KR200405472Y1 - Automatic dam using hydraulic pressure - Google Patents

Abstract

The present invention relates to an automatic beam installed in a river to store water, and more specifically, the water level control dam is selected in accordance with the pressure of the pressure water supplied into the water level control dam through the pressure water pipe. The present invention relates to an automatic beam using water pressure to effectively prevent water damage by storing a large amount of water in preparation for a drought while expanding or contracting as well as releasing a large amount of water during a sudden increase in water level.

The present invention is installed in the upstream spaced apart from the water beam and a hydraulic tank for introducing the water flowing through the inlet to the inside;

A pressure water pipe having one side communicating with the hydraulic tank and pressurizing the introduced water to supply the inside of the water level control dam communicated with the other side;

A water level control dam seated on the top of the submersible beam and automatically controlling the height while selectively expanding or contracting according to the water pressure of the pressure water supplied by the pressure water pipe;

It is made by providing a pressure water pipe opening and closing means installed in the inlet of the pressure water pipe and automatically opening and closing the flow path of the pressure water pipe in accordance with the change in the water level of the water pressure tank.

Description

Automatic dam using hydraulic pressure

1 is a front sectional view of an embodiment of an automatic beam to which the present invention is applied

2 is a state in which water is introduced into the water pressure tank of the present invention

3 is a plan sectional view of the present invention hydraulic tank

Figure 4 is an enlarged cross-sectional view of the installation state of the water level control dam of the present invention

5 is an operational state diagram of the pressure water opening and closing means of the present invention

6 is a contraction state diagram of the water level control dam of the present invention

7 is a plan view of the connection state of the present invention hydraulic tank and pressure water pipe

8 is a longitudinal sectional view showing the internal structure of the drainage side of the present invention;

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

10: hydraulic tank 11: inlet

20: pressure water pipe 30: level control dam

31: exterior panel 34: waterproof rubber plate

38: drainage side 38-1: water hole

38-2: spring 40: pressure water pipe opening and closing means

41: valve 42: buoyancy body

The present invention relates to an automatic beam installed in a river to store water, and more specifically, the water level control dam is selected in accordance with the pressure of the pressure water supplied into the water level control dam through the pressure water pipe. The present invention relates to an automatic beam using water pressure to effectively prevent water damage by storing a large amount of water in preparation for a drought while expanding or contracting as well as releasing a large amount of water during a sudden increase in water level.

In general, in order to use agricultural water or industrial water in a factory area, water is stored by installing a beam, which is a transverse structure that crosses a river, and a water gate is provided at one side of the beam to open and close the water gate according to the water level. It will regulate the amount of water stored.

In other words, when the water flowed above a certain level, the water gate was opened to discharge the water until it reached a certain level, and when the water went below the predetermined level, the water was closed to store the water to a certain level.

Most of these underwater beams are made by pouring concrete in the field, and the water gates installed in the underwater beams are currently divided into semi-automatic and automatic forms.

However, both of the conventional water gates are indispensable unless power is supplied due to the use of driving shafts and motors, and in particular, frequent failures are caused by lightning strikes in the summer. There was a high possibility of being damaged by trash or trees caused by landslides between floodgates.

In addition, due to the above-mentioned problems, it is necessary to always put a separate person to manage the water gate, which causes a lot of costs and manpower required for maintenance and management of the underwater beam.

On the other hand, the conventional underwater beam was already limited at the maximum height in the construction stage, the maximum water level that can be stored is very limited.

However, especially in Korea, in the summer, the North Pacific high-pressure forces are so strong that weather disasters (droughts) frequently occur due to abnormal temperatures that the rainy season fronts cannot produce enough rain, so more water must be secured in advance. As the conventional underwater beam is limited in the amount of low water is not properly dealt with.

This caused severe damage to the spring farming plan due to the lack of basic drinking water, agriculture and industrial water.

In addition, when the rain level suddenly increases a lot and the water level suddenly increases, the conventional underwater beams are limited in the amount of discharge, causing rapid flooding to the vicinity of the rivers, causing huge damage to the villages, houses and residents around the rivers. .

Therefore, the height of the underwater beam is automatically adjusted according to the flow rate of the flowing water, the situation is urgently required for the underwater beam that can store or discharge a small amount of water.

The present invention is to actively solve the above problems, it is possible to automatically control the height of the water level control dam while the water level control dam is selectively expanded or contracted according to the water pressure of the flowing water supplied into the water level jeoldam dam. It is the main purpose of the devising.

The present invention for achieving the desired purpose is to guide the flowing water into the hydraulic tank and then supply the pressure water of the hydraulic tank into the water level control dam inside the water level control dam automatically expands a large amount of water to the dry water In order to make fresh water, and in the rainy season during heavy rains, the pressure water supplied to the water level control dam is blocked so that the water level control dam is automatically contracted so that a large amount of water is discharged to prevent water damage.

The configuration of the preferred embodiment for effectively achieving the object of the present invention will be described.

The present invention is characterized in that it can automatically control the height while selectively expanding or contracting the water level control dam 30 by using the water pressure of the flowing water only in a non-powered state using no manpower or power.

