances its load-bearing capacity, prevents deformation, and ensures safety and cargo loading and unloading efficiency during transportation.
Smart Images

Figure CN224336281U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of containers, specifically a type of container. Background Technology
[0002] Containers are playing an increasingly important role in modern logistics and warehousing. The main structural components of a container include corner posts, side beams (bottom and top side beams), and end beams, which are fixedly connected to form a rectangular container main structure frame. Then, side panels, bottom panels, top panels, end panels, etc. are connected and assembled to form the main body of the container.
[0003] Existing shipping containers suffer from the following drawbacks: the most prominent problem is low structural strength, susceptibility to deformation under stress, and poor resistance to deformation. Currently, most containers are manufactured using single-layer steel plates. While steel plates possess a certain strength and hardness, the load-bearing capacity of a single-layer structure is relatively limited when subjected to external forces. Moreover, the material properties of ordinary steel plates mean they cannot provide sufficient strength support under complex and varied stress conditions. For example, during long-distance transportation, containers may be subjected to impacts of different directions and magnitudes. Single-layer steel plates cannot effectively disperse and absorb this energy, resulting in insufficient structural strength. For instance, stress concentration is more pronounced at the four corners and edges. When subjected to external forces, these corners and edges easily become weak points in the structure, thus affecting the overall structural strength of the container. Furthermore, the internal support structure of containers is relatively limited. During transportation, containers may scrape or collide with other objects; during sea transport, they are also subjected to the impact and vibration of waves, making single-layer steel plates prone to deformation under stress. These problems not only affect the service life of containers and the safety of cargo transportation but also increase logistics costs and maintenance expenses. Therefore, it is necessary to improve and innovate existing container structures to enhance their structural strength and resistance to deformation. Utility Model Content
[0004] In order to overcome the shortcomings of existing technical solutions, this utility model provides a container that can effectively solve the technical problems of low structural strength, easy deformation under stress, and poor resistance to deformation of existing containers.
[0005] The technical solution adopted by this utility model to solve its technical problem is as follows: a container, including several side panels, which are combined to form a container body. Several aluminum frames are provided at one end of the container body, and aluminum seats are provided on the surface of the aluminum frames. Adjacent aluminum frames are welded together through aluminum seats. Several bottom beams are fixedly provided at the bottom of the container body, and adjacent bottom beams are welded together through aluminum seats. Several horizontal plates are welded inside the container body. Several reinforcing plates are vertically provided on the surface of the horizontal plates. A connecting plate is provided between two adjacent reinforcing plates. An inclined plate is provided on the surface of the connecting plate. One end of the inclined plate is connected to the reinforcing plate, and the other end of the inclined plate is connected to the connecting plate. The reinforcing plate, the connecting plate, and the inclined plate form a triangular structure. Several fixing plates are provided on the surface of the horizontal plates. One end of the fixing plate is connected to the connecting plate. A support plate is provided on the surface of the horizontal plates, and the side of the support plate is connected to the reinforcing plate.
[0006] Furthermore, the surface of the aluminum frame is provided with several hinges, and the box body is provided with two openable boxes. The two boxes are symmetrically arranged, and the boxes are hinged to the aluminum frame by hinges.
[0007] Furthermore, the surfaces of the aluminum frame and the bottom beam are provided with locking seats, and adjacent locking seats are symmetrically arranged. The surface of the door is provided with several rotatable pull rods, and the two ends of the pull rods extend outward to form connectors corresponding to the number of locking seats. The connectors engage with the locking seats. The surface of the door is provided with several fastening seats, and the pull rods pass vertically through the fastening seats and are rotatably connected to the fastening seats.
[0008] Furthermore, two positioning plates are provided on the side of the connecting plate, and the two positioning plates are symmetrically arranged between each other, with the positioning plates extending along the length direction of the box.
[0009] Furthermore, the bottom beam is provided with several crossbeams on its side, and adjacent crossbeams are arranged at equal intervals.
