KR101071276B1 - Drain line - Google Patents

Abstract

The present invention relates to a blockage-type drainage line of a new structure that can be prevented from being blocked by foreign substances such as hair.
In the drainage line according to the present invention, when foreign matter accumulates inside the drain pipe and the pressure of the inner and outer ends of the inner pipe is changed, the control unit detects this and automatically operates the air pump and the electronic control valve to inject air into the air bag. Since foreign matters accumulated in the pipe body are pushed out to the rear side of the drain pipe and removed, it is possible to prevent foreign matters from accumulating inside the drain pipe.

Description

Drain line for improving drain environment of apartment

The present invention relates to a pipe line for improving the drain environment of a multi-family house, which can be prevented from being blocked by foreign substances such as hair.

In general, the piping line is installed in a multi-unit house, as shown in Figure 1, is configured by interconnecting the drain pipe (A) made of various diameters in the vertical or horizontal direction according to the purpose.

However, not only sewage, but also foreign matters such as hair, sand or other small size flows into the pipe line, and the middle part of the pipe line, especially the drain pipe A arranged in the horizontal direction, becomes entangled with such foreign matters. It often occurred, and because of this, the user had to use a long skewer to pierce the blocked-up part or pour a separate solution into the drain pipe A to pierce the blocked-up part. A) There was a problem that caused various pathogens or badly bad smell inside.

Therefore, there is a need for a new pipeline structure that can solve this problem.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a pipeline for improving the drain environment of a multi-family house, which can be prevented from being blocked by foreign substances such as hair.

The present invention for achieving the above object,

In the piping line formed by interconnecting the drain pipe in the vertical or horizontal direction,

The drain pipe is made of a high strength metal or synthetic resin and the outer tube formed with ring-shaped protrusions at both ends of the inner circumferential surface:

An inner tube which is made of elastic synthetic resin and fixedly installed inside the outer tube so that both ends thereof are connected to the inner circumferential surface of the protrusion:

A plurality of air bags are configured in a ring shape and fitted to the outer circumferential surface of the inner tube and fixed by:

Air pumps supplying air to the inside of each air bag through the air supply pipe connected to the air bag:

Electronic control valves provided in each of the air supply pipes to control the flow of air supplied to each air bag:

Pressure sensors provided at both front and rear ends of the inner tube:

It includes a control unit that monitors the signal of the pressure sensor and controls the air pump and the electronic control valve, the inner circumferential surface of the inner tube is formed with a plurality of inclined protrusions in the form of a ratchet inclined toward the rear of the drain pipe, the air bag and the inner tube In the contact surface of the air bag, a plurality of small sized air holes are formed so that the air supplied to the inside of the inner pipe is formed. Is generated, it is determined that foreign matter is accumulated in the drain pipe, and the air pump is operated, and the electronic control valve is controlled to be opened and closed sequentially from the front to the rear, and the circumference of the inner tube is moved forward by the air bag. The air from the inside of the airbag flows into the inner tube through the air hole It is characterized in that it is able to push the foreign matter inside the inner tube to the rear side of the drain pipe.

Drain environment improvement of the multi-family housing according to the present invention, the line is accumulated when the foreign matter accumulated in the inside of the drain pipe changes the pressure inside and outside both ends of the inner tube, the control unit detects this automatically operates the air pump and the electronic control valve air bag By injecting air into the inner pipe body, foreign matter accumulated in the inner pipe body is pushed out to the rear of the drain pipe and removed, thereby preventing foreign matter from accumulating inside the drain pipe.

1 is a reference diagram showing a typical piping line.
Figure 2 is a side cross-sectional view showing a drain pipe of the drain line for improving the drain environment of a multi-family house according to the present invention.
Figure 3 is a side cross-sectional view showing an exploded state of the drain pipe of the piping line for improving the drain environment of the multi-family house according to the present invention.
Figure 4 is a block diagram of a piping line for improving the drain environment of a multi-family house according to the present invention.
5 is a reference diagram for explaining the operation of the piping environment for improving the drain environment of a multi-family house according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 to 5 is a view showing a pipe line for improving the drain environment of a multi-family house according to the present invention, the drain pipe (A) is configured by interconnecting in the vertical or horizontal direction is the same as in the prior art. At this time, the drain pipe (A) is provided with a flange 11 at both ends is fixed to each other by a bolt.

In addition, according to the present invention, the drain pipe (A) is composed of a cylindrical outer tube 10, the inner tube 20 fixed to the inside of the outer tube 10 and a ring shape, the inner tube 20 And a plurality of airbags 30 fixed to the outer circumferential surface of the crankshaft and an air pump 40 for supplying air to each of the airbags 30 through an air supply pipe 41 connected to the airbags 30. And an electronic control valve 50 provided at each of the air supply pipes 41 for controlling the flow of air supplied to each air bag 30, and pressure sensors 60 provided at both front and rear ends of the inner tube 20. ), And a control unit 70 for monitoring the signal of the pressure sensor 60 and controlling the air pump 40 and the electronic control valve 50, so that the sewage is the internal space of the inner tube 20. It is configured to flow through.

