A logistics base
By innovating the beam frame structure design and adopting a composite structure of U-shaped tubes and sleeves, combined with stamping forming process, the problem of balancing cost and strength of logistics pallets has been solved, achieving low-cost, high-efficiency production and high-strength logistics base platforms.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MICROONE GREEN MANUFACTURING SOLUTION CO LTD
- Filing Date
- 2025-05-06
- Publication Date
- 2026-07-03
AI Technical Summary
The existing beam frame structure of logistics pallets makes it difficult to balance cost and strength, resulting in high production costs and insufficient structural strength.
The design adopts a beam frame structure, including U-shaped tubes and sleeves. Through composite structures such as bent plates and inner folded plates, combined with stamping forming process, the manufacturing process is simplified and the strength is improved.
It achieves low-cost and high-efficiency production, improves overall compressive and bending strength, enhances structural flexibility and adaptability, and extends equipment service life.
Smart Images

Figure CN224448542U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of logistics equipment technology, and more specifically to a logistics base. Background Technology
[0002] The existing patent application number is CN202421394880.0, entitled "A Utility Model Patent for a Carrying Tray." It discloses a tray comprising a frame, a support structure, and several feet. The frame includes several first beams connected together to form the frame. The support structure includes several second beams spaced side-by-side. Several feet are installed between adjacent first beams. The first and second beams can be any one of structures one, two, three, or four. This carrying tray, by incorporating structures one, two, three, and four and combining these four structural forms to create the frame and support structure, allows the tray to have a large load-bearing capacity and other performance characteristics, allowing for flexible selection based on needs. Furthermore, the use of specially structured feet results in a smaller gap between the upper and lower trays when stacked, minimizing the space occupied during stacking.
[0003] However, structures one and two in this patent both use square tubing. Although the overall structural strength is relatively high, the production cost and difficulty are relatively high. Structures three and four, while not using square tubing and having lower manufacturing costs, have relatively weaker structural strength. Therefore, it is necessary to design and develop a beam-frame structure with relatively low manufacturing cost and difficulty, but relatively high structural strength, suitable for use in logistics base platforms. Utility Model Content
[0004] In view of the shortcomings of the prior art, this utility model provides a logistics base. Through innovative beam frame structure design and diversified implementation methods, the logistics base solves the problem of balancing cost and strength in the prior art. It is economical, reliable and flexible, and can be widely used in the field of logistics equipment.
[0005] To achieve the above objectives, the present invention provides the following technical solution:
[0006] A logistics base includes a frame, a support structure, and several feet. The frame includes several first beams connected together to form a frame. The support structure includes several second beams arranged side by side at intervals. Several feet are installed between two adjacent first beams. Both the first beams and the second beams adopt a beam structure.
[0007] The beam frame structure includes a U-shaped tube and several sleeves, with the sleeves arranged vertically inside the U-shaped tube. Bending plates are provided on both sides of the opening of the U-shaped tube.
[0008] Furthermore, the opening of the U-shaped tube is located on the vertical side, and the bending plates on both sides of the opening are bent inward, with a gap between the opposite sides of the bending plates.
[0009] Furthermore, a connecting plate is connected to the side of the bent plate on one side facing the gap, and the connecting plate completely covers the gap and is located on the bent plate on the other side.
[0010] Furthermore, inner folding plates are provided on opposite sides of the bending plates on both sides of the opening, and the inner folding plates are bent toward the inside of the U-shaped tube.
[0011] Furthermore, the inner folding plate is provided with a first clearance groove at several sleeve locations.
[0012] Furthermore, the opening of the U-shaped tube is located at the top, and the bending plates on both sides of the opening are bent inward, with a gap between the opposite sides of the bending plates.
[0013] Furthermore, the bent plate is provided with a second clearance groove at several sleeve locations.
[0014] Furthermore, each side of the bending plate on both sides of the opening is provided with a folding plate, the folding plate bends toward the inside of the U-shaped tube, and the sleeve is located between the two folding plates and in contact with the two folding plates.
[0015] Furthermore, the opening of the U-shaped tube is located at the top, and the bending plates on both sides of the opening bend outwards.
[0016] Furthermore, the top is connected to the outside through a U-shaped tube.
