Hydraulic Elevator Dam Beijing Iwhr Corporation Store Water Irrigate Landscape Flood Control Sluice Dam China 2025

  Beijing IWHR Corporation (BIC), established in 1993, is a wholly-owned enterprise of China Institute of Water Resources and Hydropower Research (IWHR). BIC is one of the first batch of high-tech enterprises recognized by Beijing Municipal Science and Technology Commission. Beijing IWHR Corporation has a quality, environmental, and occupational health and safety management system. It has qualifications such as foreign contracting engineering qualification certificate, water conservancy industry design grade B, water conservancy engineering construction supervision grade A, mechanical and electrical and metal structure equipment manufacturing supervision grade A, water conservancy and hydropower engineering construction general contracting grade III, and safety production permit certificate.



The Hydraulic Elevator Dam is a revolutionary type of hydro-technique and the latest supporting pier dam of its kind. It is world's leading achievement in the field of movable dam technology. It is widely used in irrigation, navigation, and aquaculture, as well as in small hydropower plant and urban river landscape engineering. The hydraulic elevator dam has conquered all the shortcomings of the traditional movable dam, while at the same time has its own distinct advantages. It operates without blocking flood water as the rubber dam clings to the riverbed. It operates in a similar fashion to a flap gate, which automatically drops down for flood discharge or lifts up for holding water, and is as durable as conventional sluices. Gaps in small river management technology have been obliterated since the invention of the hydraulic elevator dam. On the international market, it is the third-generation of movable weir products.


Structure and Technical Features

The Hydraulic Elevator Dam is composed of an arc (or straight line) dam surface, hydraulic rods, strut bars, hydraulic cylinders and a hydraulic pump station. It adopts the dump-truck mechanics theory, combined with a buttress dam hydraulic structure, and has dual functions of retaining water and discharging water. Hydraulic cylinders stand erectly at the back of the dam and control the pulley movement of sliding strut bars. These cylinders are used for lifting the dam for blocking water, or for lowering the dam in the case of a flood discharge. An inhibiting device controls the pulley movement of sliding strut bars, which is used to support the pier dam's fixed and movable exchange. A buoy switch is used to control the operations of the hydraulic system. The automated system allows for the lifting and the lowering of the dam according to flood fluctuation, and as such, may be left unsupervised.

Hydraulic Dam Specifications

Gate material: RCC/Steel/Stainless steel

Gate type: Arc type/ plate type/shaped type(customized)

Gate height (H): 0.5m-6.0m

Width of single span:The standard width can be 6m, 7m or 8m; it also can be made to order.

Hoisting structures: Plunger type cylinder/double-acting cylinder multi-stage cylinder.

Control system: Manual control cabinet, PLC control cabinet, computer local cabinet, computer remote control.

Synchronous dam elevating and lowering, automatic alarm function and dam lowering in case of exceeding water level. Design superiority.

 

1. How does the hydraulic elevator dam operate?  What is the lift time and drop time? Can the water be blocking at any height?

The back side of the hydraulic elevator dam is supported by two hydraulic cylinders at a small Angle, powered by the hydraulic station, and the hydraulic oil is used as the medium to make the cylinder rod of the hydraulic cylinder move, so as to realize blocking and discharging flood.
The lifting time of single gate is about 1min/m, and the lowering time can be adjusted in 30s-30min.
The hydraulic elevator dam can achieve arbitrary dam high water retention.

       2. How does the dam work if sedimentation on top of its surface is more than 30 cm?

The hydraulic elevator dam is able to withstand severe mud and sand sedimentation. It was specially designed for this purpose. The hydraulic dam may be adjusted up to a vertical angle of 75 degrees. This angle is large enough to completely wash away sedimentation under normal flow conditions. If sedimentation is not completely removed, the remainder will not be significant enough to affect the lifting and the dropping of the dam.

       3. What should be done if branches and stones are stuck in the dam?

There may be large quantities of floating objects, such as tree branches, plastic bags, etc., which may serve as impediments to the normal operations of the hydraulic dam. Based on the quantity and location of these floating objects, regulation of a single dam or coordination with adjacent dams may be used for tackling this problem. These floating objects will eventually drift away with the help of the water flow. If stones are stuck in between the two dam surfaces, the dam's angle may be adjusted causing stones to be released due to gravity and water flow.

       4. Is it possible to lift and drop the dam at the same time?