A library site width adjustable intelligent steel mesh management cabinet

Through modular design and intelligent management, a steel mesh management cabinet with adjustable storage space width has been realized, which solves the problems of large size, fixed storage space and low level of intelligence of existing steel mesh management cabinets, and improves storage and retrieval efficiency and space utilization.

CN224324531UActive Publication Date: 2026-06-05ZHEJIANG JINGTENG INTELLIGENT EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG JINGTENG INTELLIGENT EQUIP CO LTD
Filing Date
2025-06-23
Publication Date
2026-06-05

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Abstract

The utility model belongs to warehouse equipment technical field discloses a kind of intelligent steel net management cabinet with adjustable warehouse width, including cabinet, several layers steel net placing assembly, width adjustment and separation component and intelligent induction and indicating component;Cabinet is constituted by aluminium profile frame assembly and side face sealing plate, and steel net placing assembly includes steel net placing sheet metal assembly, and width adjustment and separation component includes internal force crossbeam, plastic steel wire support and barrier steel wire, and the steel net warehouse position with adjustable width can be formed by adjusting the position of barrier steel wire, and intelligent induction and indicating component includes grating induction assembly and front end indicating lamp strip assembly, for detecting steel net storage state and giving indication.The utility model has the advantages of flexible adjustable warehouse width, strong adaptability, intelligent management, modular design, etc., can be compatible with multiple steel nets, improve management efficiency and space utilization.
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Description

Technical Field

[0001] This utility model relates to the field of warehousing equipment technology, and in particular to an intelligent management cabinet for storing steel mesh, specifically an intelligent steel mesh management cabinet with adjustable storage space width. Background Technology

[0002] In the electronics manufacturing industry, especially in surface mount technology (SMT) production, stencils are a key tool for printing solder paste. With the diversification of product models and frequent production batch changes, it is necessary to manage and store large quantities of stencils of different sizes and models.

[0003] Existing stencil management cabinets typically have the following problems:

[0004] 1) Its large size and fixed structure make the production and processing process complicated and occupy a large space in the production workshop.

[0005] 2) The storage space width is fixed, which may lead to space waste or incompatibility with steel mesh of different sizes, resulting in poor versatility.

[0006] 3) The production and assembly process may be time-consuming and sometimes requires the cooperation of multiple people, which places certain demands on the teamwork ability of production personnel.

[0007] 4) The lack of intelligent management methods results in low efficiency in storing and searching steel mesh, and it is prone to errors.

[0008] Therefore, how to provide a steel mesh management cabinet with a flexible structure, adjustable storage space width, compatibility with various steel meshes, and intelligent management is an urgent problem to be solved in the current technical field. Utility Model Content

[0009] The purpose of this utility model is to overcome the shortcomings of existing steel mesh management cabinets, such as large size, fixed storage space width, incompatibility with multiple types of steel mesh, and low level of intelligence, and to provide an intelligent steel mesh management cabinet with adjustable storage space width, strong adaptability, support for modular assembly, and intelligent sensing and indication functions.

[0010] To achieve the above objectives, this utility model provides the following technical solution:

[0011] An intelligent steel mesh management cabinet with adjustable storage space width includes:

[0012] The cabinet includes an aluminum profile frame assembly and an aluminum profile side panel fixed to the outer periphery of the aluminum profile frame assembly.

[0013] Several layers of steel mesh placement assemblies are provided inside the cabinet, and each layer of the steel mesh placement assembly includes a steel mesh placement sheet metal assembly;

[0014] A width adjustment and separation component, disposed on the steel mesh placement component, is used to form multiple steel mesh storage positions with adjustable width. The width adjustment and separation component includes:

[0015] At least one internal load-bearing beam is horizontally fixed inside the cabinet and supports the steel mesh placement sheet metal assembly.

[0016] Multiple plastic wire brackets are fixedly connected to the internal load-bearing crossbeam, and each plastic wire bracket has several evenly distributed wire mounting holes on its top surface.

[0017] Multiple guide wires are detachably and vertically inserted into the wire mounting holes of the plastic wire bracket and cooperate with the corresponding preset holes on the steel mesh placement sheet metal assembly. By selecting different combinations of wire mounting holes and preset holes, the spacing between adjacent guide wires can be adjusted, thereby adjusting the width of the steel mesh storage space.

[0018] A smart sensing and indicating component is used to sense and indicate the storage and retrieval status of the steel mesh in the steel mesh storage location. The smart sensing and indicating component includes:

[0019] A grating sensor assembly is installed in front of or inside the steel mesh storage location to detect whether there is steel mesh stored in the corresponding steel mesh storage location.

[0020] The front indicator light bar assembly is electrically connected to the grating sensor assembly and is located at the front end of the corresponding steel mesh storage position. It is used to issue light indications based on the detection results of the grating sensor assembly.

