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Inside Corner Brackets / Al. Connection Angles Custom
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Inside Corner Brackets / Al. Connection Angles Manufacturers

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  • 2518.006.001
    2518.006.001
    2518.006.001

    2518.006.001

    2518.006.001 2518.006.001
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    Part No.
    Specification
    Surface 
    Material 
    Weight(g)
    2530.006.002
    4040
    Anodized
    Aluminum 6061
    15.00
    ×
  • 2519.008.001
    2519.008.001
    2519.008.001

    2519.008.001

    2519.008.001 2519.008.001
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    Part No.
    Specification
    Surface 
    Material 
    Weight(g)
    2519.008.001
    4040
    Anodized
    Aluminum 6061
    30.00
    ×
  • 2520.008.001
    2520.008.001
    2520.008.001

    2520.008.001

    2520.008.001 2520.008.001 2520.008.001
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    Part No. Specification Surface Material Weight(g)
    2520.008.001
    80x80x40
    Anodized
    Aluminum 6061
    		 153.00
    2520.008.002
    80x80x40, slot8 
    Anodized
    Aluminum 6061
    		 153.00
    2520.008.003
    80x80x40
    Anodized
    Aluminum 6061
    		 315.00
    2520.008.004
    80x80x40, slot8 
    Anodized
    Aluminum 6061
    		 315.00
    ×
  • 2522.045.020
    2522.045.020
    2522.045.020

    2522.045.020

    2522.045.020 2522.045.020
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    Part No. A D Specification Surface Material Weight(g)
    2522.045.020 20 6 2020, 45°
    Anodized
    Aluminum
    		 27.00
    2522.045.030 28 8.5 3030, 45°
    Anodized
    Aluminum
    		 40.00
    2522.045.040 35 9 4040, 45°
    Anodized
    Aluminum
    		 55.00
    ×
  • 2522.135.020
    2522.135.020
    2522.135.020

    2522.135.020

    2522.135.020
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    Part No. A D Specification Surface Material Weight(g)
    2522.135.020 20 6 2020, 135°
    Anodized
    Aluminum
    		 28.00
    2522.135.030 28 8.5 3030, 135°
    Anodized
    Aluminum
    		 40.00
    2522.135.040 35 9 4040, 135°
    Anodized
    Aluminum
    		 59.00
    ×
  • 3922.006.001
    3922.006.001
    3922.006.001

    3922.006.001

    3922.006.001 3922.006.001
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    Part No. Specification A B C Surface Material Weight(g)
    3922.006.001 3030 26 30 30
    Anodized
    Alu alloy
    		 28.00
    3922.006.002 4040 36 40 40
    Anodized
    Alu alloy
    		 57.00
    3922.006.003 4545 42 40 40
    Anodized
    Alu alloy
    		 75.00
    ×
  • 3923.006.001
    3923.006.001
    3923.006.001

    3923.006.001

    3923.006.001 3923.006.001
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    Part No. Specification A B C Surface Material Weight(g)
     3923.006.001 2550 22 50 50
    Anodized
    Alu alloy
    		 41.00
     3923.006.002 3060 26 60 60
    Anodized
    Alu alloy
    		 60.00
     3923.006.003 4080 36 80 80
    Anodized
    Alu alloy
    		 125.00
     3923.006.004 4590 42 90 90
    Anodized
    Alu alloy
    		 150.00
    ×
Profile Inside Corner Brackets represent the pinnacle of connectivity, specifically designed for integration within the automation industry and frame systems. Meticulously crafted through precision extrusion and perfected via CNC machining, these connectors embody precision and innovation.

Function and Purpose: Functionally, the Profile Inside Corner Brackets serve as the linchpin of secure connections. Designed to flawlessly unite components within automation setups and frame systems, they ensure structural integrity and seamless functionality. These connectors form the essential joints that not only support but elevate the performance of automation processes and frame structures.

