KR200199882Y1 - Door type automatic flood-gate - Google Patents

Abstract

The present invention relates to a water gate installed in a reservoir or a dam, and to provide a side-cylindered door type automatic watermark device that is vertically raised to a certain height when the water gate is opened and then rotated to be fully opened.

The present invention as described above is a water gate positioned perpendicular to the opening of the dam; A fixed shaft fixed to one side of the opening of the dam and serving as a rotation center when opening and closing the water gate; A hinge rod connected to the water gate and installed on the fixed shaft to allow the water gate to rise and rotate; A closing holding means installed between the floodgate and the dam to maintain the closed state of the floodgate; Ascending inducing means installed to allow the water gate to move upward to achieve opening; The water gate is characterized by consisting of a rotation induction means installed to achieve a full opening by rotating movement after a certain period of rise.

Description

Door type automatic flood-gate}

The present invention relates to a water gate installed in a reservoir or a dam, and more particularly, to a side-cylindered door type automatic water gate device which vertically rises to a certain height when the water gate is opened and then rotates to be fully opened.

In general, dams, reservoirs, and waterways that store a lot of water are equipped with hydrologic gates to control the amount of water stored.

1 is a side schematic view showing a water gate according to the prior art.

The conventional water gate is installed so that the upper end of the water gate 1 is fixed by the hinge 2 and the lower end thereof can be opened by water pressure in the reservoir when the water gate is opened.

When the water pressure in the reservoir increases, the water gate 1 is opened around the hinge 2 so that the stored water is discharged to control the water storage amount.

However, since the floodgate 1 of the prior art has a large amount of foreign matter on the upper part of the floodgate when a large amount of rain occurs, water leakage occurs when the floodgate is closed, or it is necessary to manage to remove the foreign matter and the water passage cross-section completely opens the floodgate. It is smaller by the thickness of the gate compared to when.

Figure 2 is a side schematic view showing another conventional water gate.

Another conventional water gate (5) has a lower end of the water gate (5) is fixed to the hinge (4) so that when the water gate (5) is opened, the water gate (5) can be completely opened to achieve a large amount of water Suitable for draining

However, since the conventional water gate 5 discharges the usual fresh water over the water gate, which has a small amount of water discharged, foreign substances settle at the bottom of the reservoir or the river. Oh, there is a problem of increasing pollution.

The present invention has been made to solve the above problems of the prior art, the purpose of which is to vertically rise to a certain height when the water gate is opened and then rotated to be fully opened so that the discharge of water starts from the bottom of the water gate to contaminate the water It is to provide a side-cylindered door type automatic sluice system that can prevent flooding and maximize the cross-section of the flood gate by fully opening the sluice in the event of a flood.

<Explanation of symbols on main parts of the drawings>

10: sluice 12: hinge rod

14: fixed shaft 20: guide roller

21: stopper 22: escape groove

23: guide groove 24: guide pin

30: hydraulic cylinder 32: support plate

40: side cylinder 42: cylinder guide pin

44: side cylinder bracket 50: cushioning material

60 sealing member 70 H beam

80: water level sensor

The present invention for solving the above problems and the water gate is located perpendicular to the opening of the dam; A fixed shaft fixed to one side of the opening of the dam and serving as a rotation center when opening and closing the water gate; A hinge rod connected to the water gate and installed on the fixed shaft to allow the water gate to rise and rotate; A closing holding means installed between the floodgate and the dam to maintain the closed state of the floodgate; Ascending inducing means installed to allow the water gate to move upward to achieve opening; The water gate is characterized by consisting of a rotation induction means installed to achieve a full opening by rotating movement after a certain period of rise.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in detail.

3 is a plan view showing a hydrological device according to the present invention and Figure 4 is a front view of a hydrological device according to the present invention and Figure 5 is a plan view, a front view, 6 is a side view, and Fig. 6 is a side schematic view showing a hydrological device according to the present invention.

The door type automatic sluice device according to the present invention has a sluice (10) installed perpendicular to the opening of the dam, and a fixed shaft (14) which is fixed to one side of the opening of the dam to become a rotation center when the sluice (10) is opened and closed. And, the hinge rod 12 is connected to the sluice 10 is formed on the circumferential surface of the 'b' shaped guide groove 23 is bent toward the center of the sluice 10.