The overall configuration of the present invention for achieving the above-mentioned characteristic gist is in the underwater beam (1) constructed across the river as shown in Figure 1,

A hydraulic pressure tank (10) installed upstream of the submersible beam (1) and flowing water flowing through the inlet port (11) and one side is connected to the hydraulic tank (10) and pressurized water introduced to the water level control dam The pressure water pipe 20 to be supplied to the interior of the 30, and the height of the height of the water while being selectively expanded or contracted according to the water pressure of the pressure water which is seated on the upper end of the underwater beam (1) and supplied by the pressure water pipe (20) The water level control dam 30 and the pressure water pipe opening and closing means 40 installed at the inlet of the pressure water pipe 20 to automatically open and close the flow path of the pressure water pipe 20 according to the change in the water level of the water pressure tank 10. It can be seen that consists of an organic bonding configuration of).

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

First, the hydraulic tank 10, which serves to induce water flowing along the stream and flows into the pressure water pipe 20, is installed at an upstream spaced apart from the underwater beam 1 by a predetermined distance, and the water flowing at one side of the lower portion. The inlet 11 is formed to be introduced into the inside, and the water introduced through the inlet 11 naturally flows into the pressure water pipe 20 and then flows downstream along the pressure water pipe 20 to generate a strong water pressure. To form.

At this time, the various contaminants introduced with the water flowing through the inlet 11 rises to the upper part and at the same time as it flows along the inner wall of the hydraulic tank 10 as shown in FIG. By discharging to the outside, various contaminants do not accumulate inside the hydraulic tank 10.

The hydraulic tank 10 is installed in one place on one side of the upstream can supply pressure water to the water level control dam 30, as well as installed in each of two places on both sides of the upstream as shown in FIG. At the same time, it is possible to more smoothly supply pressure water to both sides.

The pressure water pipe 20 for supplying the water introduced into the water pressure tank 10 by pressing the water level control dam 30 is installed between the water pressure tank 10 and the water level control dam 30, and one side is In communication with the hydraulic tank 10 and the other side is integrally communicated with the water level control dam (30).

Therefore, the water flowing into the water pressure tank 10 is moved to the downstream and at the same time pressurized by supplying the inside of the water level control dam 30 to increase the height while the water level control dam 30 is expanded to prepare for drought Will be able to fresh water.

The water level control dam 30, which is height-adjusted while being selectively expanded or contracted according to the water pressure of the pressure water by the pressure water pipe 20, uses an anchor bolt or a fixing member on the top of the underwater beam 1 as shown in FIG. The bottom part is settled in a fixed state, and a plurality of exterior panels 31 are continuously connected through the hinge 32 to form a bag such as an endless track and selectively expand or contract according to the supply of pressure water. Maintain free bends in the ship.

In addition, the connection part is provided with a waterproof rubber plate 34 is fitted to the fixing projections 33 attached to both exterior panels 31 of the hinge 32 to prevent the pressure water supplied to the outside leaks to the outside to ensure a tight watertight. Keep up. At this time, the waterproof rubber plate 34 is coupled to each other by the fastener 35 together with the outer panel 31 in the state fitted to the fixing protrusion 33 to maintain a more rigid fixed state leaking pressure water through the connection portion Prevent more effectively.

The water supply header 36 is installed at one side of the water level control dam 30 in the longitudinal direction, and the water supply header 36 receives pressure water from the pressure water pipe 20 which is integrally connected to the water passing hole 37. It serves to expand the water level control dam 30 by smoothly supplying the inside of the water level control dam 30 through.

That is, the water level control dam 30 is constantly supplied with pressure water flowing through the pressure water pipe 20 at all times, so that the water level control dam 30 is completely inflated to maintain a maximum height of fresh water. Excessive pressure water continuously supplied after the filling of the water level control dam 30 is a plurality of drainage side 38 installed on the exterior panel 31 on one side at a predetermined interval along the longitudinal direction of the water level control dam 30. By automatically draining to the outside through) to prevent damage to the water level control dam (30).

Here, the drain 38 has a water passage 39-1 penetrating inside and outside, and the water passage 39-1 is a ball 38-3 supported by a spring 38-2. It is made of a configuration to maintain a closed state by the).

Therefore, the ball 38-3 may normally be stored in the water level control dam 30 by blocking the water supply hole 39-1 by the elasticity of the spring 38-2, the water level control dam The pressure water continuously supplied after the full filling of the pressure 30 exceeds the elasticity of the spring 38-2 and pushes the ball 38-3 to temporarily open the water hole 39-1, thereby increasing the excess water pressure. Can be drained to the outside.

On the other hand, the pressure water pipe opening and closing means 40 installed on the inlet side of the pressure water pipe 20 automatically opens and closes the flow path of the pressure water pipe 20 according to the water level change of the water pressure tank 10 to the water level control dam 30. By controlling the pressure water supplied serves to automatically control the height of the water level control dam (30).

