Intelligent three-dimensional warehouse

By setting up protective and rotating structures in the intelligent automated warehouse, the problems of goods slipping and inconvenient storage and retrieval are solved, achieving the effect of preventing slippage and facilitating convenient storage and retrieval.

CN224376668UActive Publication Date: 2026-06-19WUXI XINJULI TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI XINJULI TECH CO LTD
Filing Date
2025-08-22
Publication Date
2026-06-19

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Abstract

This utility model relates to the field of intelligent automated warehouse technology, providing an intelligent automated warehouse including a main body and a base plate; the base plate is uniformly installed inside the main body, and protective structures are uniformly installed inside the main body outside the base plate. By providing protective structures, this utility model prevents semiconductor goods from slipping when placed on top of the base plate by using protective railings. A protective plate on the storage / retrieval side further enhances the protective effect. During storage / retrieval, pressing down on the protective plate causes it to slide within a groove, and the protective plate is positioned by a locking structure formed by a moving block and a pre-reserved slot, preventing it from shifting and facilitating the storage and retrieval of goods. This achieves the purpose of preventing semiconductor goods from falling off and facilitating storage and retrieval.
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Description

Technical Field

[0001] This utility model relates to the field of intelligent automated warehouse technology, and in particular to an intelligent automated warehouse. Background Technology

[0002] The use of intelligent automated warehouses is indispensable for the convenient storage of semiconductors, etc.

[0003] To address this, patent CN210028799U discloses an intelligent automated warehouse, specifically relating to the field of material storage and transportation technology. The warehouse includes a container with several storage compartments evenly distributed on its surface. Each storage compartment contains a pallet, and the bottom of the pallet has two sets of slots. Several first protrusions are evenly distributed on the top of the slots. Baffles are provided on both sides of the pallet. A base is provided at the bottom of the container, and a vehicle-carrying platform is located on one side of the container. A control block is located at the bottom of the vehicle-carrying platform, and two sets of placement slots are provided on the side of the control block facing the vehicle-carrying platform. This invention, by incorporating the first protrusions, allows the pallet and the vehicle-carrying trolley to be secured when the double forks on one side of the transport trolley enter the slots on the pallet side. Because the distance between the first protrusions is greater than the width of the second protrusions, the first and second protrusions interlock, improving the stability between the pallet and the transport trolley and effectively increasing operational efficiency.

[0004] The aforementioned intelligent automated warehouses are not convenient in preventing semiconductor goods from slipping while simultaneously facilitating their storage and retrieval, thus limiting their usability. Utility Model Content

[0005] The purpose of this utility model is to provide an intelligent automated warehouse to solve the shortcomings of existing intelligent automated warehouses in preventing goods from slipping and facilitating convenient storage and retrieval.

[0006] To solve the above-mentioned technical problems, this utility model provides the following technical solution: an intelligent automated warehouse, comprising a main body and a base plate;

[0007] A base plate is uniformly installed inside the main body, and a protective structure is uniformly installed inside the main body outside the base plate;

[0008] The protective structure includes protective railings evenly installed inside the main body on the outer side of the base plate. A sliding groove is evenly opened inside the main body on one side of the protective railing. A protective plate is installed inside the sliding groove. An internal groove is opened at the bottom of the protective plate. A moving block is installed inside the internal groove. A push-out spring is evenly fixed on one side of the moving block. A return spring is evenly fixed at the bottom end of the protective plate. A reserved groove is opened inside the main body on one side of the sliding groove. A pressing plate is installed inside the reserved groove.

[0009] The base plate has evenly spaced rotating structures inside.

[0010] Preferably, the base plate is distributed at equal intervals inside the main body, and the guardrail is distributed at equal intervals outside the base plate inside the main body.

[0011] Preferably, the protective plate is slidably connected inside the groove, and the pressing plate is slidably connected inside the reserved groove.

[0012] Preferably, one side of the ejector spring is fixedly connected to one side inside the built-in groove, and the bottom end of the reset spring is fixedly connected to the bottom end inside the guardrail.

