A shuttle type metal storage shelf

By designing adjustment components and a buffer system on the shuttle-type metal shelving for warehousing, the problem of goods tilting or collapsing due to inertial collisions in the shuttle car was solved, thus achieving stable transportation and safe storage of materials.

CN224492365UActive Publication Date: 2026-07-14HANGZHOU GONGCHENG AUTOMATION EQUIP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HANGZHOU GONGCHENG AUTOMATION EQUIP
Filing Date
2025-07-03
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

When the shuttle reaches the designated platform using laser ranging, it may not be able to stop immediately due to inertia, potentially colliding with goods on the platform ahead, causing the goods to tilt or collapse, posing a safety hazard.

Method used

A shuttle-type metal storage rack for warehousing was designed, which adopts an adjustment component and a buffer system. The distance between the buffer plates can be adjusted by rotating the handle, and the impact force of material collision is mitigated by springs and buffer blocks.

Benefits of technology

Effectively adjusting the distance between buffer plates reduces the impact force when materials collide, ensures material stability, prevents goods from tilting or collapsing, and improves safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of warehouse shelves, and discloses a shuttle type metal storage shelf for a warehouse, which comprises a base, a plurality of stand columns are fixedly connected to the top of the base, rails are mounted on the inner sides of the stand columns, a shuttle machine is slidably connected to the surface of the rail, a storage plate is held on the top surface of the shuttle machine, an adjusting assembly is mounted in the storage plate, a buffer block is connected to the adjusting assembly, a sliding rod is slidably connected in the buffer block, and a pressing plate is fixedly connected to the outer surface of the sliding rod. In the application, when the shuttle machine carries the materials on the storage plate to move, the materials will collide with another material, then the buffer pad collides with the other material, the buffer pad and the buffer plate push the sliding rod to move, the sliding rod moves to drive the pressing plate to compress the spring, and through the reverse force of the spring, the impact force between the materials carried by the shuttle machine and the other materials is relieved.
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Description

Technical Field

[0001] This application relates to the technical field of warehouse racking, and in particular to a shuttle-type metal storage rack for warehouses. Background Technology

[0002] A shuttle racking system is a high-density storage solution that integrates racking, shuttles, and forklifts. The system includes shuttles equipped with several racks, pallets, racking, and the function of automating pallet receiving, transportation, and storage using the shuttles. To ensure the shuttles can accurately stop at designated locations, each station is equipped with a positioning detection plate, and the shuttle is equipped with a positioning detection switch, enabling it to precisely move to the target station using laser ranging technology.

[0003] However, in actual operation, when the shuttle arrives at the designated platform using laser ranging, it may not stop immediately due to inertia, potentially colliding with goods on the platform ahead and causing the goods to tilt. In this situation, if the top of the goods exceeds the bottom edge during subsequent loading and unloading, the goods are prone to instability or even collapse during handling, posing a significant safety hazard.

[0004] Therefore, those skilled in the art have provided a shuttle-type metal storage rack for warehousing to solve the problems mentioned in the background art. Utility Model Content

[0005] To address the problems mentioned in the background art, this application provides a shuttle-type metal storage rack for warehousing.

[0006] This application provides a shuttle-type metal storage rack for warehouses, which adopts the following technical solution: It includes a base, with several columns fixedly connected to the top of the base. A track is installed on the inner side of each column, and a shuttle is slidably connected to the surface of the track. A storage plate is supported on the top surface of the shuttle. An adjustment assembly is installed inside the storage plate, and a buffer block is connected to the adjustment assembly. A sliding rod is slidably connected inside the buffer block, and a pressure plate is fixedly connected to the outer surface of the sliding rod. A spring is fixedly connected to the inner side of the pressure plate, sleeved on the outer surface of the sliding rod, and the other end of the spring is fixedly connected to the inner wall of the buffer block. A buffer plate and a buffer pad are inserted and connected to one end of the sliding rod that passes through the buffer block.

[0007] Preferably, the column has a sliding connection to a fixing block, which is fixedly connected to the column by screws, and one end of the fixing block is fixedly connected to the track.