Pressure water pipe opening and closing means 40 that performs this role is usually the valve 41 to open the flow path to allow water to flow into the pressure water pipe 20, while during the sudden increase in water level of the hydraulic tank 10 during the rainy season At the same time as the buoyancy body 42 automatically floats, a ball top for closing the flow path of the pressure water pipe 20 by operating the valve 41 may be applied.

The ball tower is an embodiment of the present invention pressure water pipe opening and closing means 40 for automatically opening and closing the pressure water pipe 20 in accordance with the change in water level, but is not necessarily limited to this and can be implemented in various forms.

In addition, since such a balltop is a known configuration, a detailed description of the detailed configuration is omitted in the present invention.

It will be described for the automatic height adjustment of the water level control dam 30 according to the present invention made in this configuration.

First, since the pressure water pipe opening and closing means 40 is normally set in an open state, the water flowing into the water pressure tank 10 is supplied to the water level control dam 30 through the open pressure water pipe 20, thereby providing the water level control dam. 30 is fully inflated to maintain the maximum height to store a sufficient amount of water in preparation for a drought.

As the stream rapidly increases due to the heavy rain in the above-mentioned setting state, the water level of the hydraulic tank 10 increases, and the buoyancy body of the pressure water pipe opening and closing means 40 is increased due to the increase of the water level of the hydraulic tank 10. As the 42 rises, the valve 41 is automatically sealed to block the flow path of the pressure water pipe 20 so that no water is supplied to the pressure water pipe 20.

Therefore, as the pressure water supplied to the water level control dam 30 gradually decreases, the water level control dam 30 consumes the expansion force, and at the same time, the water level control dam 30 is caused by the pressure of the water flooding the water level control dam 30. The water level control dam 30 is automatically contracted by being pushed downward so that the water inside the water level control dam 30 is drained to the outside through the drainage side 38.

Therefore, when the water level is suddenly increased, the water level control dam 30 automatically lowers the height and discharges a large amount of water downstream so that it is possible to fundamentally block flooding caused by the rapid flooding to the periphery of the river.

On the other hand, when the water level is lowered, the buoyancy body 42 is lowered and at the same time opening the pressure water pipe 20, the water in the water pressure tank 10 flows into the pressure water pipe 20 again to automatically open the water level control dam 30. Inflation can increase the maximum water level.

The present invention is introduced into the water pressure tank after flowing water is supplied into the water level control dam and at the same time the water level control dam automatically expands to be able to dewater a large amount of water in the low water.

In addition, when the rain is rainy rainy season, the pressure water supplied to the water level control dam is blocked, and at the same time, the water level control dam is automatically contracted so that a large amount of water can be discharged at once to effectively prevent flooding.

As a result, the level control dam is automatically expanded or contracted according to the water pressure of the flowing water without using a separate manpower or power, thereby providing an effect of automatically controlling the height of the level control dam.

Claims (5)

In the underwater beam (1) constructed across the river, A hydraulic pressure tank 10 installed at an upstream spaced apart from the underwater beam 1 by a predetermined distance and introducing water flowing through the inlet 11; A pressure water pipe 20 configured to supply one side to the hydraulic tank 10 and pressurize the introduced water to supply the inside of the water level control dam 30 connected to the other side; A level control dam (30) seated at the top of the submersible beam (1) and automatically controlling the height while selectively expanding or contracting according to the water pressure of the pressure water supplied by the pressure water pipe (20); Installed at the inlet of the pressure water pipe 20 and automatically using the water pressure, characterized in that made of a pressure water pipe opening and closing means 40 for automatically opening and closing the flow path of the pressure water pipe 20 in accordance with the water level change of the water pressure tank (10) Bo. The method of claim 1, Water pressure tank 10 is the water introduced through the inlet 11 formed in the lower side of one side is supplied to the pressure water pipe 20, the various contaminants introduced through the inlet (11) flows inside the pollution formed at the top Automatic beam using water pressure, characterized in that discharged to the outside through the material outlet (12). The method of claim 1, The water level control dam 30 is continuously installed through the hinge 32 so that a plurality of exterior panels 31 form a pocket, and a connection portion of the exterior panel 31 is attached to the exterior panel 31. Water-tightness is maintained by the waterproof rubber plate 34 fitted to the fixed protrusion 33, and a water supply header 36 communicating with the pressure water pipe 20 is installed at one side of the inside, and the water supply header 36 is provided. Pressure water supplied through the automatic beam using the water pressure, characterized in that to expand the water level control dam (30). The method of claim 3, wherein The excess pressure water continuously supplied after the filling of the water level control dam 30 is automatically drained to the outside through the drainage side 38 formed on the exterior panel 31 on one side, while the drainage side 38 is A water passage 39-1 penetrating the inside and the outside is formed therein, and the water passage 39-1 maintains a state of being closed by the ball 38-3 supported by the spring 38-2. Auto beam using water pressure, characterized in that. The method of claim 1, The pressure water pipe opening and closing means 40 installed at the inlet of the pressure water pipe 20 normally opens the flow path, and when the water level of the water pressure tank 10 suddenly increases, the buoyancy body 42 floats to operate the valve 41 to operate the pressure water pipe. Automatic beam using water pressure, characterized in that consisting of a ball tower for automatically closing the flow path of (20).

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