[0017] Compared with the prior art, the beneficial effects of this utility model are:
[0018] 1. Low-cost and high-efficiency production: All beam structures are produced using a stamping process, which simplifies the manufacturing process and significantly reduces material waste and labor costs.
[0019] 2. High strength and lightweight: The composite structure design of U-shaped tubes with bent plates and inner folded plates reduces the amount of material used while improving the overall compressive and bending strength, achieving a balance between lightweight and high load-bearing capacity.
[0020] 3. Modular and highly adaptable: Each embodiment supports multiple combination methods through different opening directions, clearance slots and connecting plate designs, which can flexibly adapt to different logistics scenario requirements (such as stacking, transportation, sorting, etc.).
[0021] 4. Interference resistance and durability: The connecting plate, clearance groove and sealing structure effectively prevent foreign objects from entering, reduce wear and extend the service life of the equipment.
[0022] This utility model solves the problem of balancing cost and strength in the prior art through innovative beam frame structure design and diverse implementation methods. It combines economy, reliability and flexibility and can be widely used in the field of logistics equipment. Attached Figure Description
[0023] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort, wherein:
[0024] Figure 1 A schematic diagram of the structure of a logistics base (Example 1) Figure 1 ;
[0025] Figure 2 A schematic diagram of a beam frame structure (Example 1) Figure 1 ;
[0026] Figure 3 A schematic diagram of the structure of a logistics base (Example 1) Figure 2 ;
[0027] Figure 4 A schematic diagram of a beam frame structure (Example 1) Figure 2 ;
[0028] Figure 5 This is a schematic diagram of the structure of a logistics base (Example 2);
[0029] Figure 6 This is a schematic diagram of the beam frame structure (Example 2);
[0030] Figure 7 This is a schematic diagram of the structure of a logistics base (Example 3);
[0031] Figure 8 This is a schematic diagram of the beam frame structure (Example 3);
[0032] Figure 9 A schematic diagram of the structure of a logistics base (Example 4) Figure 1 ;
[0033] Figure 10 Schematic diagram of beam frame structure (Example 4) Figure 1 ;
[0034] Figure 11 A schematic diagram of the structure of a logistics base (Example 4) Figure 2 ;
[0035] Figure 12Schematic diagram of beam frame structure (Example 4) Figure 2 ;
[0036] Figure 13 This is a schematic diagram of the structure of a logistics base (Example 5);
[0037] Figure 14 This is a schematic diagram of a beam frame structure (Example 5);
[0038] Figure 15 A schematic diagram of the structure of a logistics base (Example 6) Figure 1 ;
[0039] Figure 16 Schematic diagram of beam frame structure (Example 6) Figure 1 ;
[0040] Figure 17 A schematic diagram of the structure of a logistics base (Example 6) Figure 2 ;
[0041] Figure 18 Schematic diagram of beam frame structure (Example 6) Figure 2 .
[0042] The markings in the diagram are as follows: 1. First beam frame; 2. Second beam frame; 201. U-shaped tube; 202. Sleeve; 203. Bending plate; 204. Gap; 205. Connecting plate; 206. Inner folding plate; 207. Folding plate; 3. Anchor; 4. Panel. Detailed Implementation
[0043] In the description of this utility model, it should be noted that the directional terms such as "center", "horizontal (X)", "longitudinal (Y)", "vertical (Z)", "length", "width", "thickness", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", and "counterclockwise" indicate the orientation and positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. They should not be construed as limiting the specific protection scope of this utility model.
[0044] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features. Thus, the use of "first" and "second" to define a feature may explicitly or implicitly include one or more of that feature. In the description of this utility model, "several" or "a number" means two or more, unless otherwise explicitly specified.
[0045] Example 1:
[0046] A logistics base, such as Figure 1-4 As shown, it includes a frame, a support structure and several footings 3. The frame includes several first beam frames 1, which are connected to form a frame. The support structure includes several second beam frames 2 arranged side by side at intervals. Several footings 3 are installed between two adjacent first beam frames 1. Both the first beam frames 1 and the second beam frames 2 adopt a beam frame structure.