[0021] Preferably, the aluminum profile frame assembly is connected to the side panel of the aluminum frame, the grating sensing assembly, the steel mesh placement sheet metal assembly, and the internal load-bearing beam via locking screws, ensuring the stability of the overall structure and the ease of connection.

[0022] More preferably, the steel mesh placement sheet metal assembly is provided with a plurality of preset holes corresponding to the wire mounting holes of the plastic steel wire bracket. The upper and lower ends of the baffle wire are respectively inserted into the preset holes of the steel mesh placement sheet metal assembly and the wire mounting holes of the plastic steel wire bracket, which together define the position of the baffle wire and form a stable separation.

[0023] More preferably, each steel mesh storage location on the same layer has at least three rows of baffle wires in the depth direction, in the front, middle and rear directions, to provide multi-point support for the stored steel mesh, ensure the stability and safety of the stored steel mesh, and prevent the steel mesh from tipping over or deforming.

[0024] In a further preferred embodiment, the sheet metal assembly for placing the steel mesh is provided with reserved holes for the light from the grating sensing assembly to pass through, facilitating grating sensing; the back of the cabinet is provided with a limiting plate for limiting the storage depth of the steel mesh corresponding to each layer of the steel mesh placement assembly, to prevent the steel mesh from being inserted too deeply.

[0025] Furthermore, preferably, the cabinet adopts a modular design, and the steel mesh placement component, width adjustment and partition component, and intelligent sensing and indication component are all modules that can be installed and disassembled independently, which facilitates production, transportation, assembly and subsequent maintenance. At the same time, it can also be expanded or split according to needs to adapt to different usage scenarios.

[0026] In a further preferred embodiment, the plastic wire brackets are arranged at intervals along the length of the internal load-bearing crossbeam, providing a stable base for the installation of the baffle wires.

[0027] In a further preferred embodiment, the grating sensing assembly includes a transmitter and a receiver, which are respectively disposed on one side of the steel mesh storage location to form a sensing optical path. When the steel mesh is stored or taken out, the state of the optical path changes, thereby being detected.

[0028] In a further preferred embodiment, the front-end indicator light strip is an LED light strip that can display different colors or flashing patterns of light according to the storage or retrieval status of the steel mesh, providing clear and intuitive guidance for operators.

[0029] Compared with the prior art, the present invention has the following advantages:

[0030] 1. This management cabinet has the advantages of flexible and adjustable storage space width and strong adaptability: Through the re-insertable steel wire and the plastic steel wire bracket with multiple mounting holes and the sheet metal assembly for placing steel mesh, the width of each steel mesh storage space can be easily adjusted, so that the same storage space can accommodate a variety of steel meshes of different sizes, improving the cabinet's versatility and space utilization.

[0031] 2. This management cabinet has the advantages of intelligent management and improved efficiency: it integrates a grating sensor assembly and a front-end indicator light bar assembly, which can sense the storage and retrieval status of the steel mesh in real time and indicate it through LED lights, making it easy for operators to quickly locate and retrieve the steel mesh, reducing human error and improving management efficiency.

[0032] 3. The management cabinet has the advantages of modular design, easy maintenance and expansion: The whole adopts a modular design, and each functional component, such as the steel mesh placement component, width adjustment component, and sensor indicator component, can be installed and disassembled independently, which simplifies the production and assembly process, reduces maintenance costs, and can be flexibly expanded or adjusted according to actual needs.

[0033] 4. This management cabinet has the advantages of stable structure and safe storage: the aluminum profile frame, internal load-bearing beams and multiple rows of steel wire bars ensure the stability of the cabinet structure and the safety of the steel mesh storage, preventing the steel mesh from shaking or being damaged during storage and retrieval. Attached Figure Description

[0034] Figure 1 This is a schematic diagram of the overall three-dimensional structure of one embodiment of the present utility model;

[0035] Figure 2 This is a utility model Figure 1 The diagram shows the internal structure of the embodiment after the front panel has been removed in a head-up view.

[0036] Figure 3 yes Figure 2 A magnified view of a portion of point A in the middle;

[0037] Figure 4 This is a utility model Figure 1 The illustrated embodiment is a structural diagram after removing the side panel and some internal components in a bottom view.

[0038] Figure 5 yes Figure 4 A magnified view of a portion of point B in the middle.

[0039] In the diagram: 1-Aluminum profile frame assembly; 2-Steel mesh placement sheet metal assembly; 3-Internal load-bearing crossbeam; 4-Front-end indicator light strip assembly; 5-Light grating sensor assembly; 6-Plastic steel wire bracket; 7-Steel wire for the stop bar. Detailed Implementation

[0040] 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.

