KR100670107B1 - Drain pipe structure for reducing deposit generation through moving fluid velocity enlargement - Google Patents

Abstract

A sewer pipe structure for minimizing deposits by increasing flow speed is provided to actively flow inner contents in the pipe by automatically sensing and increasing flow speed in the sewer pipe and thereby minimizing generation of deposits in the pipe. A sewer pipe structure(10) for minimizing deposits by increasing flow speed comprises an air supply pipe(20) settled in the sewer pipe; plural air discharge pipes installed at the lower side of the air supply pipe and formed with plural air discharge holes to regular intervals to discharge air fed through the air supply pipe; a flow speed sensor(40) installed on the air supply pipe in the sewer pipe to be elevated along buoyancy so as to detect flow speed in the sewer pipe; a net frame supporting unit(50) settled at the upper side of the air discharge pipe in the sewer pipe to insert plural net frames(54) filled with crushed stones(52); and an air supplier(90) installed at the outside of the sewer pipe to input flow speed signals from the flow speed sensor so as to feed air to the air supply pipe according to openness of an electronic valve(80) by regulation of a controller(70).

Description

Drain pipe structure for reducing deposit generation through moving fluid velocity enlargement

1 is an overall perspective view of the present invention.

2 is an exploded perspective view of FIG.

Figure 3 is a longitudinal sectional view showing the present invention.

4 is a plan view showing the present invention.

Explanation of symbols on the main parts of the drawings

10; Sewage pipe 20; Air supply pipe

30; Air discharge pipe 32; Air discharge hole

40; Flow rate sensor 50; Mantle support

52; Crushed stone 54; Mantle

60; Signal input 70; Controller

80; Solenoid valve 90; Air supply

The present invention relates to a sewage conduit structure that can minimize the occurrence of sediment by increasing the flow rate, and more particularly, the phenomenon that deposits in the pipe as the flow rate of the sewage conduit is automatically detected and increased. To minimize this.

In general, sewage refers to sewage and stormwater and plant wastewater, and sewage refers to conduits (sewer conduits) and other workpieces and facilities (conduits, auxiliary facilities, The sewage treatment facility and the sewage treatment facility where the sewage and rainwater are collected, the sewage treatment facility that flows through the collection and drainage facility, and discharged again through the sewage treatment facility. And sewage conduits that take the connection between these facilities and disseminate sewage and stormwater.

The sewage system constructed in this way is purified and discharged by classifying or consolidating in consideration of regional characteristics, conditions of discharged water, conservation of water quality, environmental protection of downstream streams, and emotions of local residents. Rainwater is excluded by each sewage conduit, and confluence is a method of excluding sewage and rainwater by one sewage conduit.

On the other hand, sewage pipes flow with non-point source contaminants, sediments, and foreign matter such as suspended matter (soil, stone, wood, mortar, etc.), and in the conventional sewage pipes, many foreign matters are deposited in the pipes. When a phenomenon occurs, the flow in the pipe cannot be maintained smoothly, so it was effectively proposed to propose a device that can effectively improve the flow in the pipe to maintain a smooth flow.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the present invention can automatically minimize the phenomenon that the sediment, such as in the pipe by detecting and increasing the flow rate flowing in the pipe of the sewage pipe. The purpose of the present invention is to provide a sewage conduit structure that can minimize the occurrence of sediment by increasing the flow rate that can keep the flow in the pipe always smooth.

The present invention to achieve the above object

An air supply pipe seated inside the sewage conduit, and a plurality of air supply pipes connected to the lower part of the air supply pipe at equal intervals, each having a plurality of air discharge holes for discharging air supplied through the air supply pipe; And a flow rate detecting sensor installed on the air supply pipe in the sewage conduit so as to be lifted and lowered according to buoyancy to detect a flow rate in the sewage conduit, and a plurality of crushed stones that are seated on an upper portion of the air discharge pipe in the sewage conduit. To supply air to the air supply pipe in accordance with the opening of the solenoid valve under the control of the controller by receiving the mantle support portion inserted into the mantle and the flow rate signal installed on the outside of the sewage conduit and detected by the flow rate detection sensor through a signal input device. Oil, characterized in that consisting of A sewer pipe structure that can minimize the occurrence of sediment through the increase is provided.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving the above object will be described in detail.

