KR101934406B1 - Conducting movable beam of low water layer discharge structure - Google Patents

Abstract

The present invention relates to a tilting weir of a water storage layer discharge structure for discharging a water storage layer of an upstream side of a watergate through a lower end of the watergate by opening the lower end of the watergate when the watergate of the tilting weir is operated vertically. The tilting weir of a water storage layer discharge structure according to the present invention includes: a fixed gate mounted and fixed on a waterway floor surface and formed in an arc shape so that a downstream side is installed to be lower; a plurality of hydraulic cylinders for rotating the watergate in a back-and-forth direction; a slide gate formed in an arch shape corresponding to the fixed gate to open a space between the fixed gate and the slide gate depending on an angle of the watergate to discharge the water storage layer of the upstream side of the watergate to the downstream side; and a gate watertight means for making the space between the slide gate and the fixing gate watertight.

Description

Conducting movable beam of low water layer discharge structure

The present invention relates to a conductive movable beam having a low water level discharge structure, and more particularly, to a movable movable beam having a low water level discharge structure. More particularly, when a movable gate of a movable movable beam is vertically operated, a lower water level is opened, The present invention relates to a conductive moving beam of a low water level discharge structure capable of treating a soil or a foreign matter deposited on the lower water layer and a lower surface of the front side to downstream of the river to improve the water quality environment.

Generally, the moving view is for adjusting the water level of a river or a river. This operation view is installed on a concrete structure installed on a concrete structure installed across a river, and installed on a door frame through a hinge, It is composed of a hydraulic cylinder that is installed and adjusts the angle so that the water flow over the top of the water gate is properly maintained while the flood amount is controlled.

 The angle of the movable beam is adjusted by pulling or pushing the pedestal through the hydraulic cylinder at the back side of the movable view water gate constructed as described above. The water flows from the upper end of the movable beam to the lower end of the movable beam when the water flows over the movable beam and the water wall is formed A vacuum space lower than the atmospheric pressure is formed in the space between the movable beam and the water wall.

As described above, the reason why the vacuum space lower than the atmospheric pressure is formed in the space between the movable beam and the water wall is that the water is formed when the movable beam flows over the water and the air is compressed in the space of the back surface of the movable beam. If a vacuum is generated when water is overflowing from the movable beam, foreign matter or gravel that flows to the downstream can not flow downstream, and a problem arises that it accumulates on the backside of the movable beam.

Particularly, when the water continues to flow in the movable beam as described above, a phenomenon occurs in which the vacuum is generated on the back surface of the movable beam and the disappearance of the vacuum occurs repeatedly. As a result, And when the vacuum is generated on the backside of the movable beam, the movable beam is not fully opened due to the fact that the gravel or sand fills the backside space where the movable beam is laid, and the movable beam breaks on the sand or sand A problem occurs.

In the case of Sejong Bona Gongju Beam equipped with an improved type of moving conveyor that adjusts the water level by adjusting the angle of the water gate, the soil is piled up on the back of the water gate and the angle of the water gate is adjusted through the hydraulic cylinder. There is a problem of stopping. As a result, there is a problem that the construction company must repeat the process of removing the soil and reloading the water gate whenever the problem occurs.

In addition, since the movable moving beam according to the prior art is not a structure that can be discharged through the low-water-layer gate at the front of the water-gate, there is a problem that soil or foreign matter is accumulated in the low- . Therefore, there is a problem that when the soil or the foreign matter deposited on the low water layer on the entire surface of the water gate is removed, the conductive movable beam must be lifted or the workforce must be mobilized.

Korea Utility Model Registration No. 20-188467 (registered on April 28, 2000) Korean Patent Registration No. 10-799359 (Registered on January 23, 2008) Korea Utility Model Registration No. 20-316356 (Registered on June, 2003) Korea Patent Registration No. 10-1260206 (Registered on April 25, 2013)

The present invention has been conceived to solve all the problems of the prior art, and it is an object of the present invention to provide a low water level structure in which a lower water layer upstream of a water gate is discharged through a lower end of a water gate, And to provide a conductive movable beam of the discharge structure.

