KR200403238Y1 - Flood prevention device by using a siphon - Google Patents

Abstract

The present invention relates to the prevention of flooding by automatically adjusting the water level of the dam, and more specifically, when the water level of the dam is rapidly increased due to heavy rain and rainfall, the siphon by rain (not using a separate power source) Siphon) is a non-powered siphon flood prevention device that automatically discharges a large amount of water until it reaches a set level and maintains a constant level that does not always exceed the flood level.

The present invention has a siphon that is installed via the inside, the outside of the dam;

An excellent receiver for supplying rainwater collected through the rainwater supply pipe to the discharge siphon formed in the siphon;

A buoyancy tank supporting the discharge cover to fill the discharge siphon with the discharge siphon so as to seal the discharge port;

It is made by providing a siphon operating means for operating the siphon by inducing the excess rain after filling the siphon to the pressure tank through the pressure water pipe to open the discharge cover by the pressing force of the piston.

Description

Non-powered siphon flood prevention device {Flood prevention device by using a siphon}

The present invention relates to the prevention of flooding by automatically adjusting the water level of the dam, and more specifically, when the water level of the dam is rapidly increased due to heavy rain and rainfall, the siphon by rain (not using a separate power source) Siphon) is a non-powered siphon flood prevention device that automatically discharges a large amount of water until it reaches a set level and maintains a constant level that does not always exceed the flood level.

In general, despite recent well-maintained rivers, rivers, or drainage channels, weather fluctuations due to environmental changes are so severe that heavy rainfall and rainfall often occur.

Such heavy rains and rainfalls cause flooding when the dam's capacity is exceeded, and the flooding causes not only many casualties but also enormous loss of property due to flooding of houses and farmland and damage to crops. Will cause.

Therefore, various measures are being prepared to protect human life and property from natural disasters such as the above, and such measures include the application of high-capacity flood control floodgates with flood control functions or the introduction of flood warning systems. I'm doing it.

However, the methods described above require a lot of budget for manufacturing and installation, and cannot cope actively in case of rapid increase in water level. However, the water is discharged downstream or the flood warning is issued through the opening of the gate by the operator's operation. It was only to do.

In addition, even when performing such a manual countermeasure, it is always possible to secure a separate power source (electricity, etc.) and a large number of working personnel, thereby causing a lot of cost and time.

In addition, the proper level not exceeding the flood level was not always automatically and automatically controlled, and the above-mentioned appropriate level was improved in consideration of weather conditions and surrounding conditions.

The present invention is to actively solve the above problems, by using the principle of siphon (Siphon) to automatically discharge the excess water according to the increase in water level and at the same time automatically reaches the water level set below the flood level The main purpose of the design is to stop the operation of the fern so that it automatically maintains the proper level to prevent flooding.

The present invention for achieving the desired purpose is to completely fill the siphon with the rainwater collected in the storm receiver, and to drive the siphon by inducing the excess water to the pressure water pipe after filling the siphon as a pressure water for operating the siphon By using the pressure of the pressure water to open the discharge cover of the siphon is made by devising a technology that allows the siphon to operate.

In addition, the present invention is made by using the water level control tube to automatically release the operation of the siphon, as well as by adjusting the height of the water level control tube to find a technique to selectively change the final water level.

The configuration of the preferred embodiment to more effectively achieve the object of the present invention will be described.

The present invention collects rainwater without using separate manpower and power, and then operates the siphon 10 using the rainwater to automatically discharge water exceeding the flood level to automatically maintain the proper water level of the dam. The dominant feature of the design is that it can effectively prevent flooding caused by flooding.