[0041] First, it needs to be clarified that the "steel mesh" referred to in this utility model refers to a metal mesh used for solder paste printing in the electronics manufacturing industry, especially in the SMT (Surface Mount Technology) production process. It is usually made of stainless steel and has patterns etched on it that correspond to the positions of the component pads on the PCB.

[0042] Please see Figures 1-5 As shown, this utility model provides an intelligent steel mesh management cabinet with adjustable storage space width.

[0043] The management cabinet mainly consists of a cabinet body. The cabinet body is mainly supported by an aluminum profile frame assembly 1. The outer perimeter of the aluminum profile frame assembly 1 is fixed with aluminum frame side panels, a top plate, and a bottom plate by bolts and other fasteners, forming a closed or semi-closed storage space. The bottom of the cabinet body is equipped with movable casters or fixed support feet.

[0044] Inside the cabinet, several layers of steel mesh placement assemblies are installed. The core of each layer is a steel mesh placement sheet metal assembly 2, a horizontal plate-like structure used to support the steel mesh. These steel mesh placement sheet metal assemblies 2 are fixed to the uprights of the aluminum profile frame assembly 1 via connectors, or supported by internal load-bearing beams 3. As shown in the figure, the internal load-bearing beams 3 are horizontally positioned inside the cabinet, for example, fixed between the aluminum profile uprights on the front and rear sides of the cabinet, providing stable support for the steel mesh placement sheet metal assemblies 2.

[0045] The core width adjustment and partitioning component is located on the steel mesh placement component, used to divide the steel mesh placement space of each layer into multiple steel mesh storage locations with adjustable widths. This component includes:

[0046] Multiple plastic wire supports 6 are fixedly connected to the internal load-bearing beam 3 and are arranged at intervals along the length of the internal load-bearing beam 3. Each plastic wire support 6 has several (e.g., one or more rows) evenly distributed wire mounting holes on its top surface (i.e., the side facing the steel mesh mounting assembly 2). It should be noted that the steel mesh mounting assembly 2 is located above the plastic wire supports 6, and the two are arranged vertically opposite each other.

[0047] Multiple retaining wires 7, which are typically metal wires or thin rods with a certain degree of rigidity. For example... Figure 5 As shown, the lower end of the baffle wire 7 is inserted into the wire mounting hole of the plastic wire bracket 6, while the upper end is inserted into a preset hole at the bottom of the steel mesh placement sheet metal assembly 2. This design allows the baffle wire 7 to be vertically fixed between the steel mesh placement sheet metal assembly 2 and the plastic wire bracket 6, forming a partition between storage spaces. By selecting different wire mounting holes on the plastic wire bracket 6 and corresponding preset holes on the steel mesh placement sheet metal assembly 2, the horizontal distance between two adjacent baffle wires or two sets of baffle wires 7 can be changed, thereby flexibly adjusting the width of the formed steel mesh storage space to accommodate steel meshes of different widths.

[0048] To ensure the stability of the steel mesh stored in the storage location, at least three rows of steel wire guides 7 are installed along the depth direction of each steel mesh storage location, i.e., from the front to the back of the cabinet. Figure 4 As shown. In this way, when the steel mesh is placed in the storage location, its two sides can be stably supported by these multiple rows of steel wires, preventing it from shaking, tipping over or deforming.

[0049] To enable intelligent management, the cabinet is also equipped with intelligent sensing and indicator components.

[0050] The grating sensor assembly 5 is installed at the front edge of each layer of steel mesh storage location, such as... Figure 3 As shown. Specifically, the grating sensing assembly 5 includes a grating emitter located on one side of the storage location and a grating receiver located on the other side of the storage location, forming a horizontal sensing light path. When the steel mesh is stored in the storage location, it blocks the light path; when it is removed, the light path is restored. By detecting the on / off state of the light path, it can be determined whether there is a steel mesh in the storage location. The steel mesh placement sheet metal assembly 2 has reserved holes for the light from the grating sensing assembly 5 to pass through, ensuring the accuracy of the sensing.

[0051] The front indicator light strip assembly 4 is an LED light strip installed on the front edge of each steel mesh storage location and electrically connected to the corresponding grating sensor assembly 5. When the grating sensor assembly 5 detects a change in the steel mesh storage status, the front indicator light strip assembly 4 will emit corresponding light indicators. For example, an empty storage location will be displayed in green, a storage location with a steel mesh will be displayed in red, and a storage location awaiting operation will be displayed in yellow, providing clear visual guidance for operators.

[0052] In addition, a limit plate is set on the back of the cabinet for each layer of steel mesh placement components to limit the insertion depth of the steel mesh and prevent the steel mesh from being pushed in too much and damaging the internal structure of the cabinet or the grating sensing device.

