KR101199119B1 - Underwater Beam of Lifting fuction using River water - Google Patents

Abstract

The present invention relates to an underwater beam which is operated by using river water, and more specifically, to install agricultural water and industrial water in the form of crossing the river, or to use the river water flowing through the river to supply the agricultural water and industrial water or to measure the quantity of the river. It relates to an underwater beam that is operated by using the river water without using a separate power, such as a hydraulic cylinder in a configuration that is lifted by.
That is, the present invention is to install the underwater beam in the form of crossing the river, but the water tank embedded in the ground of the place where the underwater beam is installed, and the inlet pipe connected to the water tank to allow the river water flows into the tank, and the tank An outlet pipe line connected to allow the river water to flow out of the tank, and an opening / closing valve installed at the front end of the inlet pipe and the outlet pipe so that the river water can be stored and drained in the tank, and a guide formed on the upper surface of the tank. River water is used by the construction consisting of a submerged beam which is inserted into a hole to slide up and down in an upright state, and a sub-ball which is installed in the tank and connected to the lower end of the submersible beam so that the submerged beam can be lifted by buoyancy generated in the tank. It is characterized by an underwater beam that is allowed to lift and operate.

Description

Underwater Beam of Lifting fuction using River water}

The present invention relates to an underwater beam which is operated by using river water, and more specifically, to install agricultural water and industrial water in the form of crossing the river, or to use the river water flowing through the river to supply the agricultural water and industrial water or to measure the quantity of the river. It relates to an underwater beam that is operated by using the river water without using a separate power, such as a hydraulic cylinder in a configuration that is lifted by.

In general, a crosswalk of rivers is installed to supply agricultural water and industrial water or to measure the quantity of rivers.

In the case of such underwater beams are mainly made of a concrete structure, there is a problem in that a large installation cost to transport and install a large heavy concrete structure to install it, and even when the underwater beam is not used, it is expensive to remove it.

In addition, instead of the submerged beams made of concrete structures, a plurality of sluice gates were installed at regular intervals in the form of crossing the rivers, but a descending conductive sluice gate was used to control the level of the stored water.

However, in the case of using such a conductive water gate, a lifting device for elevating the water gate should be installed at the upper portion of the water gate to operate with a hydraulic cylinder, etc. The exposure period has been limited due to corrosion.

The present invention has been made in order to solve this problem, embedded in a water tank having an opening and closing means that can be flowed in and out of the river water in the ground of the place where the underwater beam is installed and the underwater beam is formed in the guide hole formed on the upper surface of the tank The bottom of the underwater beam is installed to be elevated, and the bottom of the underwater beam is installed to store the river water flowing into the tank and buoyancy generated by the elevated water level is installed so that the underwater beam is projected upwards across the stream and spills the river water stored in the tank. It is composed of a configuration to lower the underwater beam by the level of the descending to provide an underwater beam that allows the lifting operation using the river water without using a separate power.

The present invention is to install an underwater beam in the form of crossing the river, but the tank is buried in the ground of the place where the underwater beam is installed, the inlet pipe connected to the water tank to allow the river water flows into the tank, and is connected to the tank In the outflow pipe path for allowing the river water in the tank to flow out, the opening and closing valves respectively installed at the front end of the inflow pipe and the outflow pipe to allow the storage and drainage of the river water in the tank, and the guide hole formed in the upper surface of the tank The lifting and lowering using the river water by the construction consisting of a submerged beam which is inserted and slides up and down in an upright state, and a sub-ball which is installed in the tank and connected to the bottom of the submersible beam so that the submersible beam can be lifted by buoyancy generated in the tank. It features an underwater beam that has been activated.

The underwater beam of the present invention is installed in a form that crosses the river, consisting of an underwater beam for supplying agricultural water and industrial water or measuring the quantity of the river, the underwater beam is located in the upper and lower guide holes formed in the upper surface of the tank buried in the ground of the river The submerged beams that are inserted into the slide can lift and lift the underwater beams with buoyancy generated as the buoys connected to the bottom are suspended by the level of the river water flowing into the tank, so they can be operated by using these river waters. As a result, operating costs can be greatly reduced.