The outer tube 10 is made of a high strength metal, the flange 11 is provided at both ends of the outer peripheral surface, the ring-shaped protrusions 12 are formed at both ends of the inner peripheral surface.

The inner tube 20 is composed of a synthetic resin with elasticity, both ends are fixed to the protrusion 12 of the outer tube 10 so that the outer peripheral surface is spaced apart from the inner peripheral surface of the drain pipe (A). In addition, on the inner circumferential surface of the inner tube 20, a plurality of inclined protrusions 21 having a ratchet shape inclined toward the rear side of the drain pipe A are formed to be adjacent to each other. The inclined protrusion 21 is configured in a ring shape along the inner circumferential surface of the inner tube body 20, and serves to prevent the foreign matter 1 inside the inner tube body 20 from flowing backward.

The airbag 30 is composed of synthetic resin having high strength and elasticity, and is fixed to the outer circumferential surface of the inner tube 20 so as to be sandwiched between the outer circumferential surface of the inner tube 20 and the inner circumferential surface of the outer tube 10. Then, when the high-pressure air is supplied therein, as shown in (b) of FIG. 5, it is expanded to press the outer circumferential surface of the inner tube 20 in the center direction so that the inner diameter of the inner tube 20 is narrowed. At this time, a plurality of small sized air holes 31 are formed on the contact surface of the airbag 30 and the inner tube 20 so that the air supplied to the air bag 30 flows into the inner tube 20. A part of the air supplied into the airbag 30 is introduced into the inner tube 20 through the air hole 31.

The air pump 40 is prepared in accordance with the control signal of the control unit 70, it is configured to supply high-pressure air to the interior of the air bag 30 through the air supply pipe (41). The air supply pipe 41 includes an extension portion 41a extending from the air pump 40 and a branch portion 41b branched from the extension portion 41a and connected to each air bag 30.

The electronic control valve 50 uses a general pneumatic solenoid, is installed in each branch 41b of the air supply pipe 41 to open and close each branch 41b according to the control signal of the control unit 70. Therefore, the air is supplied to each air bag 30 through each branch 41b.

The pressure sensor 60 is a pressure sensor for measuring a general water pressure, is provided at both front and rear ends of the inner tube 20 to measure the hydraulic pressure acting on the inner front and rear ends of the inner tube 20.

The control unit 70 receives the signal of the pressure sensor 60 to measure the fluid resistance applied to the sewage passing through the inner tube 20 by the foreign matter (1) accumulated in the inner tube 20 and When the fluid resistance rises above a predetermined level, the air pump 40 and the electronic control valve 50 operate to remove the foreign matter 1.

In detail, as shown in FIG. 5 (a), when filthy water is supplied to the inside of the inner tube 20 in a state in which the foreign matter 1 is accumulated inside the inner tube 20, the foreign substance 1 may be applied to the foreign substance 1. As a result, the fluid resistance is applied to the sewage, so that the water pressure at the front end of the inner tube 20 becomes higher than the water pressure at the rear end. In addition, since the pressure difference between the front and rear ends of the inner pipe body 20 increases as the amount of the foreign matter 1 increases, the pressure difference between the front and rear ends of the inner pipe body 20 is measured so that the inside of the inner pipe body 20 is measured. The amount of accumulated foreign matter 1 can be measured indirectly.

Therefore, when the pressure difference between the front and rear ends of the inner tube 20 measured by the pressure sensor 60 becomes larger than the preset pressure difference, the control unit 70 is located inside the inner tube 20. It is determined that a large amount of foreign matter (1), by controlling the air pump 40 and the pressure sensor 60, so that high-pressure air is supplied to each air bag (30). In this case, as shown in FIG. 5B, the control unit 70 first opens the electronic control valve 50 at the front to supply the high pressure air to the airbag 30 at the front, and then gradually increases the pressure. The high pressure air is supplied to the rear airbag 30. The control unit 70 closes the electronic control valve 50 so that no more air is supplied to the airbag 30 when the set time has elapsed after the electronic control valve 50 is opened. Since the air supplied into the inside of the) is discharged into the inner tube 20 through the air hole 31, the air bag 30 is gradually reduced to return to its original size.

