KR101261692B1 - Turning Type Floodgate - Google Patents

Abstract

The present invention relates to an electrostatic sluice having improved exponentiality, comprising: a sluice (10) for preventing river water flowing from upstream of the river, a rotating shaft (20) fixed below the sluice (10), and the sluice. Support brackets (30) provided on both sides of the (10) to rotatably support the rotating shaft (20), and connected to the rotating shaft (20) and rotated by the cylinder part (50) to stand up the sluice (10). The movable link 40 to be turned over, the cylinder portion 50 composed of a hydraulic cylinder 51 and a piston rod 55 to stand and conduct the movable link 40, and an installation hole H through which the rotating shaft passes It comprises an inner wall (61) provided, the housing bracket 60, the housing bracket 60, the movable link 40 and the cylinder portion 50 is built up, and upstream of the lower portion of the rotating shaft 20 A horizontal base portion 70 arranged side by side and spaced apart from the rotation shaft 20 on the side, the front lower portion 11a of the sluice and the horizontal bay Section 70 to a conductive type of the water gate that comprises a main index material 80 of the elongate shape of the flexible (柔軟 性) for closing the upper surface, characterized index property is improved.

Description

Conductive Hydrology with Improved Exponentiality {Turning Type Floodgate}

The present invention relates to an improved hydrostatic hydrology used to control the flow of water in rivers.

In general, weir refers to a kind of fence for controlling water level in rivers, and these weirs play a very important role in securing agricultural, industrial and domestic water and are widely used at present. In addition, when several beams are installed in the river where the dam can not be installed, the water quantity can be adjusted, and thus it is used as an alternative structure of the middle and large dams.

The types of beams are divided into high information and moving beams, and moving beams are divided into high beam beams and mechanical beam beams. In general, various types of waterways are installed in various related waterways such as rivers and rivers, for use as agricultural or industrial waters, or to reduce the damage caused by floods, either manually, automatically, semi-automatically or in combination. In the case of conventional hydrological gates installed on such a waterway, almost all of them have a complicated structure, which makes it difficult to manufacture, difficult to install, and expensive to manufacture, and once the power unit fails, It is very difficult to repair, and there have been many difficulties in maintenance such as maintenance and maintenance.

The conventional water gate is a rubber material having a long transverse direction in order to index between the bottom of the water gate and the support surface, and the gap between the upper surface of the water gate and the support surface is indexed. However, as shown in FIG. 1, the index member is configured to be in a state of being unfolded in the sluice gate and folded in a standing gate. Due to the bending of the index material during the standing of the water gate, there was a gap between the inner wall shielding the machine room, and water leaked downstream into the gap, thereby preventing complete fresh water.

In addition, the rotating shaft of the sluice penetrates into the inner wall that shields the machine room and is rotated by the support bracket. In this case, the gap between the outer circumferential surface of the rotating shaft and the inner circumferential surface of the installation hole due to the repeated rotation of the rotating shaft even though sealing is performed. There was a problem such that the water penetrates in between and the hydraulic device is damaged. This phenomenon was more severe when water leaked into the machine room when the water was filled near the rotational axis of the floodgate due to the reverse flow of the river water while the floodgate was inverted.

An object of the present invention is to provide an electrically conductive hydrologic with improved water repellency exhibiting excellent fresh water effect by blocking leakage between the side surface of the water repellent material and the inner wall of the machine room.

In addition, the present invention is due to the wear of the sealing material by repeated rotation of the rotating shaft water is introduced into the machine room through a gap existing between the inner surface of the tongue hole of the inner wall of the machine room and the outer peripheral surface of the rotating shaft causing the failure of the hydraulic system The purpose is to provide a conductive hydrology with improved exponentiality that significantly improves the problem.

Conductive hydrology with improved exponential power of the present invention,

A water gate 10 for preventing river water flowing from the upstream of the river, a rotation shaft 20 fixed to the lower portion of the water gate 10,

Support brackets 30 provided on both sides of the sluice 10 to rotatably support the rotating shaft 20, and connected to the rotating shaft 20 and rotated by a cylinder part 50, are provided with the sluice 10. A movable link 40 for standing upside down,

A cylinder part 50 composed of a hydraulic cylinder 51 and a piston rod 55 for standing and conducting the movable link 40;

And a housing part 60 including an inner wall 61 having an installation hole H through which the rotating shaft penetrates, and in which the support bracket 30, the movable link 40, and the cylinder part 50 are embedded. ,

A horizontal base portion 70 disposed side by side and spaced apart from the rotation shaft 20 on an upstream side of the lower portion of the rotation shaft 20;

It is comprised including the main index material 80 of the elongate shape which closes the upper surface 11a of a sluice and the upper surface of the said transverse base part 70.