1 is an exploded perspective view showing the underwater beam component according to the configuration of the present invention.
Figure 2 is an assembled perspective view showing the underwater beam component according to the configuration of the present invention.
Figure 3 is an exemplary cross-sectional view showing a state in which the underwater beam of the present invention is suspended by a float in the tank.
Figure 4 is an enlarged cross-sectional view of the guide guide portion of the water tank fitted according to the present invention.
Figure 5 is a plan view showing a state in which the underwater beam of the present invention is installed.
Figure 6 is an exemplary operation showing the raised underwater beam of the present invention.
Figure 7 is an operation example showing a state in which the underwater beam of the present invention is lowered.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The present invention is to install the underwater beam 10 in the form of crossing the river, the tank 20 is embedded in the ground of the place where the underwater beam 10 is installed, and the tank 20 is connected to the tank 20 Inflow pipe (30) and the inflow pipe (30), which is connected to the water tank 20 to allow the flow of the river water in the water tank 20, and the inflow pipe (30) Opening and closing valves 50 and 50 ′ which are respectively installed at the front end portions 30a and 40a of the outlet pipe line 40 to store and drain the river water in the water tank 20, and an upper surface of the water tank 20. The submersible beam 10 inserted into the guide hole 24 formed in the upper and lower slides in an upright state, and is installed in the tank 20 and connected integrally to the lower end of the submersible beam 10, the submersible beam 10 to the tank 20 It is characterized in that the buoy 15 is made to rise and fall by buoyancy generated in the).

The water tank 20 is provided with a rectangular cylindrical body, the inflow port 21 through which the river water flows is provided above the side wall, and the outlet port 22 through which the river water flows out is provided below the side wall opposite to the inflow port 21. In order to smoothly move up and down the floats 15 floating in accordance with the water level in the river, so that the submersible beam 10 on the upper side of the guide hole 24 formed on the upper surface of the water tank 20 does not swing and slide up and down. The guide guide 26 is installed, but the guide guide 26 is preferably provided with a packing member 28 such as an O-ring to prevent water from flowing into the guide hole 24.

The tip portion (30a) of the inlet pipe 30 is installed in the reverse flow of the river water to facilitate the inflow of river water, the tip portion (40a) of the outlet pipe line 40 is installed in the flow direction of the stream water tank 20 It is installed to be inclined at the outlet 22 of the water so that it can be easily escaped at the time of outflow of the water stored in the tank (20).

The opening and closing valves 50 and 50 ′ are respectively installed at the tip portions 30a and 40a of the inflow pipe 30 and the outflow pipe 40, respectively, and store the river water in the water tank 20 to raise the underwater beam 10. When installed in the state, the inlet pipe 30 is opened by the inlet opening / closing valve 50 and the outlet pipe line 40 is blocked by the outlet opening / closing valve 50 'so that the river water can be stored in the water tank 20. And when the submerged beam 10 is raised by the buoy 15 that is suspended while the river water is stored in the water tank 20, the water in the water tank 20 by blocking the inlet pipe 30 by the inlet opening and closing valve 50 The submersible beam 10 which is suspended in the water level of the river water to maintain the stored state is able to continuously maintain the elevated state, and when the lowering the underwater beam 10 by draining the river water stored in the water tank 20, the outlet portion Through the outlet pipe line 40 by opening the outlet pipe line 40 by the on / off valve 50 '. As the river water in the water tank 20 is drained, the water level in the water tank 20 is lowered so that a natural descent is made.

The underwater beam 10 is made of a blocking plate capable of withstanding the water pressure of the river water, but the buckle 15 is integrally connected to the lower portion of the underwater beam 10 by the fastening member 16 and the float 15 is a water tank ( 20) to be floated by buoyancy generated by the water level of the river water flowing into the water tank 20, such a float 15 is provided with a sciropol.

When described in detail with reference to the accompanying drawings an embodiment according to the subterranean hoisting operation using the river water of the present invention as described above.

The present invention is used for the purpose of supplying agricultural water and industrial water or measuring the quantity of rivers by installing the underwater beam 10 in the form of crossing the river, but first the water tank 20 in the ground of the place where the underwater beam 10 is installed. ) Buried 15 in the guide hole 24 formed in the upper portion of the tank 20 in the upright state and integrally connected to the lower end of the underwater beam 10 is the inside of the tank 20 The tank 20 is buried in the ground of the river in a state where it is installed to be able to ascend.