[0008] Preferably, the adjustment assembly includes a threaded rod, a threaded block, and a concave push rod. The interior of the shelf is rotatably connected to the threaded rod, the outer surface of the threaded rod is helically connected to the threaded block, and the outer surface of the threaded block is fixedly connected to the concave push rod, with the outer surface of the concave push rod slidably connected to the shelf.

[0009] Preferably, a rotating handle is fixedly connected to one end of the threaded rod extending to the outside of the shelf.

[0010] Preferably, the slide bar passes through the buffer plate and is threadedly connected to one end of the buffer pad with a nut.

[0011] In summary, this application includes the following beneficial technical effects:

[0012] 1. By rotating the handle, the threaded rod is driven to rotate, which in turn drives the threaded block to move. The movement of the threaded block drives the concave push rod to move the buffer block, which in turn drives the buffer pad and buffer plate to move, thereby adjusting the distance between the buffer plates according to the size of the material.

[0013] 2. When the shuttle moves the material on the shelf, and the material is about to collide with another material, the buffer pad collides with the other material, pushing the buffer pad and buffer plate to move the slide rod. The slide rod moves and drives the pressure plate to compress the spring. Through the reverse force of the spring, the impact force between the material carried by the shuttle and the other material is reduced. Attached Figure Description

[0014] Figure 1 This is a front structural diagram of a shuttle-type metal storage rack for warehousing, as described in an embodiment of this application.

[0015] Figure 2 This is a schematic diagram of the shelf structure of a shuttle-type metal storage rack for warehousing in an embodiment of this application;

[0016] Figure 3 This is a schematic diagram of the internal structure of the shelf panel of a shuttle-type metal storage rack for warehousing in an embodiment of this application;

[0017] Figure 4 This is a schematic diagram of the internal structure of the buffer block of a shuttle-type metal shelving unit for storage in an embodiment of this application;

[0018] Figure 5 This application describes a shuttle-type metal storage rack for warehouses. Figure 4 A magnified structural diagram of point A in the middle.

[0019] Explanation of reference numerals in the attached diagram: 1. Base; 2. Column; 3. Track; 4. Fixing block; 5. Shuttle; 6. Shelf; 7. Threaded rod; 8. Threaded block; 9. Concave push rod; 10. Rotating handle; 11. Buffer block; 12. Slide rod; 13. Pressure plate; 14. Spring; 15. Nut; 16. Buffer plate; 17. Buffer pad. Detailed Implementation

[0020] The following will be combined with the appendix Figure 1-5 The technical solution of this utility model has been clearly and completely described. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0021] This application discloses a shuttle-type metal storage rack for warehouses, referring to... Figure 1-5 The system includes a base 1, with several columns 2 fixedly connected to the top of the base 1. Fixing blocks 4 are slidably connected inside the columns 2, and the fixing blocks 4 are fixedly connected to the columns 2 by screws. Screw holes of equal spacing are opened inside the columns 2. One end of the fixing blocks 4 is fixedly connected to a track 3. A shuttle 5 is slidably connected to the surface of the track 3. A shelf 6 is supported on the top surface of the shuttle 5, and an adjustment component is installed inside the shelf 6. By using the screws, fixing blocks 4, and columns 2 in conjunction, the height of the track 3 can be adjusted.

[0022] In this application, the adjustment assembly includes a threaded rod 7, a threaded block 8, and a concave push rod 9. The interior of the shelf 6 is rotatably connected to the threaded rod 7. A rotating handle 10 is fixedly connected to one end of the threaded rod 7 extending to the outside of the shelf 6, allowing the operator to rotate the threaded rod 7 by rotating the handle 10. The outer surface of the threaded rod 7 is helically connected to the threaded block 8. The outer surface of the threaded block 8 is fixedly connected to the concave push rod 9, and the outer surface of the concave push rod 9 is slidably connected to the shelf 6. By using the threaded rod 7, threaded block 8, and concave push rod 9 in cooperation, rotating the threaded rod 7 pushes the threaded block 8, which in turn moves the concave push rod 9.