According to the present invention there is provided an electrically conductive sluice with improved exponentiality, which exhibits excellent fresh water effect by blocking leakage between the side surface of the index member and the inner wall of the machine room.

In addition, according to the present invention due to the wear of the sealing material by repeated rotation of the rotating shaft water around the rotating shaft is introduced into the machine room through the gap between the inner surface of the tongue hole of the inner wall of the machine room and the outer peripheral surface of the rotating shaft, the failure of the hydraulic system Provided is an electrically conductive hydrograph with improved exponentiality that significantly improves the problem that causes this problem.

Figure 1 (a, b) is a conductive hydrological perspective view of the exponential improved according to an embodiment of the present invention.
Figure 2 is a side view of the conductive hydrologic improved prior to the installation of the arc-type push piece according to an embodiment of the present invention.
3 is a side view of the conductive hydrologic improved after the exponential improvement (in accordance with an embodiment of the present invention).
Figure 4 is a detailed front view of the axis index portion according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the conductive hydrometer with improved exponential property according to an embodiment of the present invention will be described in detail. 1 (a, b) is a perspective view of the conductive hydrologic improved the exponential power according to an embodiment of the present invention, Figure 2 is a side view of the conductive hydrological improved improved exponential according to an embodiment of the present invention (arc press Piece before), Figure 3 is a conductive hydrological side view (after the arc-shaped push piece is installed) with improved exponential property according to an embodiment of the present invention, Figure 4 is a detailed front view of the shaft index portion according to an embodiment of the present invention to be.

As shown in Figures 1 to 3, the conductive hydrograph with improved exponent according to an embodiment of the present invention, the water gate 10 for preventing the river water flowing in the upstream of the river, and the water gate 10 The rotating shaft 20 is fixed to the lower portion of the, the support bracket 30 is provided on both sides of the water gate 10 to support the rotating shaft 20 to be rotatable, and connected to the rotating shaft 20 and the cylinder portion A cylinder portion composed of a movable link 40 which is rotated by 50 to erect the water gate 10 upright, and a hydraulic cylinder 51 and a piston rod 55 that erects and upturns the movable link 40 ( 50, and an inner wall 61 having an installation hole H through which the rotating shaft penetrates, and a housing part in which the support bracket 30, the movable link 40, and the cylinder part 50 are embedded. 60 and a horizontal base portion 70 disposed side by side spaced apart from the rotation shaft 20 on an upstream side of the lower portion of the rotation shaft 20; And a main index member 80 having a flexible shape having an elongated shape for closing the front lower portion 11a of the sluice and the upper surface of the lateral base portion 70. The main index member 80 is preferably in a plate shape having a predetermined thickness of rubber material.

As shown in Figure 2, 3, in the conductive hydrograph with improved exponential property according to an embodiment of the present invention, the main index member 80 is one side by the first fixing means (B1) ) Is fixed to the horizontal base portion 70, and the other side is fixed to the front lower portion 11a of the water gate by the second fixing means (B2). The first fixing means (B1) is the second fixing means (B2) is composed of a plate-shaped pressing piece and the bolt or screw for fixing the pressing piece to the upper surface of the sluice or the transverse base (70). In some cases, the first fixing means B1 may be an adhesive.

As shown in Figures 2 and 3, the conductive hydrograph with improved exponentiality according to an embodiment of the present invention is preferably provided with an arc-shaped pressing piece 100 on both sides of the front lower portion (11a) of the water gate. . Arc-shaped pressing piece 100 by pressing the upper surface of the main index member 80, which is rotated and convexly folded (splashing) at the time of standing the gate, the vertical side 80b of the inner wall 61 and the main index member 80 Leakage through the gap between is prevented. (In fact, the inventors have shown that the waterproof effect is almost complete.)

As shown in FIG. 3, in the conductive hydrogate having improved exponentiality according to an embodiment of the present invention, the arc-shaped pressing piece 100 has a forming angle of 30 to 80 ° and is formed to face an upstream direction on the outer circumferential surface thereof. And, the arc pressing piece 100 is supported by the support piece 110 is fixed to the front lower portion 11a of the water gate. The radius of curvature of the arc-shaped pressing piece 100 is preferably 1/5 to 1/2 of the distance W between the first fixing means B1 and the second fixing means B2. The radius of curvature of the arc-shaped pressing piece 100 may be the same radius, but may be formed to change continuously.

