KR100825077B1 - Apparatus for removing scale of water pipeline - Google Patents

Abstract

An apparatus of removing scales of a water pipe is provided to completely remove sludge and scales by spraying water through a first path and a second path inclined at a predetermined angle. An apparatus of removing scales of a water pipe comprises a liquid spraying part(10) and a silica sand spraying part(20). The liquid spraying part is connected to a reducer(5). The liquid spraying part includes a first path(11) and a second path(12). The first and second paths are connected to a first nozzle(13) and a second nozzle(14), respectively. The first path and the second path are inclined in a predetermined angle. The silica sand spraying part includes a first silica rotary joint(22) and a second silica rotary joint(23) that are connected to a hose(4) coupled to a silica sand tank(21). A first silica sand hose(24) and a second silica sand hose(25) are connected to the first and second silica rotary joint, respectively, and fixed to the first and second paths, respectively. A first silica sand nozzle(26) and a second silica sand nozzle(27) are connected to the first and second silica sand hoses.

Description

Apparatus for removing scale of Water pipeline}

The present invention relates to a water pipe descaling apparatus, and more particularly, to spray sludge and water while rotating the water and silica sand to remove sludge and scale settled inside the water intake pipe or water pipe, and settles inside the water intake pipe or water pipe. The present invention relates to a water pipe descaling device capable of completely removing sludge and scale.

Commonly used descaling device is to enter the water intake pipe or water pipe to remove the scale settled in the water intake pipe and the correlation water, or the water supply pipe or water intake as shown in Utility Model Registration No. 20-436134 shown in FIG. While moving the support (T) for spraying the high pressure water through the nozzle (N) to the inside of the pipe to remove the sludge on the water pipe or intake pipe.

Then, as shown in Patent Registration No. 10-479380 shown in Figure 2, after inserting the nozzle (N) into the intake pipe or water pipe to remove the sludge scale, while moving the nozzle (N), Water was sprayed in a straight direction through the nozzle (N) to remove the sludge on the inside of the intake pipe or the water pipe.

However, in order to remove the sludge or scale deposited on the inside of the intake pipe or the water pipe as described above, while moving the nozzle to the inside of the intake pipe or water pipe, only water is injected through the nozzle at a high pressure to the intake pipe However, the sludge of the sludge was removed from the water pipe, but only the pressure sprayed through the nozzle did not completely remove the sludge from the water intake pipe or the water pipe.

In addition, the water or air injected from the nozzle is injected only in a straight direction, there is a problem that sludge or scale precipitated in the intake pipe or water pipe is not properly removed.

Water pipe descaling apparatus of the present invention is the water intake pipe and the water pipe is operated by the battery and the wired remote control and the vehicle and the hydraulic pump for injecting water and the air pump for injecting air and the hydraulic pump and the air pump on one side Connected hose and the other side of the hose is connected to the reducer and the hydraulic motor located in the tracked vehicle, the first and second moving tube of the hollow form connected to the other side of the reducer and formed a constant inclination angle on both sides and the first, second A fluid injection unit forming first and second nozzles connected to a moving tube, a first and second silica sand rotary joints connected to the air pump and a hose and coupled to a silica sand tank in which silica sand is embedded and a hose connected to the silica sand tank; A first and second silica sand nozzle connected to the first and second silica sand rotary joints and fixed to the first and second moving pipes of the fluid injection part and connected to the first and second silica sand hoses. It consists of a silica sand injection unit.

As described above, in the water pipe descaling device, water injected into the water intake pipe and the water pipe through the first and second nozzles is rotated to the water intake pipe and the water pipe while the first and second moving pipes having a predetermined inclination angle rotate. While the precipitated sludge is removed while the scale is wound, the silica of the solid particles is transferred to the intake pipe or the water pipe through the first and second moving pipes through the first and second silica hoses fixed to the first and second moving pipes. By secondarily removing the sludge and scale precipitated in the intake pipe or water pipe by the injection water pressure, there is an advantage that the sludge and scale can be completely removed from the intake pipe or water pipe.

In addition, by removing the sludge and scale precipitated in the intake pipe or water pipe by spraying water and silica sand at the same time, there is an advantage that can increase the working efficiency according to the reduction in the working time for removing the sludge or scale.