[0010] Compared with the prior art, the beneficial effects of this utility model are as follows: This utility model provides a container with several aluminum frames at one end of the container body. Adjacent aluminum frames are welded together with aluminum bases. Several bottom beams are fixed at the bottom of the container body, and adjacent bottom beams are also welded together with aluminum bases. This makes the end and bottom structures of the container body more compact and stable, capable of withstanding greater external forces, and improving the overall structural strength and stability of the container. Several horizontal plates are welded inside the container body, and vertical reinforcing plates are set on the horizontal plates. Adjacent reinforcing plates are connected by connecting plates and inclined plates to form a triangular structure. The triangular structure has extremely high stability, which can effectively enhance the load-bearing capacity of the container body and prevent the container body from deforming under stress, thereby ensuring the stability of the internal structure of the container. Support plates are set on the horizontal plates, and the support plates are connected to the reinforcing plates, making the entire container structure more complete and stable, and improving the overall deformation resistance and structural strength of the container. Attached Figure Description
[0011] Figure 1 This is a perspective view of a container according to the present invention;
[0012] Figure 2 for Figure 1 A magnified view of a section at point A in the middle;
[0013] Figure 3 for Figure 1 A magnified view of a section at point B in the middle;
[0014] Figure 4 This is a schematic diagram of the connection structure between the horizontal plate, the reinforcing plate, and the connecting plate of a container according to the present invention;
[0015] Figure 5 This is a schematic diagram of the internal structure of a container according to the present invention;
[0016] Figure 6 This is a bottom view of a container according to the present invention.
[0017] Numbering on the map:
[0018] 1-Box body; 2-Side panel; 3-Aluminum frame; 4-Aluminum base; 5-Bottom beam; 6-Box door; 7-Hinge; 8-Clamping seat; 9-Connector; 10-Pull rod; 11-Fastening seat; 12-Horizontal plate; 13-Reinforcing plate; 14-Connecting plate; 15-Slanted plate; 16-Fixing plate; 17-Positioning plate; 18-Supporting plate. Detailed Implementation
[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0020] The following is combined with Figures 1-6 A detailed description of a container according to this utility model is provided:
[0021] A container includes several side panels 2, which are combined to form a container body 1. Several aluminum frames 3 are provided at one end of the container body 1. Aluminum bases 4 are provided on the surface of each aluminum frame 3, and adjacent aluminum frames 3 are welded together via the aluminum bases 4. Several bottom beams 5 are fixedly provided at the bottom of the container body 1, and adjacent bottom beams 5 are welded together via the aluminum bases 4. Several horizontal plates 12 are welded inside the container body 1. Several reinforcing plates 13 are vertically arranged on the surface of each horizontal plate 12, and a connecting plate 14 is provided between adjacent reinforcing plates 13. The surface of the connecting plate 14 is provided with an inclined plate 15. One end of the inclined plate 15 is connected to the reinforcing plate 13, and the other end of the inclined plate 15 is connected to the connecting plate 14. The reinforcing plate 13, the connecting plate 14, and the inclined plate 15 form a triangular structure. The surface of the horizontal plate 12 is provided with a plurality of fixing plates 16. One end of the fixing plate 16 is connected to the connecting plate 14. The surface of the horizontal plate 12 is provided with a support plate 18, and the side of the support plate 18 is connected to the reinforcing plate 13.
[0022] The surface of the aluminum frame 3 is provided with several hinges 7. The box body 1 is provided with two openable boxes 6, which are symmetrically arranged. The boxes 6 are hinged to the aluminum frame 3 by the hinges 7. The surfaces of the aluminum frame 3 and the bottom beam 5 are provided with locking seats 8, which are symmetrically arranged between adjacent locking seats 8. The surface of the boxes 6 is provided with several rotatable pull rods 10. The two ends of the pull rods 10 extend outward to form connectors 9 corresponding to the number of locking seats 8. The connectors 9 are engaged with the locking seats 8. The surface of the boxes 6 is provided with several fastening seats 11. The pull rods 10 pass vertically through the fastening seats 11 and are rotatably connected to the fastening seats 11.
[0023] Several equally spaced crossbeams are arranged on the side of the bottom beam 5. The crossbeams can distribute the pressure on the bottom beam 5, making the stress on the bottom beam 5 more uniform, thereby enhancing the load-bearing capacity of the bottom of the container 1. When the container is loaded with heavy cargo, it can effectively prevent the bottom beam 5 from deforming or being damaged due to excessive local stress, thus improving the overall load-bearing capacity and stability of the container.
