KR101135181B1 - Rotating type movable weir system - Google Patents

Abstract

The present invention discloses a rotatable movable beam system. The rotatable movable beam system is configured so that the angle of the movable beam panel is erected or laid down according to the change of the water level of the river or the river, and the power generation system is additionally configured. It can be expected to keep constant at all times, as well as to be able to produce and supply eco-friendly electricity from the pressure drop of the water flow.

Movable beams, panels, power generation systems, sensors, air tubes, air drives

Description

Rotating type movable weir system

The present invention relates to a movable beam installed across a river or a river to adjust the water level, and more particularly, to an angle change in which the movable beam panel is erected or laid down in accordance with a change in the river or river level. It is related with the rotary movable beam system which keeps the water level of river or river at all times while producing the electric power from the drop pressure due to the fall of water according to the change of the angle of the movable beam panel. .

In general, many rubber dams, such as folding or ups and downs, have been developed as banks of agricultural / industrial intakes, water intakes, and freshwater inflows. It is attracting great attention as a bank for embankment because it is easy to secure the effective amount of water and install it easily and to control the height of the rubber dam according to the desired water level.

Most of these rubber dams are filled with air for the expansion and ups and downs of the rubber tube (air bag), and the fixing device for fixing the air bag to the riverbed concrete and the embankment and the piping equipment for supplying or discharging the air. And a blower, and a float valve for level control.

However, the rubber dam to install the weir using the rubber tube as described above, but the water dam is covered in the flood level and horizontally with the riverbed concrete of the river does not interfere with the cross-sectional area of water flow, but there is a limit to the water level control There is a problem in flexibly applying the fresh water function of the river, and since the rubber tube is directly exposed to the oil coming down from the upstream, it is from the oil such as the sharp driftwood or driftwood which rolls to the river bed by falling rocks or strong water pressure in mountainous areas. If the rubber tube is torn or punctured when impacted, there is a problem that can not function as a bank for embankment (movable beam).

Therefore, to solve the conventional problems as described above, by varying the angle of the movable beam panel is erected or laid down in accordance with the change in the level of the river or river, the level of the river or river is always constant The object is to provide a rotatable movable beam system that can be maintained.

In addition, the present invention is another object to enable the production of electricity from the drop pressure due to the fall when the water is made in accordance with the change in the angle of the movable beam panel.

Rotating movable beam system of the present invention for achieving the above object, the bottom panel portion across the river or river; A movable beam panel which is rotatably coupled to the bottom panel through a hinge shaft and adjusts the amount of storage and discharge of water while the angle change of lying or standing is made according to the change of the water level of the river or the river; An air tube positioned on a rear surface of the movable beam panel and configured to contract or expand to allow an angle change of lying or standing of the movable beam panel from a pressure caused by a change in water level of a river or a river; And a plurality of support wires connected to both ends of the bottom panel portion and an upper end of the movable beam panel, and configured to limit a sudden change in the angle of the movable beam panel by the air tube. It includes.

In addition, the top of the movable beam panel is formed with a plurality of outlets for guiding the discharge of water according to the elevated water level when the water level of the river or river is increased.

In addition, the air tube is configured such that the air filling amount to maintain a constant pressure, the air tube is a certain angle of the movable beam panel when the constant pressure according to the air filling is equal to or greater than the water pressure according to the reference level of the river or river The air tube is configured to contract from the pressing pressure during the lying rotation of the movable beam panel according to the water pressure when the constant pressure due to the air filling is less than the water pressure due to the high water level of the river or the river. will be.

In addition, the air tube is contracted and expanded, the sensor for detecting the pressure according to the change in the water level of the river or river, and the air injection and discharge to the air tube forcibly in response to the pressure change according to the change in the level detected by the sensor It is made by the air drive part which drives to control.

In addition, a power generation system is configured at one end of the air tube to generate electricity by using the free fall pressure of the water falling from the movable beam panel.

In addition, the power generation system includes an aberration that rotates from the dropping pressure according to the flow rate of the water, a generator that is directly connected to the aberration and generates electricity according to the amount of rotation of the aberration, and a storage battery that stores electricity generated by the generator. do.