Another object of the present invention is to provide a method and a system for controlling the operation of a movable movable beam by vertically moving the movable movable beam so that the lower end of the floodgate is opened to discharge the lower water layer upstream of the floodgate through the lower end of the floodgate, And to improve the quality of water environment by allowing accumulated sediments and foreign matter to be treated downstream of the river.

The present invention configured to achieve the above-described object is as follows. That is, a gate beam is installed on the bottom surface of the water channel in a transverse direction between side beams installed in the longitudinal direction of the water flow direction on both sides of the conduction operation view of the low water layer discharge structure according to the present invention; A fixed gate having one end fixedly mounted on a rear surface of the gate beam and the other end formed in a downward arc shape and installed in a downward direction; A water gate disposed between the side beams on both sides of the water channel, the lower end of the fixed gate arc center being installed through a hinge and the upper end thereof being rotatable forward and backward; A plurality of hydraulic cylinders provided at the side beams at respective angles to rotate the water gate back and forth through operation; And an arc surface corresponding to the fixed gate is formed to be in contact with the arc surface of the back surface on the upper arc surface of the fixed gate, A slide gate for allowing the low-water layer upstream of the water gate to be discharged downstream; And a watertight seal which is watertight between the slide gate and the fixed gate, the watertight seal being disposed at the end of the slide gate toward the arc surface of the fixed gate so that watertightness is established between the fixed gate and the slide gate Wherein the fixed gate and the slide gate are closed when the angle of the water gate is less than 70 degrees but open when the water gate angle is 70 degrees or more, And the drainage is drained to a downstream side of the gate, wherein an angle of the water inlet is adjusted to be less than 70 degrees so that foreign matter or gravel may accumulate in a space formed between the fixed gate and the slide gate during the closing process between the fixed gate and the slide gate, Angle back and forth The process comprises a configuration so that the slide gate is made to act as a shovel and the fixed gate and the slide gate is discharged when the discharge of the low foreign matter or sediment in the water layer by this shakes the earth and sand or foreign matter accumulated in the space formed by the.

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According to the technique of the present invention, when the movable gate of the movable movable beam is vertically operated, the lower end of the water gate is opened so that the lower water layer upstream of the water gate is discharged through the lower end of the water gate, It has the advantage of improving water quality.

In addition, according to the present invention, when the movable gate of the movable movable beam is vertically operated, the lower end of the water gate is opened so that the lower water layer upstream of the water gate is discharged through the lower end of the water gate, It is advantageous that the quality of the stream can be improved by allowing foreign matters to be treated downstream of the river.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a movable movable beam of a low water layer discharge structure according to the present invention. FIG.
FIG. 2 is a perspective view showing the assembled moving movable beam of the low water layer discharge structure according to the present invention. FIG.
3 is a perspective view showing the opening of a watertight door in a conductive movable beam of a low water layer discharge structure according to the present invention.
Fig. 4 is a perspective view showing the closing of a watercourse in a movable movable beam of a low water layer discharge structure according to the present invention. Fig.
5 is a side cross-sectional view showing a conductive movable beam of a low water layer discharge structure according to the present invention.
FIG. 6 is a cross-sectional view showing a state in which a hydrone gate is completely opened in a conductive movable beam of a low water layer discharge structure according to the present invention. FIG.
FIG. 7 is a cross-sectional view showing a state in which the hydrone gate is completely closed in the conductive movable beam of the low water layer discharge structure according to the present invention. FIG.
8 is a cross-sectional view showing the opening of the low-water layer gate in the conductive movable beam of the low water layer discharge structure according to the present invention.
Fig. 9 is a perspective view showing an example of a conductive moving beam to which the present invention is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a conductive movable beam of a low water layer discharge structure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a movable movable beam of a low water layer discharge structure according to the present invention. FIG. 2 is a perspective view of a movable movable beam of a low water layer discharge structure according to the present invention. Fig. 4 is a perspective view showing a closed state of the water closet in the movable movable beam of the low water layer discharge structure according to the present invention, Fig. 5 Fig. 6 is a cross-sectional view showing a state in which the hydrone gate is completely opened in the conductive movable beam of the low water layer discharge structure according to the present invention, Fig. 6 7 is a cross-sectional view showing a case in which the hydrone gate is completely closed in the conductive movable beam of the low water layer discharge structure according to the present invention, and Fig. 8 is a sectional view of the conductive movable beam of the low water layer discharge structure according to the present invention It is a sectional configuration diagram showing an opening of the water column gate.

