KR100572723B1 - The Apparatus Of Controlling A Water Level Using A Floating Body - Google Patents

Abstract

According to the present invention, a float tank 200 in which a groove part 205 is formed so as to easily adjust the water level by using a water level adjusting member which communicates with the floating body and the floating body may change its weight by introducing or discharging water. )Wow; A float 100 installed in the groove 205 and rotatably coupled to the float tank 200 via a rotation shaft 203, the compartment being divided into a filling chamber 101 and a water storage space 102; A water level control member 107 which is formed to allow the water of the reservoir to flow and is movable and fixed in a vertical direction within a predetermined section; A water pipe 108 formed in communication with the water level control member 107 and the water storage space 102 so that water flowing from the water level control member 107 flows into the water storage space 102; A drain pipe 110 formed in communication with the water storage space 102 so that water introduced into the water storage space 102 can be discharged to the outside; It provides a level control device using a float comprising a; air hole 103 formed in the upper side of the water storage space 102 so that the air in the water storage space 102 is in communication with the atmosphere.

Floating body, floating water tank, water storage space, water level control member

Description

The Apparatus Of Controlling A Water Level Using A Floating Body}

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1 is a cross-sectional view showing the structure of one embodiment of a water level control apparatus using a floating body according to the present invention.

2 is a view showing a state in which the floating body in an embodiment of the water level control device using a floating body according to the present invention.
Figure 3a to 3d is a view showing an example of operation in one embodiment of the water level control device using a floating body according to the present invention.
[Explanation of symbols on the main parts of the drawings]
100: floating body 101: filling chamber
102: water storage space 103: air hole
104: water inlet hole 105: water outlet hole
106: fixed string 107: water level control member
108: water pipe 110: drain pipe
200: floating tank 201: floating base
202: soil inflow prevention plate 203: rotation axis
301: upstream drip tray 302: downstream drip tray

The present invention relates to a water level control device, and more particularly, it is easier to control the water level by using a water level control member capable of adjusting the water level and communicating with the body, which can change its weight by inflow or discharge of water. It relates to a water level control device using a floating body.
In the conventional method of storing water flowing to maintain a constant depth, first, as a conventional method using concrete, gravel, stone, etc. to install a levee across the river to maintain a constant depth upstream There is.
In addition, there is a hydrological report configured to discharge water stored as needed by installing a hydrological gate made of steel or wood in a part of the high information. The hydro gate is configured to control the opening and closing of the hydro gate using a hydraulic cylinder.
Also, nowadays, rubber beams, which are formed to form a closed rubber tube long across a river and supply or exhaust air to the rubber tube, serve as a dike and a sluice gate, are increasingly spreading.
The floodgate has the advantage of effectively preventing flood damage through the opening and closing of the floodgate, but since the hydraulic cylinder is installed in the river, the inspection and replacement of the parts must be continuously made in order to prevent wear or corrosion of the mechanical parts, etc. There is a problem that gravel or foreign material may get stuck between the gaps of the gate, making it impossible to operate the gate.
In addition, the rubber beam also has the advantage of effectively preventing flood damage by adjusting the depth of the upstream through the air supply and exhaust, and easy operation even if some stones or foreign substances are placed, but the construction cost is expensive and the material is rubber For this reason, there is a fear of damage.

Accordingly, an object of the present invention is to use a float formed with a water storage space configured to be filled or emptied of water, the float floats or sinks due to the difference in the buoyancy applied to the float to allow the water level can be adjusted To provide a level control device used.

