KR20110126079A - Rsu(rust suppress unit) - Google Patents

Abstract

PURPOSE: A rust suppress unit of the inner of a pipe is provided that the internal wall surface of the pipe consecutively scraped with the mesh net of propeller. The rust of the pipe and deposition of the foreign material are controlled. The damage and efficiency reduction of the piping are prevented. CONSTITUTION: A rust suppress unit of the inner of a pipe is installed to the existing pipe to weld a fixing ring(10) and the pipe. The fixing ring is manufactured identically with the diameter of the pipe connecting flange, it is assembled. The pipe is grooved, the fixing ring is inserted in the pipe.

Description

Foreign substance suppression device inside pipe {RSU (Rust Suppress Unit)}

The present invention relates to a pipe, and more particularly, to a foreign material suppression apparatus by scraping the inside of the operation pipe to a structure mounted on the wing while the plurality of wings to operate using the internal flow.

In general, the pipe maintenance technology is to replace the pipe itself or to clean the interior after separation.

This pipe maintenance technology generates a lot of manpower and cost, and it is relatively easy to replace and remove the pipes on the ground, but in the case of underground pipes, a large construction is required, which is not only expensive. This causes traffic jams and inconveniences to citizens.

The types of piping are divided by materials. In general, there are many kinds of steel pipes, stainless steel pipes, plastic pipes, and so on. The main use is from general water and sewage pipes to domestic water pipes, or inside large buildings such as nuclear power plants and thermal power plants, and gas pipes connecting areas with each other. Even large factories are connected like spider webs.

In general, a lot of rust occurs in the steel pipe, other pipes are also not melted, but the efficiency of the pipe is lowered due to the deposition of foreign matter.

As mentioned above, the maintenance and repair have been performed by replacing or separating pipes and cleaning them.

These conventional practices have been inevitably consumed and paid for. The present invention is a novel mechanism that proposes to solve this problem. An object of the present invention is to operate without the need for a separate power using the existing flow of the fluid flowing in the pipe, foreign matter suppression device RSU (Rust Suppress Unit) that can reliably suppress the rust (RUST) and foreign matter precipitation Is in providing RSU, or less)

In order to achieve the above object, the foreign matter suppression apparatus RSU in a pipe according to the present invention, after the fluid is flowed after the internal fluid flows after the RSU is connected to the pipe in which the fluid flows, the propeller is driven and rotated due to the force of the internal flow. The mesh is mounted on the propeller using the rotational force, and the mesh is driven in close contact with the inside of the tube due to the rotational force.

According to the present invention, as the fluid flows inside the pipe, the propeller rotates with the force of the inner flow without a separate power. Due to the mesh installed on the propeller, the inner wall of the pipe is continuously scratched, and the rust and foreign matter deposition in the pipe are suppressed, thereby preventing the pipe from being damaged and the efficiency drop due to the rust and foreign material deposition of the pipe.

1 shows a state before assembling in an isometric view of a foreign matter suppression apparatus inside a pipe according to an embodiment of the present invention.
FIG. 2 is a front view of the pipe foreign matter suppressing apparatus of FIG. 1 viewed from the front.
3 is a right side view of the pipe foreign matter suppressing apparatus of FIG. 1 seen from the right side.
4 shows a state after assembling the foreign matter suppression apparatus inside the pipe of FIG. 1 at an isometric view.
5 is a shape isometric view of the propeller of the foreign matter suppression apparatus inside the pipe.
Figure 6 is an isometric view showing another embodiment of the propeller of the foreign matter suppression apparatus inside the pipe according to the present invention.
Figure 7 is an isometric view showing another embodiment of the propeller of the foreign matter suppression apparatus inside the pipe according to the present invention.
8 is a cross-sectional view of a mesh of the foreign matter suppression apparatus inside the pipe.
9 is a cross-sectional view showing another embodiment of the mesh of the foreign matter suppression apparatus inside the pipe according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the foreign matter suppression apparatus inside the pipe according to the present invention.