As shown in FIGS. 1 to 8, the movable movable beam 100 of the low water layer discharge structure according to the present invention includes a bottom surface between structures of a waterway and a water surface The fixed gate 110 and the slide gate 140 may be formed between the lower ends of the fixed gate 110 and the movable gate 120 to open or close the corresponding ends of the slide gate 140 and the fixed gate 110 when the gate 120 rotates forward and backward And a low water layer upstream of the water gate 120 can be discharged downstream through the lower portion of the water gate 120. [

In the meantime, since the fixed gate 110 and the slide gate 140 constituted as described above are configured to be closed when the angle of the water gate 120 is less than 70 degrees, the low water layer on the upstream side of the water gate 120 It is not discharged. 4 and 8, when the angle of the gate 120 is 70 degrees or more, the fixed gate 110 and the slide gate 140 are spaced apart from each other, So that the lower water layer upstream of the water gate 120 is discharged to the downstream side through the lower portion of the water gate 120.

When the lower end of the fixed gate 110 and the slide gate 140 are opened and the lower water layer upstream of the water gate 120 is discharged downstream through the lower portion of the water gate 120, The gravel or the like including foreign matter or small stones deposited on the upstream low-water layer is discharged to the downstream of the water gate 120 through the open gate between the fixed gate 110 and the slide gate 140. As a result, the low-water layer upstream of the water gate 120 accumulates and can improve the deterioration of the water quality due to turbidity or the deterioration of foreign matter.

When the lower ends of the fixed gate 110 and the slide gate 140 are opened and the lower water layer upstream of the water gate 120 is discharged downstream through the lower portion of the water gate 120, The foreign matter or soil deposited on the bottom of the backside of the watercourse 120 may also be discharged to the downstream of the river so as to prevent the hydraulic cylinder 130 from being shut down or water contamination which may be caused by the accumulation of foreign matter or soil on the bottom surface of the backside of the watercourse 120.

As shown in FIGS. 1 to 8, the movable movable beam 100 of the low water layer discharge structure according to the present invention is installed and fixed on the bottom surface of a waterway between two structures of a waterway, A lower end of the fixed gate 110 is connected to the lower end of the fixed gate 110 via a hinge 122 and the lower end of the fixed gate 110 is connected to the upper end of the fixed gate 110, A plurality of hydraulic cylinders 130 for rotating the gate 120 forward and backward and a plurality of hydraulic cylinders 130 installed at the lower end of the gate 120 for rotating the gate 120, A slide gate 140 that opens the gap between the slide gate 140 and the fixed gate 110 to discharge the low-water layer upstream of the gate 120 downstream, and a watertight seal between the slide gate 140 and the fixed gate 110 And water-tightness means 150.

Therefore, as described above, the movable movable beam 100 according to the present invention is installed in the upper part of the water gate 120 upstream of the water gate 120 through the lower water layer discharge upstream of the water gate 120 through the opening of the slide gate 140 and the fixed gate 110 And the contaminants such as foreign matter and gravel deposited at the lower end of the back surface of the water gate 120 can be discharged downstream of the river to improve the water quality environment.

The constituent elements of the conductive movable beam 100 according to the present invention will now be described in more detail. First, the fixed gate 110 constituting the present invention is for discharging a low-water layer upstream of the water gate 120 to the lower end of the water gate 120, and this fixed gate 110 is formed as shown in FIGS. 1 to 8 And is installed and fixed on the bottom surface of the waterway between the structures of both sides of the waterway, but is formed in a circular arc shape and installed in a lower direction in the downstream direction.

The fixed gate 110 constituted as described above is formed in an arc shape bent downward at the back surface of the gate beam 112 installed across the side beam 114 on both sides of the channel. The arc surface of the fixed gate 110 formed in the circular arc shape is configured such that the inner side faces upward and the end forming the rear end is downward as compared with the front end. At this time, the fixed gate 110 is fixed on the bottom surface of the water channel, so that water tightness is formed between the bottom surface of the water channel and the fixed gate 110.

