KR200198105Y1 - Valve control system of water pipe - Google Patents

Abstract

The present invention can shut off the valve of the water supply pipe when the water in the intake is turbid and transfer only the uncontaminated water to the water treatment plant.The control valve of the water intake pipe for the intake station is configured to allow unmanned adjustment by automatically or remotely controlling the valve of the intake pipe. In order to provide, the buoyancy body 50 that floats the main body 100 to the surface of the water intake, the frame 14 is fixed to the bottom of the buoyancy body and the mesh 16 is formed on one side, and the frame ( 14) a driving means for rotating the valve 10 while being assembled therein and the valve 10 for opening and closing the inside of the water pipe 18 and the reduction motor 30 and the shaft rod 20 at the upper portion of the buoyancy body. And, located at the inlet of the water pipe is composed of a sensor 60 and a control panel 46 for detecting turbidity in the water.

Description

VALVE CONTROL SYSTEM OF WATER PIPE}

The present invention relates to a control valve of a water intake pipe, and in particular, when supplying water from the intake station to the water purification plant, a control valve is mounted at the end of the water supply pipe so that the uncontaminated water can be automatically or remotely controlled and supplied to the water purification plant. It relates to a control valve.

In general, the water supply from the water purification plant to the home is highly purified by the process of sedimentation basin, filter paper, water purification plant, etc. in the water intake in the intake station, the water supply pipe is attached to the net filter It is thrown into the inside of the intake station. In addition, the water is transferred from the intake station to the water purification plant by the operation of the pump. In order to supply and shut off the water, the manager must open the valve one by one. In particular, the water is supplied while the water inside the intake station is turbid. If it is, the water purification plant will consume a lot of time and money to purify the turbid water.

As described above, the conventional water pipe has a filter attached to an end thereof and is positioned near the bottom of the water intake, so that even if the water becomes cloudy, it is supplied to the water treatment plant uncontrolled, thereby degrading the effect of water purification.

Accordingly, it is an object of the present invention to provide a control valve device for a water intake pipe for shutting off the valve of the water pipe when the water in the intake cloud becomes turbid and transferring only uncontaminated water to the water purification plant.

Another object of the present invention is to provide a control valve of the intake pipe for the inlet configured to allow unmanned adjustment by automatically or remotely controlling the valve of the water pipe.

1 is a central cross-sectional view of a valve control device according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is a reference diagram of a state in which the valve control device of the present invention is used in the intake station.

<Description of the symbols for the main parts of the drawings>

10: valve 12: rotary shaft

14: Frame 16: mesh

18: water pipe 20: shaft

22, 24: Universal joint 30: Deceleration motor

32: reducer 42: light collecting plate

46: control panel 47: receiving circuit

50: buoyant body 60: sensor

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in describing the present invention, if a detailed description of a related known function or configuration may obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Figure 1 is a central cross-sectional view of the control valve device of the water pipe completed in accordance with a preferred embodiment of the present invention, Figure 2 is a cross-sectional view of the AA line in Figure 1, the role of floating the main body 100 to the surface of the water intake A buoyancy body 50 is provided, the shaft rod 20 is penetrated to the center of the buoyancy body, the valve 10 is attached to the end of the water pipe to the bottom of the shaft rod is assembled to open and close the front of the water pipe, A drive means for rotating the valve is mounted inside the casing 40 at the top of the shaft.

In detail, the buoyancy body 50 in the center is a styropole and a hollow resin material having a predetermined buoyancy while floating the body 100 on the water surface. At this time, the center of the buoyancy body 50 has a through hole 56, the upper frame 52 and the lower frame 54 is assembled. And the shaft 56 is inserted into the hole 56, the upper end of the shaft 20 is assembled with a driving means for rotating the shaft. That is, the drive means, the side plate 36 is attached to both sides of the shaft in the upper portion of the upper frame 52, the fixed plate 34 is assembled on the upper side of the side plate, the reducer 32 and the reduction motor thereon 30 is mounted. At this time, the drive shaft of the reduction motor 30 is coupled by the shaft rod 20 and the universal joint (22). Outside of the reduction motor 30 and the reducer 32 is located inside the casing 40 assembled to the upper frame 52, the rechargeable battery 48 is attached to the inside of the casing 40. . The rechargeable battery 48 is charged by the light collecting plate 42 attached to the outside of the casing 40 as a power supply source of the reduction motor 30 and the sensor to be described later. One side of the casing 40 includes a door 44, and a control panel 46 is attached to the receiving circuit part 47 connected to an external antenna 49. Therefore, the reception circuit unit 47 receives an input by operating an external transmitter to operate the reduction motor 30. On the other hand, the control panel 46 is connected to the sensor 60, which is introduced into the water of the intake to detect turbidity in the water is preferably located at the inlet of the water pipe 18 to be described later.

Subsequently, the fixed length 26 formed in the lower portion of the buoyancy body 50 is fixed to both sides and the water supply pipe 18 connected to the water purification plant is fixed to the lower portion. At the end of the water pipe 18, a frame 14 having a mesh 16 formed on one side is assembled, and there is a valve 10 that rotates inside the frame 14. In this case, the rotary shaft 12 protrudes outwardly through the frame 14 at the upper portion of the valve 10, which is connected to the lower end of the shaft 20 by a universal joint 24.

Referring to the operation of the subject innovation is configured as follows.

The main body 100 of the present invention is to be floated on the surface of the intake station, while adjusting the length of the fixing stand 26, it is possible to adjust the depth in which the water pipe 18 is located in the water, the middle of the water than the muddy bottom It is preferable to locate on the upper surface.

And, the valve 10 for opening and closing the water supply pipe 18 is to open or close the inlet of the water supply pipe 18 while rotating in accordance with the drive of the reduction motor 30 in the upper casing 40 to reduce the motor 30. Is operated by the control panel, which closes the valve 10 when the internal water becomes muddy by the detection of the sensor, and can be operated according to the reception of the external transmitter.

As described above, the valve control device of the present invention water pipe can be positioned in the water of the water pipe arbitrarily clean in the state floating on the surface by the buoyancy body, and when the water is muddy, the inlet is closed by itself, Water is blocked in the water purification plant so that relatively clean water is transferred, which reduces water purification time and reduces costs. In addition, even if the manager does not go to the intake station, it can operate as a transmitter to open and close the water pipe, thereby reducing the administrative cost.

Claims (2)

A buoyancy body 50 which floats the main body 100 to the water surface of the intake station; A frame 14 fixed to the bottom of the buoyancy body by a stator and having a mesh 16 formed on one side thereof; A valve 10 mounted inside the frame 14 to open and close the water pipe 18; Driving means for rotating the valve 10 while the reduction motor 30 and the shaft rod 20 is assembled on the buoyancy body, Located in the inlet of the water pipe and the control valve device of the intake pipe for water intake, characterized in that consisting of a sensor 60 and a control panel 46 for detecting turbidity in the water. 2. The control valve apparatus of claim 1, wherein the reduction motor (30) for operating the valve (10) is remotely controlled by a receiving circuit portion.