The overall configuration of the present invention for achieving the above-mentioned characteristic gist is a siphon 10 is installed via the inside and the outside of the dam 1 as shown in Figure 1, the siphon 10 A rain drain 20 for supplying rainwater to the discharge siphon 12 constituting the rainwater, and the discharge cover 12-3 so as to fill the rain siphon 12 with the rain discharge 12-1 The buoyancy tank 30 to seal and the rainwater exceeding after filling the siphon 10 to the pressure tank 41 to open the discharge cover 12-3 by the pressing force of the piston 44 to siphon It can be seen that the organic coupling configuration of the siphon operating means 40 for operating (10).

Hereinafter, the present invention made of the schematic configuration will be described in more detail.

First of all, the siphon 10 of the present invention performs a role of a communication pipe for transporting a liquid at a high place to a low place, and is due to the atmospheric pressure acting on the liquid surface at the high side. On the basis that the inlet 11-1 located inside the dam 1 is formed at a position higher than the outlet 12-1 located outside the dam 1 to use the principle that the liquid is pushed up into the pipe. do..

The present invention is not limited to applying the basic principles of the siphon described above, and additionally implements organic components for achieving the object of the present invention.

In this configuration, the siphon 10 of the present invention has an inlet siphon 11 and an outlet siphon 12 that are inclined toward both sides downward from the center thereof, and are integrally formed.

And an inlet 11-1 is formed at the lower end of the inlet siphon 11, a filter 11-2 for filtering the foreign matter is installed in the inlet 11-1, the filter 11-2 In the upper part of the), the check disk 11-3 is rotatably installed.

The check disk (11-3) is to introduce the water into the inlet siphon 11, while the inlet siphon (11) serves to prevent the flow of water introduced into the siphon 11, the inlet siphon The packing 11-5 is installed on the fixing bracket 11-4 formed at 11, and the check disk 11-3 is provided at the upper end of the packing 11-5 via the hinge shaft 11-6. The rotatable disc 11-3 is seated on the packing 11-5 and is no longer pushed downward to prevent reverse flow.

In addition, a discharge port 12-1 is formed at a lower end of the discharge siphon 12, and the discharge cover 12-3 is pivotable through the hinge shaft 12-2 at the discharge hole 12-1. The discharge cover 12-3 can be selectively opened and closed according to the operation of the lock device.

Here, the locking device is composed of a lock 13 attached to the discharge cover 12-3 and a fixing member 14 attached to the discharge siphon 12, the hatch opening formed in the fixing member 14 ( According to the pressing operation of 15), the lock state of the lock 13 is released.

The construction of such a lock device is already known, but in the present invention has been presented as a configuration of the lock 13 and the fixing member 14, but is not necessarily limited to this, as long as it can open and close the discharge cover (12-3) Anything is ok.

In the siphon 10 of the present invention, the discharge siphon 12 has a larger diameter than the inlet siphon 11 so that the water filled therein is discharged to the outside and the siphon can be more smoothly operated. Is formed.

This is because a larger amount of water is stored in the discharge siphon 12 as well as the amount of remaining air is very small, and the initial operation of the siphon can be performed more smoothly with the opening of the discharge cover 12-3.

In addition, a drain valve 12-4 is installed below the discharge siphon 12 to completely discharge the residual amount of water remaining inside when the siphon is disengaged to the outside. 4) is opened to completely discharge the water remaining in the discharge siphon 12 to the outside to achieve the initial state.

On the other hand, the rain receiver 20 for supplying rainwater (rainwater) to the discharge siphon 12 so that the siphon 10 can operate is disposed at a higher position than the siphon 10, and the rain can be collected The upper portion is opened so that the rainwater supply pipe 21 formed at the lower portion so as to supply the collected rainwater to the discharge siphon 12 is installed in communication with the discharge siphon (12).

At this time, the rainwater supply pipe 21 is provided with an inflow control valve 22 for controlling the inflow of the rainwater is supplied, it is possible to artificially adjust the operating time of the siphon 10 by adjusting the inflow of rainwater.

In addition, the present invention allows the valley water flowing from the mountain or the valley to be introduced directly into the rainwater supply pipe 21 without removing the storm receiver 20 or to artificially supply the fluid using a separate motor. do.