As shown in FIG. 4, the rotating shaft 20 of the conductive hydrogate having improved exponentiality according to the embodiment of the present invention is rotatably indexed by the shaft index portion 90 while penetrating the installation hole H. It is preferable to be. As shown in FIG. 4, the axial index part 90 has a tapered circular hollow portion 91a formed at an outer side thereof and a support piece 91b formed at an inner side thereof, so as to have an inner surface 61a of the inner wall 61. A first fixing piece 91 positioned, a second fixing piece 92 positioned on an outer surface 61b of the inner wall 61 so as to correspond to the first fixing piece 91, and the first fixing piece Second fastening means (93) for fastening the second fixing piece (92) and the second fastening member (92), and the index fiber (94) embedded in the tapered circular hollow portion (91a) wound in a plurality in the rotating shaft (20). It is configured to include,

As shown in Fig. 4, the tapered circular hollow portion 91a is preferably tapered in the taper direction. The upper surface of the transverse base portion 70 is positioned higher than the upper end of the first fixing piece 91 so that interference between the longitudinal side 80b of the main index member 80 and the first fixing piece 91 does not occur. It is preferable.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but on the contrary, ≪ RTI ID = 0.0 > and / or < / RTI >

It is to be understood that the appended claims are intended to supplement the understanding of the invention and should not be construed as limiting the scope of the appended claims.

10: sluice 11a: the front lower part of the sluice
20: rotating shaft 30: support bracket
40: movable link 50: cylinder
51: hydraulic cylinder 55: piston rod
60 housing portion 61 inner wall
61a: inner wall inner surface 61b: inner wall outer surface
70: horizontal base portion 80: main index material
80b: vertical index of the main index material 90: shaft index portion
91: first fixing piece 91a: circular hollow portion
92: second fixing piece 93: second fastening means
94: index fiber 100: arc-shaped pressing piece
110: support piece B1: first fixing means
B2: Second fixing means H: Installation hole
W: distance between the first fixing means and the second fixing means

Claims (6)

delete A sluice gate (10) for preventing river water from flowing upstream of the river,
A rotating shaft 20 fixed to the lower portion of the sluice 10;
Support brackets 30 provided on both sides of the sluice 10 to rotatably support the rotating shaft 20,
A movable link 40 connected to the rotation shaft 20 and rotated by the cylinder part 50 to stand up and fall on the water gate 10;
A cylinder part 50 composed of a hydraulic cylinder 51 and a piston rod 55 for standing and conducting the movable link 40;
And a housing part 60 including an inner wall 61 having an installation hole H through which the rotating shaft penetrates, and in which the support bracket 30, the movable link 40, and the cylinder part 50 are embedded. ,
A horizontal base portion 70 disposed side by side and spaced apart from the rotation shaft 20 on an upstream side of the lower portion of the rotation shaft 20;
It comprises a flexible main index member 80 of elongated shape for closing the front lower portion 11a of the water gate and the upper surface of the transverse base portion 70,

One side of the main index member 80 is fixed to the lateral base portion 70 by the first fixing means B1, and the other side of the main index member 80 is connected to the water gate by the second fixing means B2. Fixed to the front lower portion 11a,
Arc-shaped pressing piece 100 is further provided on both sides of the front lower portion 11a of the water gate,
The arc-shaped pressing piece 100 is formed between the inner side wall 61 and the longitudinal side 80b of the main index member 80 by pressing the upper surface of the main index member 80 that is rotated and convexly folded when the water gate stands up. Conductive hydrology with improved exponential characterization, which prevents leakage through gaps. The method of claim 2,
The radius of curvature of the arc-shaped pressing piece 100 is exponential, characterized in that 1/5 ~ 1/2 of the distance (W) between the first fixing means (B1) and the second fixing means (B2). Improved conducting sluice. The method of claim 2,
The rotating shaft 20 is rotatably indexed by the shaft index portion 90 while passing through the installation hole (H),
The axis index unit 90,
The first fixing piece 91 is formed on the inner surface 61a of the inner wall 61 by forming a tapered circular hollow portion 91a on the outside and a supporting piece 91b on the inside thereof,
A second fixing piece 92 positioned on an outer surface 61b of the inner wall 61 to correspond to the first fixing piece 91;
Second fastening means (93) for fastening the first fixing piece (91) and the second fixing piece (92);
The hydrostatic waterway improved hydrostatic characteristics, characterized in that it comprises a number of winding on the rotary shaft 20, the index fiber (94) embedded in the tapered circular hollow portion (91a). 5. The method of claim 4,
The tapered circular hollow portion (91a) is an index-type conductive watermark, characterized in that the tapered in the direction tapered inward. The method of claim 5,
The upper surface of the transverse base portion 70 is located higher than the upper end of the first fixing piece 91 is characterized in that the interference between the main index member 80 and the first fixing piece 91 does not occur Conductive hydrology with improved exponential characterization.

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