Multi-adaptive tactical support shaping storage plug-in

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The multi-adaptive tactical bracket shaping storage insert addresses material weaknesses and compatibility issues of SBA3 models by using engineered plastics with elastic snap-fit design and optimized 3D modeling, ensuring structural integrity, secure storage, and reduced costs across various tactical applications.

US20260168762A1Pending Publication Date: 2026-06-18QIU JIANGUO

Patent Information

Authority / Receiving Office: US · United States
Patent Type: Applications(United States)
Current Assignee / Owner: QIU JIANGUO
Filing Date: 2026-02-06
Publication Date: 2026-06-18

AI Technical Summary

⚠Technical Problem

Current SBA3 and derivative tactical support models suffer from material weakness, interference with internal components, lack of storage features, limited compatibility, and high costs due to fixed manufacturing processes.

⚗Method used

A multi-adaptive tactical bracket shaping storage insert made from engineering plastics or carbon fiber-reinforced PETG, featuring elastic snap-fit design, symmetrical grooves, and micro-constricted storage cavities, optimized through 3D modeling and precise manufacturing processes for universal compatibility and enhanced durability.

🎯Benefits of technology

Ensures structural integrity, prevents interference, provides secure storage, reduces costs, and enhances versatility by fitting various SBA3 models, suitable for diverse applications including outdoor environments and extreme conditions.

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Abstract

This invention discloses a multi-adaptive tactical bracket shaping storage insert, belonging to the technical field of tactical equipment accessories. It comprises elastic first and second inserts that fully conform to SBA3 and its derivative tactical bracket models, either molded from engineering plastic or printed using engineering-grade 3D printing materials. The inserts are manufactured through injection molding using a three-dimensional model of the optimized tactical bracket design (PC / ABS alloy plastic) or via 3D printing of carbon fiber-reinforced PETG based on the optimized model. Both materials exhibit exceptional impact resistance, rigidity, and weather resistance. The inserts, precisely engineered according to the optimized three-dimensional model, achieve full-body tight adhesion to the tactical bracket, providing uniform and targeted support while effectively resisting external compression. This innovation addresses the limitations of existing products, such as material fragility and susceptibility to breakage, and ensures adaptability to diverse environments including outdoor operations, storage, and extreme temperatures.

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