However, the latter motor is not preferable because it requires a separate power source.

The buoyancy tank 30, which serves to close the discharge cover 12-3 to seal the discharge port 12-1 so that rain discharge is filled in the discharge siphon 12, the discharge cover 12-3. It is installed to surround the bottom of the), and as the water filled therein gradually increases the discharge cover 12-3 to automatically seal the outlet (12-1).

That is, the discharge cover 12-3 in the open state is supplied to the discharge siphon 12 through the rainwater supply pipe 21 as shown in FIG. 3, and the rainwater is buoyant tank 30 through the discharge hole 12-1. As the water level of the buoyancy tank 30 is gradually increased as it is introduced into the) to support the discharge cover (12-3).

At this time, the discharge cover 12-3 is configured in such a way that buoyancy bodies such as styropol is installed therein so as to be supported as the water level increases.

In addition, one side of the buoyancy tank (30) is frozen in the water remaining inside the winter season freeze opening or closing of the discharge cover (12-3) or freeze protection valve 31 is installed to prevent the facility freeze. . Therefore, the freeze protection valve 31 is opened to completely discharge the fresh water to the outside to prevent freezing.

On the other hand, because rain is supplied to the discharge siphon 12 of the present invention is filled with the rain inside the siphon 10.

At this time, when the rainwater is fully filled in the siphon 10, the rainwater exceeding this is led to the pressure tank 41 through the pressure water pipe 42, and then the discharge cover 12-3 is opened by the pressing force of the piston 44. The siphon operating means 40 for operating the siphon 10 is provided.

The siphon operating means 40 is a core technology of the present invention, the pressure tank 41 is installed on the lower side of the discharge siphon 12 and the pressure tank 41 and the siphon 10 is a pressure water pipe 42 The rainwater exceeding after the full filling by being integrally connected through) is guided to the pressure water pipe 42 and used as the pressure water for operating the siphon.

At this time, the pressure water pipe 42 is filled with the siphon 10 and the air and excess water remaining in the siphon 10 is introduced into the pressure water pipe 42 in one direction, while the introduced water siphon A check valve 43 is installed to prevent the flow back to (10).

The piston 44 is installed in the pressure tank 41 so as to be transported up and down, and the pressing rod 45 formed at the bottom of the piston 44 penetrates through the pressure tank 41 so that the lower end of the keying device is closed. Located in the upper part of the release port 15, as the elastic member 46 is installed between the piston 44 and the bottom surface of the pressure tank 41, the piston 44 is selectively lowered by the pressing force of the pressure water Of course, when the pressing force is released can be restored to the original state by the restoring force of the elastic member (46).

In addition, the pressure tank 41 is a drain hole 47 is formed on the bottom surface to achieve the initialization does not exist in the usual inside, the water remaining in the interior through the drain hole 47 is completely discharged When the fern is restarted, it is possible to secure a space for filling the pressure tank 41 with water.

The siphon operating means 40 is the piston 44 is lowered by the weight of rainwater guided to the pressure tank 41 through the pressure water pipe 42, due to the lowering of the piston 44 45) the siphon can be operated while the discharge cover 12-3 is automatically opened by pressing the release port 15 of the lock.

The present invention is discharged to the outside of the rapidly increasing water due to the operation of the siphon, the discharged water reaches the appropriate level by the water level control pipe 53 constituting the water level control means 50 By automatically disabling the siphon 10 to stop the discharge, it is possible to automatically maintain the proper water level not to exceed the flood level at all times.

The configuration of the water level control means 50 for this is a water level control box 51 is installed on the siphon 10, the reel winder 52 is installed inside the water level control box 51, The reel winder 52 is located at the inside of the dam 1 at the lower end of the other side in a state in which one side of the water level control tube 53 communicating with the siphon 10 is wound to be variable in length.