As such, when air is sequentially supplied from the front airbag 30 to the rear airbag 30 and inflated, the airbag 30 presses the circumferential surface of the inner tube 20 in order from the front to the rear to the inner tube. By making the inner diameter of (20) narrow, the foreign matter 1 accumulated in the inner tube body 20 is pushed backward and discharged. This action is similar to inserting the inside of the sundae into the entrance of the sundae when filling the inside of the sundae, and pushing the circumference of the sundae by hand and pushing it backward so that the contents are pushed backward. Description is omitted. At this time, the high-pressure air supplied into the air bag 30 is introduced into the inner tube 20 through the air hole 31 so that the foreign matter 1 accumulated in the inner tube 20 is upward. By floating, the foreign matter 1 is discharged more effectively backwards. In addition, the foreign matter 1 is caught by the inclined protrusion 21 and is pushed back only without backward flow.

Therefore, in a state in which a pipe line is formed by connecting the drain pipe A configured as described above, when the foreign matter 1 accumulates inside the drain pipe A, in particular, the inner pipe body 20, the control unit 70 detects this. By controlling the air pump 40 and the electronic control valve 50 to sequentially expand from the front air bag 30 to the rear air bag 30, the foreign matter (1) accumulated in the inner tube 20 By discharging to the rear to discharge, by repeating this process, it is possible to completely discharge the foreign matter (1).

The pipe line for improving the drain environment of the multi-family house configured as described above sequentially supplies air to the plurality of airbags 30 coupled to the outside of the inner tube 20 to collect the foreign matter 1 accumulated in the inner tube 20. By pushing to the rear to discharge, there is an advantage that can prevent the foreign matter (1) accumulated in the pipe line to be blocked.

In addition, the control unit 70 indirectly measures the pressure difference between the inner and rear ends of the inner tube 20 by using the pressure sensors 60 provided at the front and rear ends of the inner tube 20. Since the amount of foreign matter (1) accumulated in the measurement to automatically remove the foreign matter (1) inside the inner tube 20, there is an advantage that can effectively remove the foreign matter (1) before the foreign matter (1) a lot.

In addition, an air hole 31 is formed in the inner tube 20 and the air bag 30, and the high pressure air supplied into the air bag is introduced into the inner tube 20 through the air hole 31. Since the foreign matter (1) introduced into the inner pipe body 20 to rise to the upper side, there is an advantage that the foreign matter (1) can be discharged to the rear more effectively.

In addition, since a plurality of inclined protrusions 21 having a ratchet shape inclined toward the rear side of the drain pipe A are formed on the inner circumferential surface of the inner pipe body 20, the inner pipe body 20 using the air bag 30. The foreign material 1 inside the inner tube body is caught by the inclined protrusion 21 when pushing the circumferential surface of the c) so that the foreign material 1 is easily pushed to the rear side, and the foreign material 1 is effectively pushed backward. There is an advantage to discharge.

10: outer shell 20: inner shell 21: inclined protrusion
30: air bag 31: air hole 40: air pump
50: electronic control valve 61. 62: pressure sensor 70: control unit

Claims (1)

In the piping line formed by interconnecting the drain pipe (A) in the vertical or horizontal direction,
The drain pipe (A) is composed of a metal or synthetic resin and the outer tube 10 having a ring-shaped protrusion 12 formed at both ends of the inner circumferential surface:
An inner tube 20 which is composed of a synthetic resin having elasticity and fixedly installed inside the outer tube 10 so that both ends thereof are connected to the inner circumferential surface of the protrusion 12:
A plurality of airbags 30 are formed in a ring shape and adhered to and fixed to the outer circumferential surface of the inner tube body 20:
Air pump 40 for supplying air to the inside of each air bag 30 through the air supply pipe 41 connected to the air bag 30:
Electronic control valve 50 provided in each of the air supply pipe 41 to control the flow of air supplied to each air bag 30:
Pressure sensor (60) provided at both front and rear ends of the inner tube (20):
It includes a control unit 70 for monitoring the signal of the pressure sensor 60 and controlling the air pump 40 and the electronic control valve 50, the inner circumferential surface of the inner tube 20 is the rear side of the drain pipe (A) A plurality of inclined protrusions 21 are formed to be inclined toward each other, and the air supplied to the airbag 30 is introduced into the inner tube 20 at the contact surface of the airbag 30 and the inner tube 20. A plurality of small sized air holes 31 are formed, and the control unit 70 receives a signal from the pressure sensor 60, and if a difference in the pressure between the front and rear ends of the inner tube 20 occurs, the drain pipe It is determined that the foreign matter 1 is accumulated inside (A), the air pump 40 is operated, and the electronic control valve 50 is controlled to be opened and closed sequentially from the front to the rear, at the same time. The circumference of the inner tube 20 is sequentially pressed from the front to the rear by the 30 While the air inside the air bag 30 is introduced into the inner tube 20 through the air hole 31 so that the foreign matter (1) inside the inner tube 20 can be pushed toward the rear of the drain pipe (A) Plumbing line for improving the drain environment of a multi-family house.

Images