TWM628491U - Deep ocean water intake system - Google Patents

Abstract

A deep ocean water intake system, comprising a water intake pipe, a water intake, a floating device, a concrete counterweight, and a steel cable, and a floating device is provided at a certain length of the water intake pipe and the water intake to provide the buoyancy of the pipeline and the water intake. The steel cable is connected with the counterweight, so that the pipeline and the water intake float on the surface of the seabed due to buoyancy, and are controlled at a certain position in the sea by the counterweight, so as to avoid excessive floating of the pipeline and the water intake, or excessive drift and deviation from the piping path, causing the pipe The road is pulled and broken or the water intake is buried to reduce the risk of water intake failure.

Description

Deep ocean water intake system

This creation is about a new type of deep ocean water intake system, which can make the water intake pipe and the water intake float in the sea, effectively avoid the pipeline being pulled and broken or the water intake is buried, and can reduce the risk of water intake failure.

In order to reduce the uncontrollable impact of deep ocean water intake pipes and intakes on the marine environment, reduce the risk of pipe layout and improve the proper rate, weights are usually placed on the intake pipes and intakes to increase the stability of the pipeline.

The water intakes of domestic deep ocean water intake projects are mostly distributed and placed on the deep seabed. However, the government and private operators have repeatedly encountered pipeline ruptures or buried intakes after pipe laying, resulting in the problem of unstable water intake.

This creation provides a new type of deep ocean water intake system, which includes a water intake pipe, a water intake, one or more sets of buoys, one or more sets of concrete weights and steel cables, etc. Set up a buoyancy device to provide buoyancy for pipelines and water intakes, and connect the counterweights with steel cables below, so that the pipelines and water intakes float on the surface of the seabed due to buoyancy, and are controlled at a certain position in the sea by the counterweights to avoid pipelines and water intake Excessive floating of the mouth, or excessive drift to deviate from the pipeline route, causing the pipeline to be pulled and broken or the water intake to be buried, so as to reduce the risk of water intake failure.

1: water intake pipe

2: Floating water intake (coated with Syntactic Foam)

3: Float (Syntactic Foam)

4: Concrete counterweights

5: Wire rope

6: Water Intake Station

7: Known water intake pipe concrete counterweight

8: It is known that the water intake is placed on the deep seabed

(Fig. 1) The conventional way of placing the water intake on the deep seabed

(Fig. 2) is the side elevation view of the deep ocean water intake system of this creation

(Fig. 3) is the front elevation view of the deep ocean water intake system of this creation

(Figure 4) is the front sectional view of the deep ocean water intake system of this creation

Please refer to Figure 2, Figure 3 and Figure 4, this creation provides a new type of deep ocean water intake system, including a water intake pipe 1, a floating water intake 2, one or more sets of floating devices 3, one or more sets of Concrete counterweights 4 and steel cables 5, etc., a float 3 is set on the water intake pipe 1 and the floating water intake 2 of a certain length to provide the buoyancy of the water intake pipe 1 and the floating water intake 2, and the steel cable 5 is used to connect the concrete counterweight block below. 4. Make the water intake pipe 1 and the floating water intake 2 float on the surface of the seabed due to buoyancy, and control it at a certain position in the sea by the concrete counterweight 4 to avoid excessive floating of the water intake pipe 1 and the floating water intake 2, or excessive drift and deviation Routing path.

1: water intake pipe

2: Floating water intake (coated with Syntactic Foam)

3: Float (Syntactic Foam)

4: Concrete counterweights

5: Wire rope

6: Water Intake Station

Claims (1)

A deep ocean water intake system, comprising: a water intake pipe of a floating section pipeline and a floating water intake, with the floating water intake as the water inlet end, and the water intake pipe connected to the floating section pipeline as a deep ocean water intake pipeline; one or Multiple sets of buoyancy devices are connected by steel cables to the water intake pipe of the floating section pipeline and a floating water intake, so that the water intake pipe and the floating intake can float upward in the sea; one or more sets of concrete counterweights are tied to the buoyancy of the floating device. , Calculate and set up the concrete counterweight block, the concrete counterweight block connects the water intake pipe of the floating section pipeline and a floating water intake through the steel cable, and the concrete counterweight block settles on the seabed; this design makes the water intake pipe of the floating section pipeline and a floating water intake The floating water intake floats on the surface of the seabed due to the buoyancy provided by the buoyant, and the concrete counterweight is connected with steel cables below, so that the water intake pipe and a floating intake are controlled by the concrete counterweight to be pulled at a certain position in the sea, and higher than On the surface of the seabed, avoid excessive floating of water intake pipes and floating intakes, or excessive drift of deep ocean water intake systems that deviate from the piping path.

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