The position of the lower end of the water level control pipe 53 corresponds to the final water level of the dam 1, the final water level can be determined according to the position control of the water level control pipe 53.

That is, in the state in which the water level control tube 53 is submerged in water, air does not flow into the siphon 10, and as the water level decreases as discharge continues, the lower end of the water level control tube 53 is moved outward. At the same time the air is introduced into the siphon 10 through the water level control pipe 53, the siphon is automatically released and there is no further discharge.

Therefore, the water level control pipe 53 automatically maintains the proper level by releasing the operation of the siphon, as well as freely controlling the final water level of fresh water according to the variable length in consideration of weather conditions and surrounding conditions. It becomes possible.

In addition, a siphon release valve 54 is installed at one side of the reel winder 52 to artificially stop the siphon 10 when the water level control tube 53 is damaged. Opening of 54 allows air to flow into the siphon 10.

Through the operating state of the present invention composed of such a configuration will be examined to automatically maintain the appropriate level does not exceed the flood level.

First, rainwater is collected in the rainwater receiver 20 as the water level is rapidly increased due to rainy season and rainfall, and the rainwater collected is introduced into the discharge siphon 12 through the rainwater supply pipe 21.

Rainwater flowing into the discharge siphon 12 is introduced into the buoyancy tank 30 through the open outlet 12-1, and then discharge cover 12 having buoyancy as the level of the buoyancy tank 30 increases. -3) It is closed automatically as it floats.

Therefore, the rainwater supplied to the discharge siphon 12 is no longer introduced into the buoyancy tank 30, but is filled in the discharge siphon 12, and the rainwater is filled in the inlet siphon 11 in sequence. Rainfall may be filled in the entire area of the siphon 10.

At this time, the air existing in the siphon 10 is completely discharged through the check valve 43 to the pressure water pipe 42, and the rainwater continuously supplied with the air discharge to the siphon 10 In the fully filled state, it passes through the check valve 43 and is led to the pressure water pipe 42.

Next, the rainwater guided to the pressure water pipe 42 serves as the pressure water, and the pressure water is supplied to the pressure tank 41 so that the piston 44 is lowered by the pressing force of the pressure water. By the lowering force of (44) the push bar 45 presses the release port 15 of the locking device to release the lock state.

Therefore, while the discharge cover 12-3 is opened and the compressed water filled in the siphon 10 is discharged through the discharge port 12-1, the siphon 10 operates as a rain and continuously dams ( The fresh water in 1) will be discharged automatically.

That is, by operating the siphon 10 naturally without using a separate power or manpower to discharge water exceeding the appropriate level to the outside, the operation of the siphon 10 is gradually lowered as the water level is gradually adjusted The air is automatically released at the time when the air enters the siphon 10 through the pipe 53 to maintain a constant level at all times.

The present invention automatically operates the siphon using rainwater during a sudden increase in water level during the rainy season, thereby discharging excess water according to the increase in water level and automatically releasing the siphon when the preset level is reached.

Therefore, by automatically maintaining the appropriate level below the flood level at all times, it is fundamentally to prevent the damage of the flood caused by the flooding of rapids.

Furthermore, by operating the siphon as a non-power using rainwater without using a separate power source and manpower, it provides an effect of improving economic efficiency by reducing a lot of manpower and budget due to the prevention of flood.

In addition, by adjusting the height of the water level control tube in consideration of weather conditions and ambient conditions, it provides a wide range of workability that can selectively vary the appropriate level.

