RU48597U1 - HYDROTECHNICAL STRUCTURE - Google Patents

Abstract

The utility model relates to hydropower, in particular to hydraulic structures, allowing the use of the energy of a water stream. A hydraulic structure contains a water conduit and a storage tank, the outlet of which is connected with a power plant. New in the hydraulic engineering structure is that the water conduit is made in the form of a pipeline with an inlet channel located in the river channel, and the storage tank has the form of a sealed tank with an upper inlet and lower outlet pipes, and the outlet pipe is made U-shaped and connected to the upper the inlet of the sealed tank. This allows us to simplify the design, reduce material costs for manufacturing and eliminate environmental damage.

Description

The utility model relates to hydropower, in particular to hydraulic structures, allowing the use of the energy of a water stream.

A known hydraulic unit, made in the form of an impeller installed in the riverbed on a horizontal shaft, containing spokes with rotary blades, and a blade rotation mechanism (see, for example, description to the USSR AS 1590620, application form 20.06.88, cl F 03 B 13/10).

The disadvantage of this hydraulic unit is that its power depends on the speed of the water flow.

The closest set of essential features (prototype) is a hydraulic structure containing a water conduit and a storage tank, the outlet of which is associated with a power plant (see Polytechnical Dictionary, edited by II Artobolevsky, ed. "Soviet Encyclopedia" 1977, p. 115).

A water conduit, a storage tank and a power plant associated with a storage tank are common essential features of the claimed and known technical solutions.

This hydraulic structure allows you to provide the necessary concentration of the water flow and create a concentrated pressure to drive the power plant. But it has a complex structure, and the construction of such a structure requires significant material costs, leads to flooding of large territories and, as a consequence, to a violation of the environment.

The problem, which the real utility model is aimed at, is to simplify the design of the hydraulic structure, reduce the material costs of its manufacture and eliminate environmental damage.

The problem is solved in that in a hydraulic structure containing a water pipe and a storage tank, the water outlet of which is connected to a power plant, according to a utility model, the water pipe is made in the form of a pipeline, with an inlet channel located in the river channel, and the storage tank has the form of a sealed tank with upper inlet and lower outlet pipes, and the outlet pipe is made U-shaped and connected to the upper inlet pipe of the sealed tank.

The design of the water conduit in the form of a pipeline, the placement of its inlet channel in the river channel, the implementation of the storage tank in the form of a sealed tank with an upper inlet and lower outlet pipes, as well as the design of the pipeline at the outlet 0-shaped and its connection with the upper inlet pipe of the sealed tank are essential features distinguishing the claimed utility model from its closest analogue.

In the future, the essence of the utility model is illustrated by a description of its design and a drawing, which schematically depicts a hydraulic structure.

The hydraulic structure includes a water conduit made in the form of a pipeline 1, the input channel 2 of which is located in the riverbed 3 of the river, and a storage tank having the form of a sealed reservoir 4 with an upper inlet 5 and a lower outlet 6 pipes. The lower outlet 6 pipe is connected to the power plant 7. The pipe 1 at the outlet 8 is made U-shaped and connected to the upper inlet 5 pipe of the sealed reservoir 4. It is possible to completely immerse the pipe 1 in the channel 3 of the river.

Hydraulic engineering works as follows.

The pipeline 1 is laid along the channel 3 along the river bank or located directly in the water (see the drawing), while the input

channel 2 is immersed in water, placing it in the channel 3. Below, along the river, establish a storage tank, having the form of a sealed tank 4 with an upper inlet 5 and lower outlet 6 pipes. To connect the pipe 1 to the sealed tank 4, the pipe 1 at the outlet 8 is made U-shaped and connected to the upper inlet 5 pipe.

To create maximum pressure, a sealed reservoir 4 is installed above the surface of the water in the river, and its upper inlet 5 pipe is positioned in height at the level of inlet channel 2 of pipeline 1, while the U-shaped section of pipeline 1 at outlet 8 is placed above the level of inlet channel 2 ( see the drawing). Further, in a sealed tank 4, for example, using a vacuum pump (not shown in the drawing), create a vacuum by previously closing the outlet 6 pipe. Due to the discharge, water through the pipeline 1 enters the sealed tank 4 and fills the entire interior. Then, the outlet pipe 6 is opened, water under pressure is supplied to the power plant 7, and the sealed tank 4 is replenished with water from pipeline 1. It is possible to place several sealed tanks 4 along the river, connected by pipelines and working on one or several power plants 7.

The inventive utility model allows to simplify the design of hydraulic structures, reduce material costs for its manufacture and eliminate environmental damage.

Claims (1)

A hydraulic structure containing a water conduit and a storage tank, the water outlet of which is connected to a power plant, characterized in that the water pipe is made in the form of a pipeline with an inlet channel located in the river channel, and the storage tank has the form of a sealed tank with an upper inlet and lower outlet pipes, and the outlet pipe is made U-shaped and connected to the upper inlet pipe of the sealed tank.