Next, a preferred embodiment of a water level control device using a floating body according to the present invention will be described in detail with reference to the drawings.
First is a cross-sectional view showing the structure of an embodiment of a water level control device using a floating body according to the present invention, Figure 2 is a state in which the floating body in an embodiment of the water level control device using a floating body according to the present invention. Figure is shown.
As shown in Figure 1 and 2, one embodiment of the water level control device using a floating body according to the present invention is a floating tank 200, the groove portion 205 is formed; A float 100 installed in the groove 205 and rotatably coupled to the float tank 200 via a rotation shaft 203, the compartment being divided into a filling chamber 101 and a water storage space 102; A water level control member 107 which is formed to allow the water of the reservoir to flow and is movable and fixed in a vertical direction within a predetermined section; A water pipe 108 formed in communication with the water level control member 107 and the water storage space 102 so that water flowing from the water level control member 107 flows into the water storage space 102; A drain pipe 110 formed in communication with the water storage space 102 so that water introduced into the water storage space 102 can be discharged to the outside; It includes an air hole 103 formed on the upper side of the water storage space 102 so that the air in the water storage space 102 communicates with the atmosphere.
The floating tank 200 is formed with a groove portion 205 that is a "c" -shaped toward the top.
The groove 205 is always kept in a state filled with water and is placed in the groove 205 so that the floating body 100 is rotatable by the rotation shaft 203.
In addition, the upstream side and the downstream side of the floating tank 200 is formed from the upstream reservoir 301 and downstream drip tray 302 to extend from the floating tank 200 to prevent the bottom scour.
It is also possible to install a water stop plate so that the water does not leak into the gap between the float tank 200 and the float 100 in the portion where the float tank 200 and the float 100 is connected.
The floating body 100 is partitioned into the filling chamber 101 and the water storage space 102 is formed.
The filling chamber 101 is preferably formed of an iron material having a specific gravity greater than water (specific gravity = 1), and may be formed by adding wood or plastics. In the above, since the average specific gravity of the material constituting the filling chamber 101 is larger than water, it is sufficient to sink in the water when it is assumed that only the filling chamber is separated. Do not.
The floating body 100 is rotatably constrained with respect to the floating tank 200 via a rotating shaft 203 formed at a predetermined position of the floating tank 200. In the above, the filling chamber 101 is located far from the rotation shaft 203.
When the water is filled in the water storage space 102, the floating body 100 is set to sink in water. That is, the total specific gravity of the floating body 100 combined with the filling chamber 101 and the water storage space 102 filled with water is set to be greater than one.
In addition, when water is emptied into the water storage space 102, the floating body 100 is set to float. That is, the total specific gravity of the floating body 100 combined with the filling chamber 101 and the water storage space 102 in which the water is empty is set to be smaller than one.
If the specific gravity of the material to be filled in the filling chamber and the size occupied by the water storage space 102 can be adjusted as described above.
That is, when the water storage space 102 is filled with water due to buoyancy, the floating body 100 is rotated downward about the rotating shaft 203, on the contrary, the water is empty in the water storage space 102 It is rotated above the ground.
One surface of the floating body 100 is formed so as to be opposite from the rotating shaft 203, that is, the outer surface of the filling chamber 101 is an arc.
In addition, a soil inflow prevention plate 202 is formed to prevent obstacles (wood, earth and sand, etc.) from entering the groove portion 205 at a predetermined position of the groove portion 205 so as to be close to the surface where the arc is drawn.
A water inlet hole 104 through which water is introduced and a water discharge hole 105 through which water is discharged are formed in a bottom portion of the water storage space 102, and air in the water storage space 102 is introduced or discharged thereon. The air hole 103 is formed as much as possible.
By adding the air hole 103, the inflow and outflow of water into the water storage space 102 becomes smooth.
Water flowing from the water level adjusting member 107 of the reservoir through the water inlet hole 104 is introduced into the water storage space 102 via the water supply pipe 108.
The water level control member 107 is installed to be able to move up and down at a predetermined position of the reservoir (where water is stored). In more detail, it is preferable to be slidably fixed to the rod-shaped member fixed to the ground of the water tank.
By adjusting the position of the water level control member 107, it is possible to adjust the water level of the reservoir to be maintained by the user, that is, the designated water level.
The upper end of the water level control member 107 is open so that the water of the reservoir can be introduced. That is, when the top height of the water level control member 107 is lower than the water level of the water tank, the water of the water tank flows through the water level control member 107, and conversely, the top height of the water level control member 107 is the water level of the water tank. If higher, the water flow in the reservoir is blocked.
Water flowing from the water level control member 107 is introduced into the water storage space 102 through the water pipe 108.
In addition, a water discharge hole 105 is formed in the water storage space 102 to discharge the introduced water, and the water introduced into the water storage space 102 is connected to the water discharge hole 105. It is discharged to the outside through the (110).
Although not shown in the drawing, the water supply pipe 108 and the drain pipe 110 are formed sufficiently long so as not to interfere with the vertical movement of the water level control member 107 and the rotational movement of the floating body 100.
Also, the The flow path of the water pipe 108 is configured to be wider than the flow path of the drain pipe 110.
When the water discharged to the outside through the drain pipe 110 is not natural discharge due to the terrain conditions, it is also possible to install a water collecting tank and install a pumping facility to discharge the water collected in the water collecting tank.
In addition, the floating portion 201 is formed in the groove portion 205 of the floating tank 200.
The floating support 201 is preferably fixed to the bottom surface of the groove 205 is formed of a rigid body having a predetermined height.
The reason for placing the floating support 201 is to set a lower limit that sinks when the body 100 is full of water. That is, the subsidiary support 201 supports the floating body 100, so that there is always a space below the floating body 100, and the water supply pipe 108 and the drain pipe 110 are pressed and the flow path is blocked or damaged. Is effectively prevented.