[0047] The beam frame structure includes a U-shaped tube 201 and several sleeves 202. The sleeves 202 are vertically arranged inside the U-shaped tube 201 and their tops pass through the U-shaped tube 201 to communicate with the outside. Bending plates 203 are provided on both sides of the opening of the U-shaped tube 201.
[0048] Preferably, the opening of the U-shaped tube 201 is located on the vertical side, and the bending plates 203 on both sides of the opening are bent inward, with a gap 204 between the opposite sides of the bending plates 203.
[0049] Preferably, the U-shaped tube 201 and the bent plate 203 are formed by stamping.
[0050] Preferably, the structure also includes a panel 4, which is mounted on top of the frame and support structure.
[0051] Preferably, the panel 4 is provided with a plurality of first auxiliary holes, which are in communication with the inside of the sleeve 202.
[0052] Preferably, the plurality of second beam frames 2 are arranged horizontally or longitudinally within the frame.
[0053] Preferably, the foot 3 includes a guide portion and a support portion located below the guide portion. The top of the guide portion is provided with an opening, and an inverted cone-shaped insertion space is provided inside the guide portion. The support portion is provided with a cavity, and the cavity communicates with the insertion space. The guide portion is installed and connected to the frame.
[0054] In this embodiment, by using stamped U-shaped tube 201 and bent plate 203, the production process is simplified and the manufacturing cost is reduced;
[0055] The sleeve 202 is vertically arranged inside the U-shaped tube 201 and communicates with the outside through the top, which facilitates the subsequent installation of auxiliary components (such as the first auxiliary hole on the panel 4) and improves functionality.
[0056] The foot 3 design includes a guide and a support section, which takes up little space when stacked and improves storage efficiency.
[0057] Example 2:
[0058] A logistics base, such as Figure 5-6 As shown, the remaining features are the same as in Embodiment 1, except that:
[0059] A connecting plate 205 is connected to the side of the bent plate 203 on one side facing the gap 204. The connecting plate 205 completely covers the gap 204 and is located on the bent plate 203 on the other side.
[0060] In this embodiment, the connecting plate 205 covers the gap 204 between the bent plates 203, which enhances the structural sealing, prevents foreign objects from entering the U-shaped tube 201, and extends the service life; and the connecting plate 205 covers the other side of the bent plate 203, which improves the overall structural strength of the beam frame, especially suitable for high load scenarios.
[0061] Example 3:
[0062] A logistics base, such as Figure 7-8 As shown, the remaining features are the same as in Embodiment 1, except that:
[0063] On opposite sides of the bending plates 203 on both sides of the opening, there are inner bending plates 206, which are bent toward the inside of the U-shaped tube 201.
[0064] Preferably, the inner folding plate 206 is provided with a first clearance groove at a position relative to a plurality of sleeves 202.
[0065] In this embodiment, the inner folding plate 206 bends towards the inside of the U-shaped tube 201, increasing the lateral support of the beam frame and improving its resistance to deformation; and the first clearance groove design avoids interference between the sleeve 202 and the inner folding plate 206, ensuring precise fit of components and reducing assembly difficulty.
[0066] Example 4:
[0067] A logistics base, as shown in 9-12, has the same features as in Embodiment 1, except that:
[0068] The opening of the U-shaped tube 201 is located at the top, and the bending plates 203 on both sides of the opening are bent inward, with a gap 204 between the opposite sides of the bending plates 203.
[0069] Preferably, the bending plate 203 is provided with a second clearance groove at a position relative to the plurality of sleeves 202.
[0070] In this embodiment, the U-shaped tube 201 is set at the top to facilitate the installation and maintenance of the sleeve 202 and improve the ease of operation; and the second clearance groove cooperates with the bending plate 203 to further optimize the positioning of the sleeve 202, reduce production errors, and improve structural stability.
[0071] Example 5:
[0072] A logistics base, as shown in 13-14, has the same features as in Embodiment 4, except that:
[0073] On opposite sides of the bending plates 203 on both sides of the opening, there are folding plates 207. The folding plates 207 are bent toward the inside of the U-shaped tube 201. The sleeve 202 is located between the two folding plates and is in contact with the folding plates 207 on both sides.