1 is an overall perspective view showing the present invention, Figure 2 is an exploded perspective view of Figure 1, Figure 3 is a longitudinal sectional view showing the present invention, Figure 4 is a plan view showing the present invention.

According to the present invention, a lower portion of the air supply pipe 20 is seated in the sewage conduit 10, and a plurality of lower portions of the air supply pipe 20 are discharged to discharge air supplied through the air supply pipe 20. A plurality of air discharge pipes 30 having two air discharge holes 32 are communicated with each other, and a plurality of air discharge pipes 30 are installed at equal intervals. Each of the air supply pipes 20 in the sewage conduit 10 has a flow rate inside the sewage conduit 10. Flow rate sensor 40 for detecting the installed is installed to be able to lift according to buoyancy.

In addition, the upper part of the air discharge pipe 30 in the sewage conduit 10, the mantle support 50 is inserted with a plurality of the mantle 54 filled with crushed stone 52, the outside of the sewage conduit 10 Receives a flow rate signal detected by the flow rate sensor 40 through the signal input unit 60 to supply air to the air supply pipe 20 in accordance with the opening of the solenoid valve 80 by the control of the controller 70 An air supply 90 actuated for supply is installed and configured.

The present invention configured as described above, as shown in Figures 1 to 4, when sewage or sewage flows in the sewage conduit 10, a lot of sediment, etc. in the sewage conduit 10 due to the slow flow rate When there is a risk of occurrence, the flow rate sensor 40 installed in each of the air supply pipes 20 in the sewage pipe 10 so as to be able to move up and down in accordance with buoyancy detects the flow rate and sends this flow rate signal to the signal input unit 60. At the same time, the signal input unit 60 controls the controller 70 according to the input flow rate signal to open the solenoid valve 80 to release the air by the operation of the air supply 90. It is possible to supply through the air supply pipe (20).

Accordingly, the air supplied through the air supply pipe 20 communicates with the air supply pipe 20 at the lower portion of the air supply pipe 20 and is formed in the plurality of air discharge pipes 30 installed at equal intervals. Since the air is discharged to the upper portion through the air discharge hole 32, on the mantle support 50 in which a plurality of mantles 54 filled with crushed stone 52 seated on the upper portion of the air discharge pipe 30 are inserted. Since the flow rate is increased while raising foreign matters such as sediments, the sediment can be minimized in the sewage conduit 10 so that the flow in the pipe can be always maintained smoothly.

As described above, the present invention is installed in the sewage area where a lot of sediment, etc. may be generated to automatically detect and increase the flow rate of the sewage pipe in the pipe, so that the sediment or the like occurs in the pipe. It is a very useful invention with many advantages, such as being able to minimize and keep the flow in the pipe always smooth.

Claims (1)

An air supply pipe 20 seated inside the sewage conduit 10, A plurality of air discharge pipe 30 is formed in communication with the lower portion of the air supply pipe 20 at equal intervals and a plurality of air discharge holes 32 are formed to discharge the air supplied through the air supply pipe 20 Wow, A flow rate detecting sensor 40 installed on the air supply pipe 20 in the sewage conduit 10 so as to be lifted and lowered according to buoyancy so as to detect a flow rate in the sewage conduit 10; A mantle support part 50 seated on an upper portion of the air discharge pipe 30 in the sewage conduit 10 and in which a plurality of mantles 54 filled with crushed stone 52 are inserted; It is installed outside the sewage conduit 10 and receives a flow rate signal sensed by the flow rate sensor 40 through the signal input unit 60 according to the opening of the solenoid valve 80 by the control of the controller 70 Sewage conduit structure that can minimize the generation of deposits by increasing the flow rate, characterized in that consisting of an air supply (90) that is operated to supply air to the supply pipe (20).

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