Here, as the retaining means of the water gate 10 when the water gate 10 is upward movement, one side is fixed to the dam and the other side is fitted into the guide groove 23 of the hinge rod 12 to the water gate ( A guide pin 24 for suppressing the rotational movement of 10) and a stopper 21 installed between the dam and the water gate opposite to the hinge rod 12 to maintain the closed state of the water gate 10 are provided. .

In addition, a pair of hydraulic cylinders which push open the pair of support plates 32 and the pair of support plates 32 protruding from the front surface of the water gate 10 as an ascending inducing means of the water gate 10. 30 is installed, as a rotation guide means to achieve a fully open by the rotation of the water gate 10, the side cylinder is installed in the horizontal direction on the front of the water gate 10 to induce the rotational movement of the water gate 10 40 and a cylinder guide pin 42 is installed on the front of the water gate 10 to transmit the rotational force.

The sluice 10 is formed in a wide panel shape so that the hinge rod 12 is formed on one side to form a rotation center when the sluice is opened, and the other side is installed to move along the stopper 21 on the other side of the sluice 10 While the ascent is smoothly achieved, the stopper 21 is caught by the stopper 21 while the water gate 10 is in a linear upward movement. A plurality of guide rollers 20 capable of suppressing copper are formed.

In addition, a pair of support plates 32 protrude from the front side of the water gate 10 so as to support the upward movement of the water gate 10 at both side ends thereof, and the support plate 32 of the hinge rod side is formed. Even when the sluice is rotated, it is formed to protrude in a fan shape so as to be in contact with the upper surface of the hydraulic cylinder 30.

In addition, the front surface of the water gate 10 is installed in a horizontal direction to induce a rotational movement of the water gate 10, and protrudes in a vertical direction to the front of the water gate 10, the side cylinder The cylinder guide pin 42 hinged so that the rod of the 40 can be moved in the up and down direction, and one side is fixed to the hinge so as to rotate the body of the side cylinder 40, the other side is fixed to the opening side of the dam Side cylinder bracket 44 is installed.

The hinge rod 12 is formed in a cylindrical column shape and is covered with the fixed shaft 14 fixed to one side of the opening of the dam to be installed at one side of the water gate 10, and the guide pin 24 is fitted to the water gate 10. Guide groove 23 for suppressing the rotational movement of the) is formed.

Here, the guide groove 23 is formed in a straight line from the upper side to the lower side of the hinge rod 12, the subsequent section is the outer side of the sluice 10 so that the sluice 10 is rotatable. It is formed as a straight line horizontally inward.

One side of the guide pin 24 is fixed to the H beam 70 installed as a pillar in the dam, and the other side of the guide pin 24 is inserted into the guide groove 23 so that the water gate 10 moves in the front-rear direction. Fixed so as not to support the sluice 10 At the same time as preventing the deformation of the fixed shaft (14), the rotational movement of the water gate (10) is suppressed when the water gate (10) is vertically upward movement, and at the same time in a straight line in the horizontal direction of the guide groove (23) When reaching, the water gate 10 is installed to be rotated.

The stopper 21 is formed in a long rod shape and is installed at a gap between the dam and the water gate 10 generated by the formation of the guide roller 20 to restrain the left and right movement of the guide roller 20. To be installed.

Here, the stopper 21 is the guide roller 20 where the guide roller 20 is moved upward by the same distance that the guide pin 24 moves the straight section of the guide groove 23. Breakaway grooves 22 are formed in such a size that they can escape.

In addition, a sealing member 60 using a packing material such as rubber is installed in the opening of the dam so that water does not leak in the closed state of the water gate 10.

The sealing member 60 is installed by curve processing so as to be in close contact between the dam and the water gate 10 by hydraulic pressure.

Looking at the operation of the present invention configured as described above are as follows.

First, the water level is checked by the detection sensor 80 for measuring the water level of the dam, and when a predetermined water level is exceeded, an electrical signal is sent to the hydraulic cylinder 30 to raise the water gate 10.

