KR20070091087A - Repair facility system that converts fluid flow into high altitude. - Google Patents

Abstract

A method for constructing an irrigation system operated by converting flow of fluid into high water level energy is provided to reduce costs and man work for construction and maintenance of an irrigation system. A method for constructing an irrigation system, soils and concretes are poured on the floor(6) of a waterway to form a bank(2) and secure a space for setting the system while blocking the waterway. A water inlet(7) is installed in the water at an upper water level side(8) and a water outlet(5) is installed in the water at a lower water level side(9). A fluid guide conduit(4) combined with a fluid pump(3) is connected with a fluid flow pipe(1) above the water surface and is buried in the upper part of the bank. The fluid pump is activated to discharge the air in the fluid flow pipe above the water surface. The water of the upper water level side is raised up to the fluid flow pipe above the water surface and then flows naturally in the water flow direction and discharged to the lower water level side through the water outlet.

Description

A repair facility system that converts fluid flow into high altitude to operate. {Omitted}

Figure 1. Is the operation and mounting of the present invention

Figure 2. Is a perspective view and operation diagram of the present invention

1: high water sleeping fluid flow tube

2: stacking

3: fluid pump

4 fluid guide tube

5: fluid flow outlet

6: sleep bottom layer

7: fluid inlet

8: upper floor sleep

9: low rise sleep

10: soil, ground

: 물 유체 흐름 방향

: Water fluid flow direction

The present invention is a repair facility system method for confining and securing the water resources by flowing and discharging the water fluid in the waterway of the repair facility and blocking the water fluid flow,

Conventionally, in order to secure water resources, it was necessary to go through unnecessary processes such as digging work, hydrological barriers and water barrier construction in dams, dams, etc. It is affected by this, and it is a cause of breakdown during operation such as the distortion of the floodgate, and there are disadvantages that are not easy to breakdown and repair, and the construction itself is complicated and the cost of construction is high.

) 으로 자연낙하시키고 유체 흐름 방출구(5)로 방출시켜 저층수면(9)쪽으로 유체를 흘려 보내는 시스템 공법인것이다The present invention is to solve the above problems in detail as shown in FIG. Fig. 2 is a view of the operation and mounting of the present invention as shown in the perspective view and the operation of the present invention, while laying soil (2) and concrete in the bottom layer 6 of the water surface of the waterway, weaving (2) to block the waterway system The fluid inlet tube with the fluid pump 3 coupled to the fluid inlet 7 is immediately mounted in the upper water surface 8 and the fluid flow outlet 5 in the lower water surface 9 while securing a space for the installation. (4) is combined with the high water surface fluid flow tube (1) and embedded in the upper surface of the bank stack (2) and the fluid pump (3) system is operated to discharge the air of the high water surface fluid flow tube (1) to the outside The rear fluid pump 3 is stopped and the water fluid on the upper water surface 8 is pulled up to the high water surface fluid flow tube 1, and the position is changed to the high water surface so that the water fluid flow direction (

It is a system method that naturally falls into the air and discharges the fluid to the fluid flow outlet (5) and flows the fluid toward the bottom water surface (9).

) 으로 흐르는 유체 흐름을 정지시키는 작동을 하려면 고공수면 유체 흐름관(1)에 대기공기를 유체 펌프(3)로 흘려 넣어 공기 차단막을 형성시켜 유체 흐름량을 조절하여 유체 흐름을 차단, 작동하여 수리시설 거치의 최적의 주위환경을 조성시키며 신속하고 간편하게 둑 쌓기(2)를 하여 둑 쌓기(2) 상부에 도로를 확보하며 시스템을 거치하는 공법의 유체 흐름을 고공수면으로 변환시켜 작동시키는 수리시설 시스템 공법을 특징으로 한것이다Fluid flow direction (

In order to stop the flow of fluid flowing to the air flow, the air flow is flowed into the high water surface fluid flow pipe (1) with the fluid pump (3) to form an air barrier to control the flow of fluid to block and operate the fluid flow. Repair facility system construction that converts the fluid flow into high altitude water to secure the road on the top of the dam stacking (2) and to create the optimal surrounding environment for stacking (2). It is characterized by

Hereinafter, described in detail by the accompanying drawings as follows.

Figure 1. Is the operation and mounting of the present invention

)을 방출시키면서 둑쌓기(2)를 하여 둑쌓기(2) 상부에 도로를 확보하며 신속하게 시스템을 거치하여 운전하는 공법으로 수면을 고공수면 에너지로 변환시켜 유체 흐름을 작동시키는 시스템 인것이다Figure 2. As in the perspective and operation of the present invention, the soil, the ground 10 is deeply dug between the ground water flowing through the ground layer (6), the soil and concrete poured and piled up (2) while blocking the waterway, the fluid inlet immediately (7) is mounted in the upper water surface (8) and the fluid flow outlet (5) is mounted in the lower water surface (9) water so that the fluid induction pipe (4) to which the fluid pump (3) is coupled (1) and buried in the upper surface of the stacking (2) and operate the system to flow the fluid (

It is a system that operates the fluid flow by converting the water into high altitude surface energy by securing the road on the upper part of the stacking unit (2) by discharging the stacking unit (2) while releasing).

As described above, the present invention has an effect of providing a repair facility system that operates by converting a fluid flow into a high water surface.

As a result, the construction method of the conventional hydrological repair facility and operation management are eliminated, and the construction is simple, the air is shortened, and the system construction of the repair facility is easy and easy to manage.

Claims (2)

As being a repair facility system construction method, Soil and concrete are poured into the subsurface bottom layer (6) of the waterway, and the dams are piled up (2) to block the waterway and secure the system mounting space while immediately mounting the fluid inlet (7) in the upper water surface (8). Mounting the fluid flow outlet (5) in the water of the low water surface (9), the fluid induction pipe (4) to which the fluid pump (3) is coupled to the high water surface fluid flow pipe (1) Buried in the upper surface and operating the fluid pump (3) system to discharge the air in the high water surface fluid flow pipe (1) to the outside, the operation of the fluid pump (3) is stopped, the water fluid on the upper surface of the water surface (8) To the high water surface fluid flow tube (1) and change its position to the high water surface to

A method for repair facility system that converts a fluid flow into a high altitude surface by dropping it into a natural stream and discharging it to a fluid flow outlet (5) to flow the fluid toward the bottom water surface (9). Fluid flow direction in the above step (

In order to operate the system to stop the flow of fluid to the high water surface, the atmospheric air is flowed into the high flow surface fluid flow pipe (1) by the fluid pump (3) to form an air barrier membrane to control the flow of fluid to block and operate the fluid flow. Repair facility system construction that converts the fluid flow into high water surface, which is characterized by the construction of an optimal environment for facility installation and fast and easy stacking of the banks.

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