Applications Unleashed: In the realm of automation, Profile Inside Corner Brackets facilitate the construction of robotic frameworks, machinery supports, and intricate automation assemblies. When it comes to frame systems, these connectors are the foundation of sturdy structures, used in building frameworks for displays, shelving, enclosures, and beyond.

Crafted to Perfection: Forged through precision extrusion and refined by CNC machining, each Profile Inside Corner Bracket reflects our 19 years of expertise. Our professional-quality control system ensures that every piece stands as a testament to excellence, embodying reliability that meets the industry standards.

Automated Ingenuity: Our cutting-edge automated production line exemplifies precision and efficiency, further attesting to the quality of every Profile Inside Corner Bracket we produce. As a final touch, our 99% infrared sorting and inspection before shipping provide an added layer of certainty, ensuring that each connector arrives poised to amplify your automation endeavors and frame systems.

Choose progress, embrace precision opt for Profile Inside Corner Brackets, fortified by a 19-year legacy of industry leadership. Our expertise, your assurance of advancement.
About Minde
Ningbo Minde Technology Co., Ltd.
Ningbo Minde Technology Co., Ltd.
The company was established in 2004 and has passed ISO9001, SGS, and RoHS certification. To create an ideal green enterprise, protect limited resources, and reduce waste and pollution, our products have passed SGS environmental testing and comply with the EU RoHS directive. As China Inside Corner Brackets / Al. Connection Angles Manufacturers and Inside Corner Brackets / Al. Connection Angles Suppliers, production area 12,000㎡, Two office areas 350㎡, Have 65 Experienced team-member. The major production process includes tooling designing & making, die casting, forging, stamping, precision machining, drilling, surface plating, Intelligent infrared detecting and automation packing, etc. Mostly exported to more than 35 countries and regions, major markets are the USA, Europe, the Middle East, and Southeast Asia.
Certificate Of Honor
  • SGS -RoHs testing 02 SHAEC22002232201
  • Environmental System
  • Health System
  • Quality System
  • Test Report
  • Test Report
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Inside Corner Brackets / Al. Connection Angles Industry knowledge
What is the primary function of connection angles in structural engineering?
The primary function of connection angles in structural engineering is to provide a secure and efficient means of connecting and supporting various structural components within a building or other construction project. Connection angles play a crucial role in transferring loads and forces between different members, enhancing the overall stability, strength, and integrity of the structure. Here are some key aspects of their primary function:
Load Transfer: Connection angles facilitate the transfer of loads, including axial, shear, and moment forces, between structural elements such as beams, columns, and trusses. This helps distribute loads evenly throughout the structure.
Joint Reinforcement: They reinforce joints by connecting intersecting members, providing additional strength and preventing separation or movement at critical points in the structure.
Resistance to Shear Forces: Connection angles are particularly effective in resisting shear forces, helping maintain the stability of beams, columns, and other load-bearing elements.
Enhanced Stability: By connecting structural members at specific points, connection angles contribute to the overall stability of the structure, preventing buckling, swaying, or other forms of instability.
Rigidity Improvement: Connection angles increase the rigidity of a structure, improving its ability to resist deformations and maintaining the intended shape and alignment of the components.
Alignment and Geometry Control: They assist in maintaining precise alignment and geometry by securing the proper positioning of structural elements, ensuring that the structure conforms to design specifications.
Preventing Displacement: Connection angles help prevent unintended movements or displacements of structural components, ensuring the structure's stability and safety.
Compatibility with Various Materials: Connection angles are versatile and can be designed for use with various construction materials, including steel, wood, and concrete, making them suitable for a wide range of applications.
Versatility in Design: Connection angles come in different designs and configurations, allowing engineers to choose the most appropriate type for specific structural connections and load requirements.
Ease of Construction: They simplify the construction process by providing a reliable and straightforward method of connecting structural members, contributing to overall construction efficiency.
connection angles are essential elements in structural engineering, serving as key components in the assembly and stability of buildings and other structures. Their primary function lies in ensuring secure connections, load transfer, and overall structural integrity.