The present invention is configured such that the angle change that the movable beam panel is erected or laid down according to the change of the water level of the river or the river and additionally configured the power generation system, through which the water level of the river or the river is always constant Not only can the effect be maintained, but also the effect of producing and supplying eco-friendly electricity from the drop pressure according to the flow rate of the water can be expected.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a structure of a rotatable movable beam system according to an embodiment of the present invention, Figure 2 is a side cross-sectional view of the movable beam panel is set at a reference angle in an embodiment of the present invention, Figure 3 is a present invention In an embodiment of the side cross-sectional view of the movable beam panel lying down.

1 to 3, a rotatable movable beam system according to an embodiment of the present invention includes a bottom panel portion 10, a movable beam panel 200, an air tube 30, and a support wire 40. .

The bottom panel 10 is constructed in a state across the river or river, the shaft frame 11 is configured to be coupled.

The movable beam panel 20 is to adjust the amount of storage and discharge of the water while the angle change is made lying down or standing in accordance with the change in the water level of the river or river, through the hinge shaft 100 to the bottom panel portion 10 As well as rotatably coupled, a plurality of outlets 21 protrude from the top to guide water discharge according to the elevated level when the level of the river or river is increased.

The air tube 30 is to be contracted or expanded to change the angle of the lying or standing of the movable beam panel 20 from the pressure according to the change in the water level of the river or river, the movable beam panel 20 It is configured on the rear side.

At this time, the air tube 30 is configured to maintain a constant pressure (P) filling amount, the expansion state of the air tube 30 to allow the movable beam panel 20 to stand at a predetermined angle of the air When the constant pressure (P) inside the filling is equal to or greater than the water pressure (P1) according to the reference level (S1) of the river or river.

In addition, the contraction state of the air tube 30 to lay the movable beam panel 20 so that the discharge of water is made according to the constant pressure (P) inside the air filling according to the high water level (S2) of the river or river When it is less than the water pressure (P2) is configured to be made from the pressing pressure of the movable beam panel 20.

The support wire 40 is to limit the change in the angle of the sudden rise of the movable beam panel 20 by the air tube 30, the top of the bottom panel portion 10 and the movable beam panel 20 Both ends are fixed to the connection, and a separate bracket 41 for fixing the connection is configured.

That is, in the rotatable movable beam system according to the embodiment of the present invention, as shown in FIG. 2, when the air tube 30 is expanded by the injection of air to maintain a constant pressure P, the air tube 30 is maintained. The movable beams panel 20 maintains the reference angle θ1 of a constant upright, and accordingly the water of rivers or rivers can be stored by the movable beams panel 20.

At this time, when the water level of the water stored by the movable beam panel 20 does not exceed the reference water level S1, the pressure P1 according to the reference water level S1 raises the movable beam panel 20. It is designed to act equal to or smaller than the constant pressure (P) in the air tube 30 to maintain a reference angle of (θ1) of,

The movable beam panel 20 can block the discharge of water of the river or the river from the reference water level (S1).

However, as shown in FIG. 3, when the water of the river or the river reaches the high water level S2 by exceeding the reference water level S1 under the influence of rainwater or the like, the pressure P2 according to the high water level S2. ) Is transmitted to the movable beam panel 20, the movable beam panel 20 is rotated outside the reference angle (θ1).

That is, the constant pressure P in the air tube 30 is set based on the reference water level S1, and the pressure P2 of the high water level S2 exceeding the reference water level S1 is movable beam panel ( 20, the movable beams panel 20 is pressed by the air tube 30 while being rotated in a clockwise direction to shrink.

Then, from the rotation angle θ2 of the movable beam panel 20, the water of the river or the river discharged by the movable beam panel 20 is protruded into the movable beam panel 20. Discharge can be achieved through (21).

At this time, when the water discharge of the river or river is made as described above, the water level of the river or river is lowered again, accordingly the pressure (P2) applied to the movable beam panel 20 is also lowered, the air tube ( 30 is expanded to the original internal constant pressure (P) bar, the movable beam panel 20 maintains the reference angle (θ1) again, and thus the river or river by the movable beam panel 20 Water can always maintain a constant level.