Figure 1 is an embodiment installation state of the flood prevention device to which the present invention is applied

2 is an enlarged cross-sectional view of the present invention excellent receiving

3 is a state in which rainwater is introduced into the present invention exhaust siphon and buoyancy tank

Figure 4 is a partially cutaway cross-sectional view showing the internal structure of the present invention siphon

5 is a state in which the rainwater filled in the siphon of the present invention flows into the pressure water pipe

Figure 6 is a longitudinal cross-sectional view of the operating state of the present invention siphon operating means

Figure 7 is a longitudinal cross-sectional view of the installed state of the water level control means of the present invention

8 is an enlarged cross-sectional view of the installation state of the water level control tube of the present invention

[Explanation of symbols on the main parts of the drawings]

1: dam 10: siphon

11-3: Check Disc 12: Discharge Siphon

12-3: Drain cover 12-4: Drain valve

20: storm water 21: storm water supply pipe

30: buoyancy tank 40: siphon operating means

41: pressure tank 45: push rod

46: elastic member 50: level control means

52: reelwinder 53: water level control tube

Claims (8)

A siphon 10 installed through the inside and the outside of the dam 1; A rainwater receiver 20 for supplying rainwater collected through the rainwater supply pipe 21 to the discharge siphon 12 formed in the siphon 10; A buoyancy tank 30 for closing the discharge port 12-1 by supporting the discharge cover 12-3 to fill the discharge siphon 12 with rainwater; After filling the siphon 10 is filled with the excess water to the pressure tank 41 through the pressure water pipe 42 to open the discharge cover 12-3 by the pressing force of the piston 44 siphon 10 Non-powered siphon flood prevention device, characterized in that consisting of a siphon operating means (40) for operating. The method of claim 1, In the siphon 10, the inlet siphon 11 and the outlet siphon 12 are integrally formed at both sides of the siphon 10, and the check disk 11 is disposed at the inlet 11-1 of the inlet siphon 11. -3) is rotatably installed, and the discharge cover 12-3 is rotatably installed at the discharge port 12-1 of the discharge siphon 12, and the discharge cover 12-3 is a locking device. Non-powered siphon flood prevention device, characterized in that selectively opening and closing according to the operation of. The method according to claim 1 or 2, The siphon 10 is formed such that the discharge siphon 12 has a larger diameter than the inlet siphon 11 so that a larger amount of water is filled in the discharge siphon 12 for smooth operation. The non-powered siphon flood prevention device, characterized in that the lower side of the siphon (12) is provided with a drain valve (12-4) for completely discharging the remaining amount of water when the siphon is terminated. The method of claim 1, Rainwater receiver 20 is installed in communication with the discharge siphon 12 and the rainwater supply pipe 21, the rainwater supply pipe 21 is characterized in that the inlet flow control valve 22 for controlling the inflow of rainwater is installed Non-powered siphon flood prevention device. The method of claim 1, The buoyancy tank 30 is installed to surround the bottom of the discharge cover (12-3), and the discharge cover while gradually increasing the rainwater introduced through the discharge port (12-1) when the discharge cover (12-3) is opened. (12-3) to support the automatic closing of the discharge port (12-1), the non-powered siphon flood prevention, characterized in that the freeze-proof valve 31 is installed to discharge the fresh water to the outside to prevent freezing Device. The method of claim 1, The siphon operating means 40 is a pressure tank 41 is installed on the lower side of the discharge siphon 12, the pressure tank 41 is a siphon via a pressure water pipe 42 is provided with a check valve 43 It is integrally connected with the (10), the inside of the pressure tank 41, the piston 44 is coalesced so as to be transferred up and down by the elastic member 46, the piston 44 is a push rod formed at the bottom A non-powered siphon flood prevention device, characterized in that the siphon is operated while the discharge cover 12-3 is opened by pressing the hatch 15 of the locking device while the 45 falls by the pressure of the pressure water. The method of claim 1, A water level control box 51 is installed at the top of the siphon 10, a reel winder 52 is installed inside the water level control box 51, and the siphon 10 is installed at the reel winder 52. A non-powered siphon flood prevention device, characterized in that the water level control means 50 is wound around the water level control pipe 53 to release the siphon operation by introducing air. The method of claim 7, wherein Non-powered siphon flood prevention device, characterized in that the siphon release valve 54 for artificially releasing the operation of the siphon 10 is installed on one side of the reel winder (52).