High-efficiency flood prevention and water storage structure of bionic beaver "dam structure"

By using a biomimetic beaver dam structure and an interwoven skeleton and filling materials, low-cost and efficient water storage and flood control are achieved, solving the problems of high cost and ecological damage of traditional dams and providing an adaptive and eco-friendly water conservancy solution.

CN122169472APending Publication Date: 2026-06-09于世平

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
于世平
Filing Date
2026-04-02
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Traditional dams are costly, ecologically damaging, and poorly adaptable, making them unsuitable for small-scale water conservancy needs.

Method used

The biomimetic beaver dam structure is adopted, which provides structural strength and filling material through an interwoven skeleton to achieve seepage prevention and water storage, and uses formulas to precisely control the water storage capacity.

Benefits of technology

It achieves low-cost, eco-friendly adaptive flood control and efficient water storage, and has erosion resistance and long service life.

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Abstract

This invention discloses a biomimetic beaver dam structure for efficient flood control and water storage, belonging to the field of water conservancy engineering and disaster prevention technology. The structure mimics the tree-like interweaving and soil-filling mechanism of a beaver dam, achieving adaptive flood control, efficient water storage, and eco-friendliness. This invention achieves precise control of water storage performance through a water storage capacity calculation formula, making it suitable for small reservoirs, river management, flood control projects, and ecological restoration, solving the problems of high cost, ecological damage, and poor adaptability of traditional dams.
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Description

Technical Field

[0001] This invention relates to water conservancy engineering and disaster prevention technology, and in particular to a biomimetic beaver dam structure. Background Technology

[0002] Traditional dams are costly, ecologically damaging, and poorly adaptable, failing to meet the needs of small-scale water conservancy projects. There are no patents for the biomimetic beaver dam ecological structure. Summary of the Invention

[0003] This invention provides a biomimetic beaver dam structure for efficient flood control and water storage. It simulates the tree-intertwining and soil-filling mechanism of a beaver dam to achieve adaptive flood control, efficient water storage, and eco-friendliness. The water storage capacity is precisely controlled by a formula, completely avoiding the traditional dam technology path. Detailed Implementation

[0004] 1. The interwoven skeleton provides structural strength.

[0005] 2. The filling material achieves seepage prevention and water storage.

[0006] 3. Water storage capacity formula: V = A * h * eta 4. Applicable to small-scale water conservancy and ecological restoration scenarios.

[0007] Beneficial effects - Low cost, eco-friendly - Adaptive flood control and efficient water storage - Resistant to erosion and long service life - A completely new water conservancy technology approach.

Claims

1. A biomimetic beaver dam structure for efficient flood control and water storage, characterized in that, It includes an interwoven skeleton unit, a filling material layer, and an adaptive adjustment module; the structure imitates a beaver dam to achieve efficient flood control and water storage; the built-in water storage capacity calculation formula enables precise control of water storage performance, without concrete or large machinery.

2. The structure according to claim 1, characterized in that, Water storage capacity ≥ 1000 m³, flood control efficiency ≥ 90%, and eco-friendly.

3. The structure according to claim 1, characterized in that, The formula for calculating water storage capacity is: V = A * h * eta.

4. The structure according to claim 1, characterized in that, It can adaptively adjust the water level and has strong erosion resistance.