[0013] Preferably, the movable block is disposed inside the reserved slot, and the movable block and the main body form an engaging structure through the reserved slot, and the movable block abuts against the pressing plate.

[0014] Preferably, the rotating structure includes through grooves uniformly opened inside the base plate, rotating shafts uniformly arranged inside the through grooves, and protrusions fixed on both sides of the rotating shafts.

[0015] Preferably, the rotating shafts are evenly distributed inside the through groove, and the rotating shafts and the through groove are rotatably connected by protrusions.

[0016] The advantages of the intelligent automated warehouse provided by this utility model are as follows:

[0017] By incorporating a protective structure, when semiconductor goods are placed on top of the base plate, the protective railing prevents them from slipping. A protective plate on the storage and retrieval side further enhances the protective effect. During storage and retrieval, the protective plate is pressed down, causing it to slide inside the chute. The protective plate is positioned by a locking structure formed by a moving block and a reserved slot, preventing it from shifting and facilitating the storage and retrieval of goods. This achieves the purpose of preventing semiconductor goods from falling off and facilitating storage and retrieval. Attached Figure Description

[0018] Figure 1 This is a front-view three-dimensional structural schematic diagram of the present invention;

[0019] Figure 2 This is a frontal three-dimensional structural diagram of the present invention;

[0020] Figure 3 This is a side view cross-sectional three-dimensional structural schematic diagram of the present invention;

[0021] Figure 4 This is an enlarged structural diagram of point A in this utility model;

[0022] Figure 5 This is a partial three-dimensional structural schematic diagram of the present invention.

[0023] The following are the annotations in the figure: 1. Main body; 2. Base plate; 3. Protective structure; 301. Guardrail; 302. Slide groove; 303. Protective plate; 304. Internal groove; 305. Moving block; 306. Ejection spring; 307. Return spring; 308. Reserved groove; 309. Pressing plate; 4. Rotating structure; 401. Through groove; 402. Rotating shaft; 403. Protrusion. Detailed Implementation

[0024] 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.

[0025] Please see Figure 1 - Figure 5 The present invention provides an intelligent automated warehouse, comprising a main body 1 and a base plate 2.

[0026] Reference Figure 1 - Figure 4 As shown, a base plate 2 is uniformly installed inside the main body 1. A protective structure 3 is uniformly installed inside the main body 1 outside the base plate 2. The protective structure 3 includes a protective railing 301 uniformly installed inside the main body 1 outside the base plate 2. A sliding groove 302 is uniformly opened inside the main body 1 on one side of the protective railing 301. A protective plate 303 is installed inside the sliding groove 302. An internal groove 304 is opened at the bottom of the protective plate 303. A moving block 305 is installed inside the internal groove 304. A push-out spring 306 is uniformly fixed on one side of the moving block 305. A return spring 307 is uniformly fixed at the bottom of the protective plate 303. A reserved groove 308 is opened inside the main body 1 on one side of the sliding groove 302. The reserved slot 308 is equipped with a pressing plate 309. The base plate 2 is evenly distributed inside the main body 1. The guardrail 301 is evenly distributed inside the main body 1 outside the base plate 2. The guardrail 303 is slidably connected inside the slide groove 302. The pressing plate 309 is slidably connected inside the reserved slot 308. One side of the ejector spring 306 is fixedly connected to one side inside the built-in slot 304. The bottom end of the reset spring 307 is fixedly connected to the bottom end inside the guardrail 301. The moving block 305 is set inside the reserved slot 308. The moving block 305 and the main body 1 form a locking structure through the reserved slot 308. The moving block 305 and the pressing plate 309 abut against each other.