When the hydraulic cylinder 30 is operated to push the support plate 32, the sluice 10 is vertically raised, and the sluice 10 starts to open from the lower end of the sluice 10.

At this time, since the hydraulic cylinder 30 is installed in pairs at both side ends of the sluice 10, the load of the sluice 10 is evenly distributed so that durability of the sluice device can be improved. Since the opening is made, impurities deposited at the bottom of the reservoir can be discharged together.

Even if the water level is not adjusted and continues to increase due to such an action, the hydraulic cylinder 30 continues to push up the water gate. Then, when the water gate rises above a certain level, the hydraulic cylinder 30 is stopped and the side at the same time. The cylinder 40 is operated to rotate the floodgate 10 so that the floodgate 10 is fully open.

The guide roller 20, which is restrained by the stopper 21 at the same time as the rotational movement of the water gate 10 starts, is separated through the release groove 22 formed in the stopper 21, and the guide pin ( 24) also passes the straight portion in the vertical direction and the straight portion in the horizontal direction, so that the rotational movement of the water gate 10 can be carried out.

When the water gate 10 is opened as described above, the dam opening is completely opened to release a large amount of water, and the open water gate 10 can be prevented from being damaged by the buffer member 50 installed in the dam. To be installed.

Subsequently, when the discharge of water continues to reach a predetermined level or less, the electrical signal sensed by the water level sensor 80 is transmitted, and the water gate 10 is rotated and closed by the operation of the side cylinder 40.

In addition, if the water level is continuously lowered, the electrical signal sensed by the water level sensor 80 is transmitted, the water gate 10 is lowered by the operation of the hydraulic cylinder (30). To achieve a complete closure.

The present invention configured as described above is installed by the induction means on both sides of the water gate, by installing the rotation induction means in the horizontal direction on the front of the water gate, the ascending induction means to share the load of the water gate to operate, the bottom of the water gate By opening from the water can improve the durability of the gate, it is possible to achieve the water level control to prevent environmental pollution, and in the event of flooding, the gate is fully open, there is an advantage to maximize the cross-section.

Claims (4)

A sluice positioned perpendicular to the opening of the dam; A fixed shaft fixed to one side of the opening of the dam and serving as a rotation center when opening and closing the water gate; A hinge rod connected to the water gate and installed on the fixed shaft to allow the water gate to rise and rotate; A closing holding means installed between the floodgate and the dam to maintain the closed state of the floodgate; Elevation induction means installed at both front end portions of the front gate to induce an upward movement of the flood gate; The door-type automatic watermark device, characterized in that it is installed in the horizontal direction in the center of the front of the water gate to the rotation induction means for inducing a rotational movement to achieve a full opening. The method of claim 1, The closing and holding means includes: a guide roller which protrudes from the water gate to allow the water gate to move up and down easily along the opening of the dam; A stopper which protrudes from the dam to prevent the guide roller from being separated so that the closed state of the water gate is maintained and the release groove is formed so that the water gate can be opened when the water gate rises above a certain level; A predetermined section is formed in a straight line from the upper side to the lower side of the hinge rod, and the guide section is formed in a straight line in the inward direction from the outside of the water gate; One side is fixed to the side of the dam opening and the other side is inserted into the guide groove so that the water gate Door type automatic hydrologic device, characterized in that consisting of a guide pin to suppress the rotational movement during the upward movement. The method of claim 1, The lift guide means includes a pair of support plates protruding in the horizontal direction from both side ends of the water gate; The door-type automatic hydrogate device is installed on the bottom surface and comprises a pair of hydraulic cylinders are installed so as to raise the support plate at the time of opening the water gate to maintain the horizontal level. The method of claim 1, The rotation guide means includes a cylinder guide pin protruding on the front of the water gate to transmit a rotational force to the water gate; A side cylinder hinged to the cylinder guide pin in a horizontal direction to induce rotational movement; One side is fixed to the side of the dam opening in which the fixed shaft is located, the other side is a door-type automatic watermark device, characterized in that consisting of a side cylinder bracket for rotatably hinged side cylinder.