[0053] The entire cabinet adopts a modular design. The aluminum profile frame assembly 1, the sheet metal assembly holding the steel mesh 2, the internal load-bearing beam 3, the front indicator light strip assembly 4, the light grid sensor assembly 5, the plastic wire bracket 6, and the guide wire 7 can all be considered independent modules or components, connected by standard parts such as locking screws. This design not only simplifies the difficulty and time of production, transportation, and on-site assembly, but also facilitates subsequent maintenance, upgrades, or local adjustments and expansions as needed.

[0054] In use, operators can select the appropriate wire mounting holes on the plastic wire bracket 6 and the corresponding preset holes on the sheet metal assembly 2, based on the width of the steel mesh to be stored, and insert the retaining wire 7 to form a steel mesh storage space of suitable width. When a steel mesh needs to be stored, the system can indicate an available storage space, for example, by displaying green on the front indicator light assembly 4. After the operator places the steel mesh into the storage space, the grating sensor assembly 5 detects the steel mesh, and the front indicator light assembly 4 turns red, indicating that the storage space is occupied. Retrieving a steel mesh is similar; the system indicates the storage space where the target steel mesh is located, and the indicator light status updates after retrieval.

[0055] In summary, this utility model effectively solves many problems existing in the steel mesh management cabinet by cleverly combining an adjustable baffle wire partition structure, a modular cabinet design, and an intelligent sensing and indication system, providing an efficient, flexible, and intelligent steel mesh storage solution.

[0056] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A smart steel mesh management cabinet with adjustable storage space width, characterized in that, include: The cabinet includes an aluminum profile frame assembly (1) and an aluminum profile frame side panel fixed to the outer periphery of the aluminum profile frame assembly (1). Several layers of steel mesh placement components, the steel mesh placement components are disposed inside the cabinet, and each layer of the steel mesh placement components includes a steel mesh placement sheet metal assembly (2). Width adjustment and separation component, set on the steel mesh placement component, is used to form multiple steel mesh storage positions with adjustable width. The width adjustment and separation component includes: at least one internal load-bearing beam (3), which is horizontally fixed inside the cabinet and supports the steel mesh placement sheet metal assembly (2). Multiple plastic wire brackets (6) are fixedly connected to the internal load-bearing crossbeam (3), and each plastic wire bracket (6) has several evenly distributed wire mounting holes on its top surface. Multiple baffle wires (7) are detachably and vertically inserted into the wire mounting holes of the plastic wire bracket (6) and cooperate with the corresponding preset holes on the steel mesh placement sheet metal assembly (2). By selecting different combinations of wire mounting holes and preset holes, the spacing between adjacent baffle wires (7) can be adjusted, thereby adjusting the width of the steel mesh storage space. A smart sensing and indicating component is used to sense and indicate the storage and retrieval status of the steel mesh in the steel mesh storage location. The smart sensing and indicating component includes: The grating sensing assembly (5) is located in front of or inside the steel mesh storage location and is used to detect whether there is steel mesh stored in the corresponding steel mesh storage location. The front indicator light bar assembly (4) is electrically connected to the grating sensing assembly (5) and is set at the front end of the corresponding steel mesh storage position to emit light indications based on the detection results of the grating sensing assembly (5).

2. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The aluminum profile frame assembly (1) is connected to the side panel of the aluminum frame, the grating sensing assembly (5), the steel mesh placement sheet metal assembly (2), and the internal load-bearing beam (3) by locking screws.

3. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The steel mesh placement sheet metal assembly (2) is provided with a number of preset holes corresponding to the wire mounting holes of the plastic wire bracket (6). The upper and lower ends of the baffle wire (7) are respectively inserted into the preset holes of the steel mesh placement sheet metal assembly (2) and the wire mounting holes of the plastic wire bracket (6).

4. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, In each steel mesh storage location on the same layer, at least three rows of baffle wires (7) are provided in the depth direction of the front, middle and rear to provide stable support for the stored steel mesh.

5. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The sheet metal assembly (2) for placing steel mesh is provided with reserved holes for light from the grating sensing assembly (5) to pass through; the back of the cabinet is provided with a limiting plate for limiting the storage depth of the steel mesh corresponding to each layer of steel mesh placement assembly.

6. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The cabinet adopts a modular design, and the steel mesh placement component, width adjustment and partition component, and intelligent sensing and indication component are all modules that can be installed and disassembled independently.

7. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The plastic wire support (6) is arranged at intervals along the length of the internal load-bearing crossbeam (3).

8. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The grating sensing assembly (5) includes a transmitter and a receiver, which are respectively disposed on one side of the steel mesh storage position to form a sensing optical path.

9. The intelligent steel mesh management cabinet with adjustable storage space width according to claim 1, characterized in that, The front indicator light bar assembly (4) is an LED light bar that can display different colors or flashing patterns of light according to the storage or retrieval status of the steel mesh.