In addition, by completely removing the sludge and scale precipitated in the water intake pipe or water pipe, it is a useful invention that has the advantage of increasing the utilization of the water intake pipe and water pipe.

Looking at the configuration of the water pipe descaling apparatus of the present invention for achieving the above object is as follows.

First, the water pipe descaling device 50 includes a feed truck 1, a hydraulic pump 2, an air pump 3, and the hydraulic pump which are moved inside the water intake pipe and the water pipe as shown in FIG. (2) and the hose (4) connected to the air pump (3) and the other side of the hose (4) is connected to the reducer (5) and the hydraulic motor (6) located in the transport (1), the fluid injection unit 10 and the silica sand injection unit 20.

Here, by setting the speed ratio of the reducer 5 and the hydraulic motor 60 to a ratio of 1:60, the rotation rate of the fluid injection unit 10 and the silica sand injection unit 20 rotated inside the water intake pipe and the water supply pipe It is good to remove the sludge and scale settled in the intake pipe and the water pipe by rotating at a constant rotation rate without rotating the high speed.

For example, when the rotation rate of the hydraulic motor 6 is 1,400 to 1,500 rpm, the rotation ratio of the reducer 5 is adjusted to 20 to 30 rpm.

The shaft of the reducer 5 (not shown) is formed in a hollow shape, it is obvious that the water discharged from the hydraulic pump 2 is moved to the fluid injection unit 10 through the inside of the shaft to be.

In addition, the hydraulic pump 2 and the air pump 3 are generally used pumps, and the pressure of the pump is a pump having a capacity of 140 to 200 l / min at a discharge amount of 500 to 1,000 bar.

In addition, the reducer 5 and the hose 4 may be connected by using a rotary joint R which is generally used to prevent the hose 4 from being rotated and twisted.

Here, the rotary joint (R) is connected to the connection member (not shown in the figure) to which the hose and hose hose is connected to rotate the bearing (not shown) formed in the rotary joint (R), so that the hose A device that prevents twisting when rotating.

In addition, the feeder 1 moving inside the water intake pipe or the water supply pipe 1 moves using a generally used wheel (not shown) or a track (not shown), and the feeder 1 ) Is a general transport vehicle operated by a battery (not shown) and a wired remote control (not shown).

On the other hand, the fluid injection unit 10 is connected to the reducer 5 and the hollow first and second moving pipes (11, 12) and the first and second moving pipes (11) having a constant inclination angle (θ) on both sides. And first and second nozzles 13 and 14 connected to 12).

Here, by forming the inclination angle (θ) of the first, second moving pipe (11, 12) to 5 ° ~ 45 °, while rotating in the water intake pipe and water pipe through the first, second nozzles (13, 14) The sprayed water is to be sprayed in a funnel shape, it is good to remove while washing the sludge or scale deposited in the intake pipe and water pipe.

In addition, the silica sand injection unit 20 is connected to the air pump (3) and the hose (4) and is coupled to the silica sand tank 21 and the hose 4 connected to the silica sand tank 21 is embedded The first and second silica sand rotary joints 22 and 23 are connected to the first and second silica sand rotary joints 22 and 23, and are fixed to the first and second moving pipes 11 and 12 of the fluid injection part 10. The first and second silica sand nozzles 24 and 25 are connected to the first and second silica sand hoses 24 and 25.

The first and second silica sand rotary joints 22 and 23 are rotary joints R which are generally used, and are fixed to the first and second moving pipes 11 and 12 of the fluid injection part 10. , The two silica sand hoses 24 and 25 prevent the first and second silica sand hoses 24 and 25 from being simultaneously twisted while the first and second movable pipes 11 12 are rotated.

In addition, the silica sand injected through the first and second silica sand nozzles 26 and 27 is not directly injected into the intake pipe or the water pipe, but through the first and second nozzles 13 and 14 of the fluid injection part 10. It is good to be carried in the water to be sprayed together with the water to the whole of the intake pipe and water pipe.

In addition, as shown in FIG. 4, the fluid injection part 10 further includes a height adjusting tube 15, and according to the diameter of the first and second moving pipes 11 and 12, the first and second moving pipes. (11, 12) and the first and second silica sand hose (24, 25) of the sand sand injection unit 20 to adjust the number of pressures and the sand sand.