[0023] In this application, the adjusting component is connected to a buffer block 11, a slide rod 12 is slidably connected inside the buffer block 11, a pressure plate 13 is fixedly connected to the outer surface of the slide rod 12, a spring 14 is fixedly connected to the inner side of the pressure plate 13 and sleeved on the outer surface of the slide rod 12, and the other end of the spring 14 is fixedly connected to the inner wall of the buffer block 11. A buffer plate 16 and a buffer pad 17 are inserted and connected to one end of the slide rod 12 that passes through the buffer block 11, and a nut 15 is threadedly connected to one end of the slide rod 12 that passes through the buffer plate 16 and the buffer pad 17. By setting the buffer plate 16, the buffer pad 17 and the adjusting component, the distance between the buffer plate 16 and the buffer pad 17 can be adjusted according to the size of the material.

[0024] All standard parts used in this utility model can be purchased from the market, and irregular parts can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection methods in the prior art, which will not be described in detail here.

[0025] The implementation principle of a shuttle-type metal storage rack for storage in this application embodiment is as follows: When in use, rotating the rotating handle 10 drives the threaded rod 7 to rotate, the rotation of the threaded rod 7 drives the threaded block 8 to move, the movement of the threaded block 8 drives the concave push rod 9 to push the buffer block 11 to move, and the movement of the buffer block 11 pushes the buffer pad 17 and the buffer plate 16 to move, so as to adjust the distance of the buffer plate 16 according to the size of the material.

[0026] When the shuttle 5 moves the material on the storage plate 6, when the material is about to collide with another material, the buffer pad 17 collides with the other material, pushing the buffer pad 17 and the buffer plate 16 to push the slide rod 12 to move. The movement of the slide rod 12 drives the pressure plate 13 to compress the spring 14. Through the reverse force of the spring 14, the impact force between the material carried by the shuttle 5 and the other material is reduced.

[0027] Finally, the following points should be noted: First, in the description of this application, it should be noted that, unless otherwise specified and limited, the terms "installation", "connection", and "linkage" should be interpreted broadly, and can be mechanical or electrical connections, or internal connections between two components, or direct connections. "Up", "down", "left", "right", etc. are only used to indicate relative positional relationships. When the absolute position of the described object changes, the relative positional relationship may change.

[0028] Secondly: The accompanying drawings of the embodiments disclosed in this utility model only involve the structures involved in the embodiments disclosed in this utility model. Other structures can refer to the general design. In the absence of conflict, the same embodiment and different embodiments of this utility model can be combined with each other.

Claims

1. A shuttle-type metal storage rack for warehouses, comprising a base (1), characterized in that, The top of the base (1) is fixedly connected to several columns (2). The inner side of the columns (2) is equipped with a track (3). The surface of the track (3) is slidably connected to a shuttle (5). The top surface of the shuttle (5) supports a shelf (6). An adjustment component is installed inside the shelf (6). The adjustment component is connected to a buffer block (11). The inside of the buffer block (11) is slidably connected to a slide rod (12). The outer surface of the slide rod (12) is fixedly connected to a pressure plate (13). The inner side of the pressure plate (13) is fixedly connected to a spring (14) sleeved on the outer surface of the slide rod (12). The other end of the spring (14) is fixedly connected to the inner wall of the buffer block (11). The end of the slide rod (12) that passes through the buffer block (11) is inserted and connected to a buffer plate (16) and a buffer pad (17).

2. The shuttle-type metal storage rack for warehouses according to claim 1, characterized in that: The column (2) has a sliding connection to a fixing block (4), which is fixedly connected to the column (2) by screws. One end of the fixing block (4) is fixedly connected to the track (3).

3. The shuttle-type metal storage rack for warehouses according to claim 1, characterized in that: The adjustment assembly includes a threaded rod (7), a threaded block (8), and a concave push rod (9). The interior of the shelf (6) is rotatably connected to the threaded rod (7). The outer surface of the threaded rod (7) is helically connected to the threaded block (8). The outer surface of the threaded block (8) is fixedly connected to the concave push rod (9), and the outer surface of the concave push rod (9) is slidably connected to the shelf (6).

4. A shuttle-type metal storage rack for warehouses according to claim 3, characterized in that: The threaded rod (7) is fixedly connected to a rotating handle (10) at one end extending to the outside of the shelf (6).

5. A shuttle-type metal storage rack for warehouses according to claim 1, characterized in that: The slide bar (12) passes through the buffer plate (16) and is threaded to one end of the buffer pad (17) with a nut (15).