Next, the water gate 120 constituting the present invention is for regulating the water level upstream of the water gate 120, and the water gate 120 is connected to the fixed gate < RTI ID = 0.0 > (110) is provided on the arc center via a hinge (122) at its lower end so that its upper end is rotatable back and forth.

The water gate 120 configured as described above is normally maintained at an angle of 60 to 70 degrees to store water upstream of the water gate 120. In the same period as the rainy season, the water gate 120 has an angle of 60 degrees or less The water upstream of the water gate 120 is discharged downstream to control the water level upstream of the water gate 120.

The hydraulic cylinder 130 constituting the present invention is for storing water upstream or downstream of the water gate 120 by adjusting the angle of the water gate 120 back and forth. 8 to 8, the water gate 130 is rotated back and forth through operation.

The hydraulic cylinder 130 constructed as described above is installed on both sides of the water gate 120 to adjust the angle of the water gate 120 by rotating the water gate 120 back and forth as shown in FIGS. 1 to 8, 120 on the rear side.

The slide gate 140 constituting the present invention opens or closes the gap between the slide gate 140 and the fixed gate 110 when the front and back angles of the water gate 120 are adjusted to move the low water layer upstream of the water gate 120 to the downstream side of the water gate 120 1 to 8, the slide gate 140 is fixed to the lower surface of the back surface of the water gate 120 and is formed in an arc shape corresponding to the fixed gate 110, 120 to open the gap between the fixed gate 110 and the lower portion of the water level upstream of the water gate 120 so as to be discharged downstream.

The slide gate 140 configured as described above is formed in the shape of an arc corresponding to the fixed gate 110, which is installed toward the fixed gate 110 at the bottom of the back surface of the water gate 120. At this time, the lower surface of the slide gate 140 is positioned on the upper surface of the fixed gate 110 and is slid back and forth when the gate 120 rotates back and forth.

When the angle of the water gate 120 is less than 70 degrees, the slide gate 140 is overlapped with the end of the fixed gate 110 so that the distance between the fixed gate 110 and the slide gate 140 Lt; / RTI > Accordingly, the low-water layer upstream of the water gate 120 can not be discharged downstream of the water gate 120.

In the meantime, when the angle of the water gate 120 is 70 degrees or more, the slide gate 140 configured as described above is opened between the end of the fixed gate 110 and the end of the slide gate 140, Is drained to the downstream side of the water gate 120 through the gap between the opened fixed gate 110 and the slide gate 140.

The gap between the end of the fixed gate 110 and the end of the slide gate 140 is opened to open the lower water layer upstream of the water gate 120 through the gap between the fixed gate 110 and the slide gate 140, 120, drainage is performed along with the low-water layer on the front surface of the water gate 120, and contaminants such as foreign matter and gravel are discharged to the downstream side through the lower end of the water gate 120.

Therefore, when the contaminants such as foreign matter or gravel are discharged to the downstream side through the lower end of the water gate 120 together with the low water layer on the front surface of the water gate 120 as described above, the low water layer contaminated with water and the foreign matter, So that the water quality environment can be improved. In the course of discharging the low-water layer on the front surface of the water gate 120 to the downstream side through the lower end of the water gate 120, contaminants such as foreign matter and gravel deposited on the bottom of the water gate 120 are also discharged to the downstream of the river, It is possible to prevent the hydraulic cylinder 130 from being inoperable due to contaminants such as foreign matters or gravels deposited on the bottom of the back surface.

The watertightness means 150 constituting the present invention allows the watertightness to be achieved when the angle of the water gate 120 is less than 70 degrees and the gap between the slide gate 140 and the fixed gate 110 is closed, The gate watertight means 150 is configured to tightly seal the space between the slide gate 140 and the fixed gate 110 as shown in Figs. 1, 5 to 8.

The gate tightness means 150 for tightly sealing the gap between the slide gate 140 and the fixed gate 110 is disposed toward the arc face of the fixed gate 110 at the end of the slide gate 140, And a watertight pad 150 for allowing a watertight seal to be formed between the slide gate 140 and the slide gate 140. The watertight pad 150 may have a pad groove formed at the end of the slide gate 140 to mount the watertight pad 150 or may be fixed to the end of the slide gate 140 through a bolt and a nut.