Here, the method of adjusting the height of the height adjustment pipe 15 is a bolt (not shown in the drawing) to adjust the height of the railing (not shown in the drawing) using a pipe (not shown in the drawing) which is generally used. It is obvious that the height of the height adjusting tube 15 is adjusted by using a coupling member (not shown in the drawing).

In addition, by further comprising a fluid induction cover 28 to the outside of the silica sand injection portion 20, the pressure water and silica sand injected through the fluid injection portion 10 and the silica sand injection portion 20 is smoothly mixed While the pressure water and the silica sand is rotated to be ejected in the form of a cone in a straight circle to facilitate the removal of sludge and scale deposited in the water pipe.

Then, the pressure water and silica sand injected through the fluid induction cover 28 are injected with a maximum diameter of 90 mm and a maximum injection distance of 100 mm.

Hereinafter will be described the most preferred embodiment of the present invention.

First, the hydraulic pump 2, the air pump 3 and the hose 4 are connected and installed on the ground, and then the reducer 5 and the hydraulic motor 6 are installed in the transport vehicle 1, and the hose Connect (4) to the reducer (5).

Here, when connecting the hose 4 to the reducer 5, by using a rotary joint (R), so that the hose 4 is not twisted even if it is rotated.

Then, the first and second moving pipes 11 and 12 and the first and second nozzles 13 and 14 are connected to the speed reducer 5.

Further, the silica sand tank 21 is connected to the hose 4 on the ground.

In addition, the first and second silica sand joints 22 and 23 are connected to the hose 4 connected to the silica sand tank 21, and the first and second silica sand hoses are connected to the first and second moving pipes 11 and 12. (24, 25) is fixed using a coupling member (not shown in the figure), such as a clamp (not shown in the figure) which is generally used, and the first and second silica hoses (24, 25) Connect the two silica sand nozzles (26, 27).

Here, the first and second silica sand rotary joints 22 and 23 have an action of preventing the first and second silica sand hoses 24 and 25 being rotated at the same time when the first and second moving pipes 11 and 12 are rotated. Do it.

In addition, the reducer (5), the hydraulic motor (6), the fluid injection unit (10) and the silica sand injection unit (20) are installed in the transport vehicle (1), and the transport vehicle (1) is removed to remove the scale. Enter the water intake pipe or water pipe.

Thereafter, when the hydraulic pump 2 and the air pump 3 are operated, water and air are discharged from the hydraulic pump 2 and the air pump 3 while the water is discharged through the hose 4. After passing through the hose 4, the air flows to the first and second moving pipes 11 and 12, and the silica is filled in the silica sand tank 21 through the hose 4 to the first and second silica sand nozzles 26 and 27 via the hose 4, respectively. Discharge it.

At the same time, the hydraulic motor 6 operates to rotate the first and second moving pipes 11 and 12. At this time, the first and second moving pipes 11 and 12 are driven by the hydraulic motor 6 to 1,400 to 1,500 rpm. It will be rotated by the rotational force of.

At this time, the reduction gear 5 slows down the rotation of the first and second moving pipes 11 and 12 at a high rotational speed at a ratio of 60: 1.

Then, water and silica are sprayed through the first and second nozzles 13 and 14 and the first and second silica sand nozzles 26 and 27.

Here, the silica sand is not injected into the water intake pipe or water pipe directly, but is injected in the form of being injected into the water injected through the first, second nozzles (13, 14).

As described above, when water and silica are injected through the first and second nozzles 13 and 14 and the first and second silica sand nozzles 26 and 27, the operator wants to move the transport vehicle 1 using a remote controller. While operating in the direction, the sludge or scale deposited in the intake pipe or water pipe can be removed.

Then, the first and second moving pipes 11 and 12 are formed at an inclination angle θ of 5 ° to 45 °, and the first and second silica hoses 24 are fixed to the first and second moving pipes 11 and 12. , 25 is also formed at the same inclination angle θ as the first and second moving tubes 11 and 12, and is sprayed through the first and second nozzles 13 and 14 and the first and second silica sand nozzles 24 and 25. Water and silica are sprayed into a funnel shape, and the area of contact with the sludge and scale settled in the water supply pipe or the intake pipe becomes wide, and the sludge and scale can be completely removed from the water supply pipe or the intake pipe.

