A containerized prefabricated energy station assembly, docking, and locking mechanism

By setting grooves and tenons for the interlocking locking mechanism on the container frame, combined with positioning pins and traction components, the problem of low docking efficiency of containerized prefabricated energy station sections is solved, and a fast and stable docking process is achieved.

CN224428677UActive Publication Date: 2026-06-30BEIJING JINGTIAN SMART ENERGY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING JINGTIAN SMART ENERGY TECH CO LTD
Filing Date
2025-07-16
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

In existing technologies, the docking process of containerized prefabricated energy stations is inefficient, requires multiple people to make repeated adjustments, is time-consuming, and is difficult to achieve high-precision docking in narrow spaces.

Method used

A containerized prefabricated energy station assembly and docking locking mechanism is designed. By setting a first and a second interlocking component on the container frame, the initial docking is achieved by the interlocking of the groove and the tenon. Combined with the positioning pin and the traction component assembly, rapid positioning docking is achieved.

Benefits of technology

This improved the installation efficiency of containerized prefabricated energy stations, shortened installation time, reduced docking difficulty, and improved docking accuracy and stability.

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Abstract

This utility model discloses a containerized prefabricated energy station assembly and docking locking mechanism, relating to the field of containerized prefabricated energy stations, and particularly to a containerized prefabricated energy station assembly and docking locking mechanism. By setting a first engaging component with a groove on the frame of the first container, and setting a second engaging component with a tenon on the frame of the second container, during initial positioning and docking, it is only necessary to observe whether the tenon and groove have completed preliminary insertion, thus improving the efficiency of initial positioning and docking. After the initial docking is completed, the tenon and groove are fully engaged, achieving the final positioning and docking of the first and second containers. This eliminates the need for repeated laser alignment, significantly shortening installation time and effectively improving the installation efficiency of the containerized prefabricated energy station.
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