[0074] In this embodiment, the folding plate 207 forms multi-point support by contacting the sleeve 202, which disperses local pressure and enhances the load-bearing capacity of the beam frame; and the inward bending design of the folding plate 207 further strengthens the structure at the opening and prevents the U-shaped tube 201 from deforming.
[0075] Example 6:
[0076] A logistics base, as shown in 15-18, has the same features as in Embodiment 1, except that:
[0077] The opening of the U-shaped tube 201 is located at the top, and the bending plates 203 on both sides of the opening bend outwards.
[0078] In this embodiment, the U-shaped tube 201 bends outward through its opening, facilitating quick docking with other external components (such as connectors or fixing devices) and improving expandability and adaptability. Furthermore, the outward bending design is compatible with more installation scenarios and flexibly meets different logistics needs.
[0079] Overall advantages of logistics base:
[0080] 1. Low-cost and high-efficiency production: All beam structures are produced using a stamping process, which simplifies the manufacturing process and significantly reduces material waste and labor costs.
[0081] 2. High strength and lightweight: The composite structure design of U-shaped tube 201 with bending plate 203 and inner folding plate 206 reduces the amount of material used while improving the overall compressive and bending strength, achieving a balance between lightweight and high load-bearing capacity.
[0082] 3. Modular and highly adaptable: Each embodiment supports multiple combination methods through different opening directions, clearance slots and connecting plates 205, which can flexibly adapt to different logistics scenario requirements (such as stacking, transportation, sorting, etc.).
[0083] 4. Anti-interference and durability: The connecting plate 205, the clearance groove and the sealing structure effectively prevent foreign objects from entering, reduce wear and extend the service life of the equipment.
[0084] This utility model solves the problem of balancing cost and strength in the prior art through innovative beam frame structure design and diverse implementation methods. It combines economy, reliability and flexibility and can be widely used in the field of logistics equipment.
[0085] The above description is merely a preferred embodiment of this utility model. The protection scope of this utility model is not limited to the above embodiments. All technical solutions falling within the scope of this utility model's concept are protected. It should be noted that for those skilled in the art, any improvements and modifications made without departing from the principle of this utility model should also be considered within the protection scope of this utility model.
Claims
1. A logistics base station, characterized by: The system includes a frame, a support structure, and several footings. The frame includes several first beam frames connected together to form the frame. The support structure includes several second beam frames arranged side by side at intervals. Several footings are installed between two adjacent first beam frames. Both the first beam frames and the second beam frames adopt a beam frame structure. The beam frame structure includes a U-shaped tube and several sleeves, with the sleeves arranged vertically inside the U-shaped tube. Bending plates are provided on both sides of the opening of the U-shaped tube.
2. The logistics base station according to claim 1, characterized in that: The opening of the U-shaped tube is located on the vertical side, and the bending plates on both sides of the opening are bent inward, with a gap between the opposite sides of the bending plates.
3. The logistics base station according to claim 2, characterized by: A connecting plate is connected to the side of the bend plate facing the gap on one side, and the connecting plate completely covers the gap and is located on the bend plate on the other side.
4. The logistics base station according to claim 2, characterized by: On opposite sides of the bending plates on both sides of the opening, there are inner bending plates, which are bent toward the inside of the U-shaped tube.
5. A logistics base station according to claim 4, characterized in that: The inner folding plate is provided with a first clearance groove at several sleeve locations.
6. The logistics base station according to claim 1, characterized by: The opening of the U-shaped tube is located at the top, and the bending plates on both sides of the opening are bent inward, with a gap between the opposite sides of the bending plates.
7. A logistics base station according to claim 6, characterized in that: The bent plate is provided with a second clearance groove at several sleeve locations.
8. The logistics base station according to claim 6, characterized by: Folding plates are provided on opposite sides of the bending plates on both sides of the opening. The folding plates are bent toward the inside of the U-shaped tube. The sleeve is located between the two folding plates and is in contact with the two folding plates.
9. The logistics base station according to claim 1, characterized by: The opening of the U-shaped tube is located at the top, and the bending plates on both sides of the opening bend outwards.
10. A logistics base station according to any one of claims 1-9, characterized in that: The top is connected to the outside through a U-shaped tube.