1 to 4 is a view showing an embodiment of the foreign matter suppression device inside the pipe according to the present invention, the foreign matter suppression device of the present invention supports a fixed ring 10 for fixing the pipe wall and the present invention device, and a rotating shaft A plurality of supports (three in this embodiment), a holding ring 11 for holding the propeller inner ring, a propeller outer ring 20 for connecting the propeller and the net, and a plurality (in this embodiment) 11 propeller blades 22, propeller inner ring 21 connecting the propeller and the holding ring 11, mesh 31 having a variety of shapes (rectangular in this embodiment), mesh 31 ) And propeller outer ring 20 is made of a configuration including a mesh ring 30 to connect.

The fixed ring 10, the propeller outer ring 20, the mesh ring 30 is to have the same diameter as the pipeline through which the fluid flows is connected to the pipeline and the other propeller outer ring 20, except for the fixed ring (10), The mesh ring 30 is rotated when driven.

The holding ring 11 and the propeller inner ring 21 are rotated by applying a bearing method not shown in the drawings, for example, a radial bearing method, a thrust bearing method, or a conical bearing method, or a rotatable connection through a grooving process. You can also choose the method.

The propeller blades 22 generate rotational force using the force according to the flow inside the tube.

The propeller outer ring 20 and the mesh ring 30 are rotated together.

The mesh ring 30 and the mesh 31 are fastened together and rotate together.

Mesh 31 is fastened to the mesh ring 30 is rotated using the rotational force generated in the propeller blades 22 to continuously scratch the inner wall of the pipe to suppress rust and foreign matter deposition.

The foreign matter suppression apparatus inside the pipe configured as described above operates as follows.

4 is fixed to the inside of the pipe by the fixing ring 10, the propeller blade 22 is rotated by the internal flow, the propeller outer ring 20 connected to the propeller blade 22 by this rotational force, The mesh ring 30 and the mesh 31 are rotated. This rotation causes the mesh 31 to continuously scratch the inner wall of the tube, which inhibits rust and deposits of foreign matter.

In the shape of the propeller blade 22 to change the propeller blade shape as shown in Figs. 6 and 7 without using the propeller blade 22 in order to generate an effective rotational force according to the use fluid and the speed of flow. As the airfoil 2 (23) and the airfoil 3 (24) having changed the shape of the propeller blades and the number of blades will be able to change depending on the working fluid.

In the shape of the mesh 31, a mesh 2 having a change in the shape of the mesh as shown in FIG. 9 without using the mesh 31 in order to suppress rust and foreign matter deposition according to the speed of the fluid and flow used. 32) Efficient rust and debris deposition will be possible depending on the working fluid.

10: retaining ring 11: holding ring
12: support 20: propeller outer ring
21: propeller inner ring 22: propeller blade
23: Airfoil 2 24: Airfoil 3
30: mesh ring 31: mesh
32: net 2

Claims (5)

In the installation of the foreign matter suppression apparatus inside the pipe in the existing pipe and the welding method of the fixed ring (10) and the pipe;
A method of fabricating, fabricating and assembling the retaining ring 10 equal to the diameter of the pipe connection flange;
The foreign matter suppression device inside the pipe, including a method of inserting the fixing ring 10 by grooved pipe.
The foreign matter suppression device in the pipe having a plurality of supports (12) connecting the fixing ring (10) and the holding ring (11). A foreign matter suppression device in a pipe including a bearing type and a grooved connection connecting the holding ring (11) and the propeller inner ring (21). An apparatus for suppressing foreign substances in a pipe having various shapes and a plurality of blades including airfoils 2 (23) and airfoils 3 (24) for efficient rotational force generation according to the speed of the fluid and flow in the pipe. An apparatus for suppressing foreign matter in a pipe having a mesh of various shapes including a mesh 2 (32) to enable efficient rust and foreign matter deposition suppression according to a working fluid in a mesh using a rotational force of a propeller blade using a fluid flow inside a pipe.

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