[0027] The use of automated storage and retrieval systems (AS / RS) is indispensable in the storage of semiconductors. To prevent semiconductors from falling off the top of the base plate 2, a protective structure 3 is installed. Protective railings 301 are evenly installed on the top of the outer main body 1 of the base plate 2 to prevent semiconductors from slipping. A protective plate 303 on one side is slidably connected inside the chute 302. To facilitate the storage and retrieval of semiconductors, a stacker crane presses down on the protective plate 303, causing it to move downwards. This moves the moving block 305 to one side of the reserved slot 308, allowing the semiconductors to pass through... The ejector spring 306 pushes the moving block 305 into the reserved slot 308, positioning the protective plate 303 to facilitate the storage and retrieval of semiconductor goods at the top of the base plate 2. After storage and retrieval, the pressing plate 309 pushes the moving block 305 away from the reserved slot 308, thus releasing the positioning. The bottom end of the protective plate 303 is uniformly fixed with a return spring 307, which provides an upward thrust for the protective plate 303, causing the protective plate 303 to move to one side of the top of the base plate 2, thereby preventing the semiconductor goods from slipping and greatly increasing the practicality of the device.

[0028] Reference Figure 1 , Figure 2 and Figure 5 As shown, a rotating structure 4 is evenly provided inside the base plate 2. The rotating structure 4 includes through grooves 401 evenly provided inside the base plate 2. Rotating shafts 402 are evenly provided inside the through grooves 401. Protrusions 403 are fixed on both sides of the rotating shafts 402. The rotating shafts 402 are evenly distributed inside the through grooves 401. The rotating shafts 402 and the through grooves 401 are rotatably connected by the protrusions 403.

[0029] To facilitate the storage of semiconductor goods, a rotating structure 4 is provided, and through slots 401 are evenly provided on the top of the base plate 2. The rotating shaft 402 is rotatably connected inside the through slots 401 through the protrusions 403. This changes static friction to sliding friction during the storage and retrieval of semiconductor goods placed on the top of the base plate 2, making it easier to store and retrieve semiconductors and greatly increasing the practicality of the device.

[0030] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. An intelligent automated warehouse, comprising a main body (1) and a base plate (2); Its features are: The base plate (2) is uniformly installed inside the main body (1), and the protective structure (3) is uniformly installed inside the main body (1) outside the base plate (2); The protective structure (3) includes a protective railing (301) evenly installed inside the main body (1) on the outside of the base plate (2). A sliding groove (302) is evenly opened inside the main body (1) on one side of the protective railing (301). A protective plate (303) is provided inside the sliding groove (302). An internal groove (304) is opened at the bottom of the protective plate (303). A moving block (305) is provided inside the internal groove (304). A push-out spring (306) is evenly fixed on one side of the moving block (305). A reset spring (307) is evenly fixed at the bottom of the protective plate (303). A reserved groove (308) is opened inside the main body (1) on one side of the sliding groove (302). A pressing plate (309) is provided inside the reserved groove (308). The base plate (2) has rotating structures (4) evenly distributed inside.

2. The intelligent warehouse according to claim 1, characterized in that: The base plate (2) is distributed at equal intervals inside the main body (1), and the guardrail (301) is distributed at equal intervals outside the base plate (2) inside the main body (1).

3. The intelligent warehouse according to claim 1, characterized in that: The protective plate (303) is slidably connected inside the slide groove (302), and the pressing plate (309) is slidably connected inside the reserved groove (308).

4. The intelligent automated warehouse according to claim 1, characterized in that: One side of the ejector spring (306) is fixedly connected to one side inside the built-in groove (304), and the bottom end of the reset spring (307) is fixedly connected to the bottom end inside the guardrail (301).

5. The intelligent automated warehouse according to claim 1, characterized in that: The movable block (305) is disposed inside the reserved slot (308). The movable block (305) and the main body (1) form a locking structure through the reserved slot (308). The movable block (305) and the pressing plate (309) abut against each other.

6. The intelligent automated warehouse according to claim 1, characterized in that: The rotating structure (4) includes through grooves (401) evenly opened inside the base plate (2), and rotating shafts (402) are evenly arranged inside the through grooves (401). Protrusions (403) are fixed on both sides of the rotating shafts (402).

7. The intelligent automated warehouse according to claim 6, characterized in that: The rotating shafts (402) are evenly distributed inside the through groove (401), and the rotating shafts (402) and the through groove (401) are rotatably connected by protrusions (403).