9 is a perspective view showing an example of a conductive movable beam to which the present invention is applied.

As shown in FIG. 9, the conductive movable beam 100 to which the present invention is applied has a structure in which the structures are formed at regular intervals on a water channel, and a plurality of water gates 120 are installed between the structures, Or only a part of the gate 120 can be opened.

5 to 7, when the angle of the water gate 120 is adjusted to less than 70 degrees, the movable movable beam 100 according to the present invention having the above- The lower water layer upstream of the water gate 120 is not discharged to the downstream of the water gate 120.

8, when the angle of the water gate 120 is adjusted to an angle of 70 to 90 degrees, the movable movable beam 100 according to the present invention having the above- The gap between the fixed gate 110 and the slide gate 140 is released to the downstream side of the gate 120 through the open gate between the fixed gate 110 and the slide gate 140. [

5 to 7, when the angle between the fixed gate 110 and the slide gate 140 is closed by adjusting the angle of the gate 120 to less than 70 degrees, the fixed gate 110 and the slide gate 140 The sliding gate 140 functions as a shovel in the process of adjusting the angle of the water gate 120 back and forth even if foreign matter or gravel is accumulated in the space formed by the fixed gate 110 and the sliding gate 140 It is possible to smoothly discharge the foreign matter and the gravel upon discharging the low-water layer.

As described above, according to the present invention, when the gate 120 is rotated at an angle of 70 to 90 degrees, the gap between the gate 110 and the gate 140 is opened, The low-water layer is discharged through the open gate between the fixed gate 110 and the slide gate 140.

The technique of the present invention is to discharge the low water layer upstream of the water gate 120 to the downstream side of the water gate 120 through the lower end of the water gate 120 through the opening of the gates 110 and 140, It is possible to smoothly adjust the angle of the water gate 120 by preventing foreign matter or gravel deposited on the lower end of the water gate 120 from being stopped from stopping the operation of the hydraulic cylinder 130.

Also, according to the present invention, the gravels deposited on the front and back sides of the gate 120 can be treated downstream of the river through the gates 110 and 140, so that the foreign matter, So that it is possible to prevent the problem of accumulation of foreign matter or gravel and rot, thereby improving the water quality environment.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100. Conductive type moving beam
110. Fixed gate
112. Gate beam
114. Side beam
120. Hydrology
122. Hinge
130. Hydraulic cylinder
140. Slide gate
150. Gate watertight means (or watertight pads)

Claims (3)

A gate beam installed laterally between side beams installed in the longitudinal direction of the water channel on both sides of the water channel and fixed on the water channel bottom;
A fixed gate having one end fixedly mounted on a rear surface of the gate beam and the other end formed in a downward arc shape and installed in a downward direction;
A water gate disposed between the side beams on both sides of the water channel, the lower end of the fixed gate arc center being installed through a hinge and the upper end being rotatable forward and backward;
A plurality of hydraulic cylinders provided at the side beams at respective angles to rotate the water gate back and forth through operation;
And an arc surface corresponding to the fixed gate is formed to be in contact with the arc surface of the back surface on the upper arc surface of the fixed gate, A slide gate for allowing the low-water layer upstream of the water gate to be discharged downstream; And
And a watertight seal disposed between the slide gate and the fixed gate, the watertight seal being disposed at the end of the slide gate toward the arc surface of the fixed gate to provide watertightness between the fixed gate and the slide gate In addition,
The fixed gate and the slide gate are closed when the angle of the water gate is less than 70 degrees but are opened when the water gate angle is 70 degrees or more, To be drained,
The angle of the water gate is adjusted to less than 70 degrees to adjust the angle of the water gate back and forth even if foreign matter or gravel is accumulated in the space formed by the fixed gate and the slide gate in the process of closing the fixed gate and the slide gate, Wherein the slide gate functions as a shovel to sweep away foreign matter or gravels accumulated in the space formed by the fixed gate and the slide gate, thereby discharging foreign matter or gravel when discharging the low-water layer. Conductive operation of structure. delete delete

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