In addition, when the float 100 is floated by buoyancy, a fixed string 106 is attached to a predetermined position of the float 100 so that it can not rotate any more while rotating a predetermined angle with respect to the rotation axis 203. That is, one end of the fixing string 106 is connected to the floating body 100, the other end is connected to the floating tank 200, respectively.
3a to 3d is a view showing an example of the operation of the level control device using a floating body according to the present invention.
First, Figure 3a shows an example of the operation of one embodiment of a level control device using a floating body according to the present invention in a steady state, that is, a state in which the reservoir maintains a constant water level.
The water storage space 102 of the floating body 100 is maintained in a state in which a predetermined amount of water is introduced, and the flow rate of the water flowing through the water pipe 108 and the water discharged through the drain pipe 110 is the same, so that the water storage. The amount of water in the space 102 is kept constant.
It can be seen that the top of the water level control member 107 and the water level of the reservoir coincides with each other, and that the top end height of the float 100 also corresponds to the water level of the reservoir.
In one embodiment of the water level control device using a floating body according to the present invention in which the water level of the water tank is maintained as described above, as shown in Figure 3b to adjust the water level control device 107 by a predetermined distance to set a high specified water level The behavior of the time is as follows.
First, since the upper end of the water level control member 107 is higher than the water level of the reservoir, the inflow of water through the water level control member 107 is blocked, and the water discharged through the drain pipe 110 continues as shown in FIG. 3A. Since it is discharged, the amount of water in the water storage space 102 is gradually reduced.
Therefore, since the floating body 100 becomes light, the floating body 100 rotates upwardly about the rotating shaft 103, and the end height of the floating body 100 becomes higher than the water level of the reservoir.
Therefore, the water level of the reservoir continues to increase due to the water flowing from the upstream, and as shown in FIG. 3C.
As shown in Figure 3c, when the water level of the reservoir is higher than the top height of the water level control member 107, the water of the water tank is introduced into the water storage space 102 through the water level control member 107. At this time, water continues to be discharged through the drain pipe 110. However, since the flow path of the water pipe 108 is wider than the flow path of the drain pipe 110, the flow rate flowing into the water storage space 102 is greater than the discharge flow rate so that the water storage space 102 is filled with water. do.
When water is filled in the water storage space 102 and the float 100 becomes heavy, the float sinks and eventually the tip height of the float 100 and the water level of the reservoir coincide.
Comparing FIG. 3D with FIG. 3A, it can be seen that the water level of the reservoir, the upper end of the water level control member 107, and the end height of the floating body 100 correspond to both figures.
In the above, the level control member 107 has been described to be positioned higher than the currently maintained level. On the contrary, the operation example when the level control member 107 is positioned lower than the currently maintained level is also the same principle. Is explained.
That is, when the water level control member 107 is lower than the currently maintained water level, the flow rate flowing into the water storage space 102 becomes greater than the discharged flow rate, so that the float 100 sinks, and the float The water of the upper part of the reservoir having a height higher than the tip height flows downstream of the floating body 100. Therefore, the water level of the reservoir is lowered and eventually the water level of the reservoir is coincident with the upper end of the water level control member 107.
If water is continuously introduced from the upstream to the reservoir and the water level of the reservoir rises again, the previous action occurs repeatedly, thereby automatically adjusting the water level.
In other words, when the water level adjusting member 107 is to be maintained at a level, that is, a designated level, the water level of the reservoir will match that level after a predetermined time.
The size of the floating body 100 is preferably set in consideration of the height of the water level to be maintained, the low water amount and the discharge amount, and the obstacles floating upstream.
In addition, when it is necessary to form a long length of the floating body 100 on the condition of the terrain it is also possible to configure by connecting a plurality of the floating body (100). That is, it is also possible to form a plurality of floating body 100 in a row along the groove portion 205 in the groove portion 205 of the floating water tank 200 is formed long.
And it is also possible to set it as the structure which increases discharge amount sequentially. That is, it is also possible to divide the groove portion 205 of the floating water tank 200 into a plurality of sections by using a partition, and to install the water level control member 107 and the float 100 in each section.
In the above description of the preferred embodiment of the water level control apparatus using a floating body according to the present invention, the present invention is not limited to this, and the invention is to be modified in various ways within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible and this also belongs to the scope of the present invention.

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According to the water level control device using the floating body according to the present invention, since the dike is increased by the rotation of the floating body, there is an effect that the volume of the reservoir is significantly increased, and as the dike is increased, more water can be secured, so that natural disasters such as floods There is an advantage that can effectively prevent.
In addition, the new reservoir can lower the height of the dike by the level of the full water level and the flood level, which can significantly reduce the reservoir construction cost.
And, when used in the beam installed in the river has a simple structure that operates automatically has the advantage of easy maintenance.

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Claims (1)

A floating tank 200 in which the groove 205 is formed; A float 100 installed in the groove 205 and rotatably coupled to the float tank 200 via a rotation shaft 203, the compartment being divided into a filling chamber 101 and a water storage space 102; A water level control member 107 which is formed to allow the water of the reservoir to flow and is movable and fixed in a vertical direction within a predetermined section; A water pipe 108 formed in communication with the water level control member 107 and the water storage space 102 so that water flowing from the water level control member 107 flows into the water storage space 102; A drain pipe 110 formed in communication with the water storage space 102 so that water introduced into the water storage space 102 can be discharged to the outside; An air hole 103 formed at an upper side of the water storage space 102 such that air in the water storage space 102 communicates with the atmosphere; Water level control device using a floating body comprising a.

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