[0024] The connecting plate 14 has two positioning plates 17 on its side, which are symmetrically arranged. The positioning plates 17 extend along the length of the container body 1. The bottom beam 5 has several crossbeams on its side, which are equidistantly arranged between adjacent crossbeams. This further improves the overall stability of the container's internal structure and ensures the reliability of the container during transportation and use.
[0025] The device uses standardized components such as aluminum frame 3, aluminum base 4, and bottom beam 5, and is assembled using common connection methods such as welding. The manufacturing process is relatively simple, which helps to improve production efficiency and reduce manufacturing costs. Hinges 7 are installed on the surface of aluminum frame 3, and two symmetrical openable doors 6 are installed on the box body 1. The doors 6 are hinged to aluminum frame 3 by hinges 7. Locking seats 8 are installed on the surface of aluminum frame 3 and bottom beam 5, and rotatable pull rods 10 are installed on the surface of doors 6. The two ends of pull rod 10 form connectors 9 corresponding to the number of locking seats 8. The connectors 9 engage with locking seats 8, making the opening and closing of doors 6 more flexible and convenient. Operators can easily open doors 6 to load and unload goods, improving the efficiency of loading and unloading goods and reducing the waste of manpower and time.
[0026] In this embodiment, a container has several aluminum frames 3 at one end of the container body 1. Adjacent aluminum frames 3 are welded together with aluminum bases 4. Several bottom beams 5 are fixed to the bottom of the container body 1, and adjacent bottom beams 5 are also welded together with aluminum bases 4. This makes the end and bottom structures of the container body 1 more compact and stable, able to withstand greater external forces, and improves the overall structural strength and stability of the container. Several horizontal plates 12 are welded inside the container body 1. Vertical reinforcing plates 13 are set on the horizontal plates 12. Adjacent reinforcing plates 13 are connected by connecting plates 14 and inclined plates 15 to form a triangular structure. The triangular structure has extremely high stability and can effectively enhance the load-bearing capacity of the container body 1, prevent the container body 1 from deforming under stress, and thus ensure the stability of the internal structure of the container. Support plates 18 are set on the horizontal plates 12. The support plates 18 are connected to the reinforcing plates 13, making the structure of the entire container body 1 more complete and stable, and improving the overall deformation resistance and structural strength of the container.
[0027] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within this invention, and no reference numerals in the claims should be construed as limiting the scope of the claims.
Claims
1. A container, comprising a plurality of side panels, wherein the plurality of side panels are combined to form a container body, characterized in that: Several aluminum frames are provided at one end of the box body, and aluminum bases are provided on the surface of the aluminum frames. Adjacent aluminum frames are welded together through aluminum bases. Several bottom beams are fixedly provided at the bottom of the box body, and adjacent bottom beams are welded together through aluminum bases. Several horizontal plates are welded inside the box body. Several reinforcing plates are vertically provided on the surface of the horizontal plates. A connecting plate is provided between two adjacent reinforcing plates. An inclined plate is provided on the surface of the connecting plate. One end of the inclined plate is connected to the reinforcing plate, and the other end of the inclined plate is connected to the connecting plate. The reinforcing plate, the connecting plate, and the inclined plate form a triangular structure. Several fixing plates are provided on the surface of the horizontal plates. One end of the fixing plate is connected to the connecting plate. A support plate is provided on the surface of the horizontal plates. The side of the support plate is connected to the reinforcing plate.
2. A container according to claim 1, characterized in that: The surface of the aluminum frame is provided with several hinges, and the box body is provided with two openable boxes. The two boxes are symmetrically arranged, and the boxes are hinged to the aluminum frame.
3. A container according to claim 2, characterized in that: The aluminum frame and the bottom beam are both provided with locking seats, and adjacent locking seats are symmetrically arranged. The surface of the door is provided with several rotatable pull rods. The two ends of the pull rods extend outward to form connectors corresponding to the number of locking seats. The connectors are engaged with the locking seats. The surface of the door is provided with several fastening seats. The pull rods pass vertically through the fastening seats and are rotatably connected to the fastening seats.
4. A container according to claim 1, characterized in that: The connecting plate has two positioning plates on its side, which are symmetrically arranged and extend along the length of the box.
5. A container according to any one of claims 1-4, characterized in that: The bottom beam has several crossbeams on its side, and adjacent crossbeams are arranged at equal intervals.