On the other hand, the aberration 61 and the three-phase AC motor generator as shown in the block diagram of FIG. 4 attached to one end of the air tube 30 to generate electricity using the free fall pressure of the water falling from the movable beam panel 20. A power generation system 60 including a 62 and a storage battery 63 is constructed.

When the discharge of the water is made through the outlet 21 of the movable beam panel 20, the power generation system 60 generates a predetermined amount of electricity from the free fall pressure of the discharged water, and then generates it to the storage battery 63. It can be saved.

Therefore, the predetermined amount of electricity stored in the storage battery 63 as described above will be able to supply to the equipment that requires a small amount of power, such as a street lamp.

On the other hand, Figure 5 is attached to another embodiment of the present invention, which is to allow the contraction and expansion state of the air tube 30 can be forcibly adjusted by the sensor 51 and the air drive unit 52.

That is, when the pressure according to the change in the water level of the river or river is detected by the sensor 51, the air driving unit 52 is the air tube 30 in accordance with the pressure change according to the change in the level of water detected from the sensor 51 The drive to selectively control the air injection and discharge into the), and accordingly the contraction or expansion of the air tube 30 is made, the rotation angle of the lying down and standing of the movable beam panel 20 occurs.

Then, the water of the river or river is discharged through the movable beam panel 20 from the lying angle and the rotation angle change of the movable beam panel 20, or the flow is blocked, so that the desired water level can be maintained. Will be.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

1 is a perspective view showing the structure of a rotatable movable beam system according to an embodiment of the present invention.

Figure 2 is a side cross-sectional view of the movable beam panel is set to the reference angle in an embodiment of the present invention.

Figure 3 is a side cross-sectional view of the movable beam panel lying down in an embodiment of the present invention.

Figure 4 is a block diagram of a power generation system according to an embodiment of the present invention.

Figure 5 is another embodiment of the present invention for controlling the contraction and expansion of the air tube through the air drive.

* Description of the symbols for the main parts of the drawings *

10; Bottom panel part 11; Axis frame

20; Movable panel 21; outlet

30; Air tube 40; Support wire

41; Bracket 51; sensor

52; Air driving unit 60; Power generation system

61; Aberration 62; generator

63; Storage battery 100; Hinge shaft

Claims (5)

A bottom panel unit that crosses a river or a river; A movable beam panel which is rotatably coupled to the bottom panel through a hinge shaft and adjusts the amount of storage and discharge of water while the angle change of lying or standing is made according to the change of the water level of the river or the river; An air tube positioned on a rear surface of the movable beam panel and configured to contract or expand to allow an angle change of lying or standing of the movable beam panel from a pressure caused by a change in water level of a river or a river; And a plurality of support wires connected to both ends of the bottom panel portion and an upper end of the movable beam panel, and configured to limit a sudden change in the angle of the movable beam panel by the air tube. And including At the top of the movable beam panel is configured to protrude a plurality of outlets for guiding the water discharge according to the elevated water level when the water level of the river or river is increased, One end of the air tube is a rotary movable beam system comprising a power generation system including an aberration, a generator, and a battery to generate electricity by using the free fall pressure of water falling from the movable beam panel. delete The method of claim 1, The air tube is configured to maintain a constant pressure filled air, The air tube is inflated to stand the movable beam panel at an angle when the constant pressure due to air filling is equal to or greater than the water pressure according to the reference level of the river or river, The air tube is configured to contract from the pressing pressure during the lying down rotation of the movable beam panel according to the water pressure when the constant pressure according to the air filling is less than the water pressure due to the high water level of the river or river Typical movable beam system. The method of claim 1, The air tube is contracted and expanded so that the sensor for detecting the pressure according to the change in the level of the river or river, and the forced injection and discharge of air into the air tube in accordance with the pressure change in accordance with the change in the level detected by the sensor Rotating movable beam system, characterized in that configured to be made by the air drive unit for driving. delete

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