And while embedding the water tank 20 in the ground of the river connected to the inlet pipe 30 to the inlet port 21 provided on the side wall of the water tank 20, the tip portion (30a) of the inlet pipe 30 is the flow of river water It is installed in the reverse direction to facilitate the inflow of river water, and the outlet pipe line 40 is connected to the outlet port 22 provided on the lower side of the side wall opposite the inlet port 21 of the water tank 20, but the front end portion 40a of the outlet pipe line 40 Is installed inclined at the outlet 22 of the water tank 20 and is installed in the direction of the flow of the river water so that it can easily escape during the outflow of water stored in the water tank 20

The submersible beam 10 embedded in the basin of the river in such a way as to slide up and down in the guide hole 24 formed on the upper surface of the tank 20 has a buoy 15 connected to the lower end within the tank 20. It is possible to lift and lift the underwater beam 10 with buoyancy generated while floating by the level of the incoming river water.

In such a state, if the submersible beam 10 is to be installed in an elevated state in the form of crossing the stream, the inlet pipe 30 is opened by the inlet opening / closing valve 50 and the outlet opening / closing valve 50 as shown in FIG. 6. When the outlet pipe 40 is blocked by the '), the submerged beam 10 is guided by a buoy 15 which is made to be stored as the river water flows into the water tank 20 and is floated by the rising water level. 24 to reach a position capable of blocking the river water and reaches a set height to block the inlet pipe 30 by the inlet opening / closing valve 50 so that the river water is no longer introduced into the water tank 20 and stored therein. By maintaining the submersible beam 10 to be suspended in the water level in the water tank 20 is to maintain the elevated state to perform the blocking function of the river water.

And if you want to lower the underwater beam 10 installed in the form of crossing the stream, as shown in Figure 7 when opening the outlet pipe 40 by the outlet opening and closing valve 50 'as shown in FIG. Floating buoy 15 is made by the load of the submerged beams (10) with the water level descending as the river water drainage is made in the water tank 20 through the outflow pipe 40, the submerged beams 10 are guide holes ( Along with 24 is to maintain the naturally lowered state in the tank (20).

As described above, the underwater beam 10 of the present invention is a means for storing the river water flowing in the river into the water tank 20 and storing the water as much as a predetermined position. 10 can be installed to protrude upward in the form of crossing the river, it is possible to lower the underwater beam 10 by the water level to be lowered by draining the river water stored in the water tank 20, which is of the underwater beam 10 In the lifting operation, the operation is performed using river water without using a separate power.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: underwater beam 15: ball
16: fastening member 20: water tank
21: inlet 22: outlet
24: guide hole 26: guide guide
28: packing member 30: inlet pipe
30a: tip 40: outlet pipe
40a: Tip 50,50 ': On-off valve

Claims (4)

Install the underwater beam 10 in the form of crossing the river, but the water tank 20 buried in the ground of the place where the underwater beam 10 is installed is provided with a rectangular cylinder, the inlet 21 through which the river water flows in the upper side wall The outlet 22 provided with the stream water is discharged to the water tank 20 provided below the side wall opposite the inlet 21,
Inflow pipe 30 is connected to the water tank 20, the front end portion (30a) is installed in the reverse flow of the river water flow inlet pipe 30 so that the river water can be easily introduced into the water tank 20,
Outflow pipe 40 is connected to the water tank 20, the tip portion (40a) is installed in the flow direction of the flow of river water and is inclined at the outlet 22 of the water tank 20 to easily flow out the river water in the water tank 20 The outflow pipe 40,
Opening and closing valves 50 and 50 'installed at the front end portions 30a and 40a of the inflow pipe 30 and the outflow pipe 40, respectively, to allow the storage and drainage of river water in the water tank 20;
Submerged beam 10 is inserted into the guide hole 24 formed on the upper surface of the water tank 20 to slide up and down in an upright state,
It is installed in the water tank 20 and is integrally connected to the lower end of the underwater beam 10 is characterized in that it consists of a float 15 to be able to lift the underwater beam 10 by buoyancy generated in the water tank 20 Underwater beams that are operated by river water. delete delete delete

Images