As described above, the operator removes the sludge and scale settled in the water supply pipe or the water intake pipe while transporting the transport car 1 using the remote controller, and removes the sludge and the scale from the water intake pipe or the water supply pipe. What is necessary is just to remove the sediment removed from the intake pipe or water pipe by 10 and the sand sand injection part 20 to the inlet and outlet of a water intake pipe or a water pipe, and to remove it from a water intake pipe and a water pipe.

In addition, the fluid injection unit 10 and the silica sand injection unit 20 is formed to further include a height control tube 15 and the fluid induction cover 28, the fluid injection unit 10 and the silica sand injection unit ( 20) to adjust the height of the injection pressure and the silica sand is injected, while the pressure water and silica sand injected from the fluid injection unit 10 and the silica sand injection unit 20 is smoothly mixed while rotating in a straight circular manner By spraying, sludge and scale easily deposited in the intake pipe or the water pipe are easily removed.

In addition, after the paint and concrete pouring on the building or road (lanes of the road, etc.) using the fluid spraying unit 10 and the silica sand spraying unit 20 as described above, the remaining smoke of concrete chipping, racizer, stone structure It can be used to remove concrete or paint dregs using high pressure washing such as discolored dregs.

Although the above-described embodiments have been described with respect to the most preferred examples of the present invention, it is not limited to the above embodiments, and various modifications are possible within the scope without departing from the technical spirit of the present invention. It is evident to those who have knowledge of.

1 is a simplified view showing a conventional scale removing device.

Figure 2 is a simplified diagram showing a conventional descaling device.

Figure 3 is a simplified diagram showing a water pipe descaling apparatus of the present invention.

Figure 4 is a simplified view showing another embodiment of the water pipe descaling apparatus of the present invention.

* Description of the symbols for the main parts of the drawings *

10: fluid injection unit 11: the first moving tube

12: second moving tube 13: the first nozzle

14: second nozzle 15: height control tube

20: silica sand injection unit 21: silica sand tank

22: 1st silica sand rotary joint 23: 2nd silica sand rotary joint

24: 1st yarn hose 25: 2nd yarn hose

26: No. 1 silica sand nozzle 27: No. 2 silica sand nozzle

28: fluid induction cover

50: descaling device for water pipe

Claims (6)

In order to remove sludge and scale of sediment accumulated in the intake pipe, the water pipe, etc., the transport truck 1 operated by the battery and the wired remote controller and the hydraulic pump for injecting water from the inside of the intake pipe and the water pipe 2 ) And an air pump 3 for injecting air and a hose 4 connected to one side of the hydraulic pump 2 and an air pump 3 and the other side of the hose 4 are connected to the transport vehicle 1. In the water pipe descaling apparatus including the reducer (5) and the hydraulic motor (6) located, First and second mobile pipes 11 and 12 connected to the reducer 5 and having a constant inclination angle θ on both sides thereof and first and second mobile pipes 11 and 12 connected to the first and second mobile pipes 11 and 12. A fluid injection unit 10 forming nozzles 13 and 14; First and second silica sand rotary joints 22 and 23 connected to the air pump 3 and the hose 4 and coupled to the silica sand tank 21 in which silica sand is embedded and the hose 4 connected to the silica sand tank 21. ) And the first and second silica sand hoses 24 and 25 connected to the first and second silica sand rotary joints 22 and 23, and fixed to the first and second moving pipes 11 and 12 of the fluid injection part 10. And a silica sand injection portion (20) formed of first and second silica sand nozzles (26, 27) connected to the first and second silica sand hoses (24, 25). 2. The water pipe descaling device according to claim 1, characterized in that the speed reducer (5) and the hose (4) are connected by a rotary joint (R). The apparatus of claim 1, wherein the inclination angle (θ) of the first and second moving pipes (11, 12) formed in the fluid injection part (10) is 5 ° to 45 °. The water pipe descaling device according to claim 1, wherein the fluid spraying unit (10) further includes a height adjusting tube (15). The silica sand discharged to the first and second silica sand nozzles 26 and 27 of the silica sand injection part 20 is injected from the first and second nozzles 13 and 14 of the fluid injection part 10. A water pipe descaling apparatus characterized by being sprayed to the whole of the water intake pipe and the water pipe by the water pressure. The apparatus of claim 1, wherein the silica sand injection unit (20) further includes a fluid induction cover (28).

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