KR101880436B1 - Sluice gate apparatus - Google Patents

Abstract

A passenger gate device capable of realizing smooth elevating operation of a watercraft is disclosed.
The guide rail includes a guide rail installed on the inner side wall of the water channel, a water gate capable of moving up and down along the guide rail to open and close the water channel, a lifting beam connected to the upper end of the water gate and a winch for lifting and lowering the lifting beam, A bypass flow path for guiding the water moving in the water channel to the lower portion of the guide rail and removing the foreign substances deposited on the guide rail can be formed.

Description

{SLUICE GATE APPARATUS}

The present invention relates to a hydrologic apparatus.

Generally, irrigation canals, rivers and reservoirs are used for the purpose of storing a certain amount of water and using it when necessary in order to appropriately utilize agricultural management or irrigation water.

For example, since it takes a lot of cost to construct a reservoir, it is necessary to install a hydrological gate in the channel and use it as a sub-reservoir. In practice, when a waterway is installed in a waterway to store water, a large amount of water can be stored in one waterway, and if it is applied to several waterways, water storage capacity exceeding a small reservoir can be secured.

Such a waterway is equipped with a gate for controlling the opening and closing of the gate. When the water level is low, water can be stored in the water channel. When the rain rate is low, water can be discharged and managed in the water channel.

However, in the conventional hydrologic apparatus, foreign matter such as soil or organic matter is accumulated on the guide rails while water escapes through the guide rails guiding the lifting and lowering of the water gate. If the foreign matter accumulates on the guide rails, the lifting and lowering operation of the water gate may not be smooth, the water channel may not be intercepted stably, and the water gate may not completely fall down to the bottom surface of the water channel, .

Therefore, there is a need for a technique for effectively removing foreign matters accumulated in the guide rails of the hydrologic apparatus.

Registration Utility Model Bulletin No. 20-0430360 (Registered on October 31, 2006)

Embodiments of the present invention are intended to provide a hydrologic apparatus capable of minimizing the accumulation of foreign matter in a guide rail in which a float is lifted and lowered, thereby achieving a smooth lifting operation of the float.

According to one aspect of the present invention, a hydromechanical device comprises: a guide rail installed on an inner wall of a waterway; A water gate capable of moving up and down along the guide rail to open and close the water channel; A lifting beam connected to the top of the water inlet; And a hoistway for lifting and lifting the lifting beam, wherein a bypass flow path for guiding water moving through the waterway to a lower portion of the guide rail and removing foreign substances deposited on the guide rail is formed in the water gate have.

At this time, an inflow hole for guiding the water to the inside of the guide rail is formed at a lower portion of the guide rail, at a bottom of the water channel, and an inflow hole May be formed so as to communicate with the bypass flow path.

In addition, the inflow hole may be positioned on the lower surface of the guide rail so that the inflow hole is directed in a direction opposite to the flow in which the water moves.

In addition, the inlet may be formed shorter in the vertical direction than the inlet hole to receive the water through the inlet hole for a certain period of time during which the watercourse descends.

The bypass flow path may include a flow path inlet through which the water flows through the inlet port; A flow path changing portion for changing the flow of the water supplied from the flow path inlet portion in the vertical direction in the horizontal direction and a flow path expanding portion for spreading the water in a downward direction to widely spread the water guided path.

The present invention relates to a support frame which connects the lower ends of a pair of spaced guide rails and which can be supported on the bottom surface of a waterway; And a stationary frame connecting upper ends of the pair of guide rails so that the winch is installed.

Embodiments of the present invention have an advantage in that water stored in a water channel is used for agricultural water in a drought, and water can be effectively discharged for discharging when there is a large amount of rain by storing water in the agricultural water channel through the water gate.

Further, the embodiments of the present invention are advantageous in that the accumulation of foreign matter on the guide rails can be minimized, so that the lifting and lowering operation of the water gate can be smoothly performed and the water storage performance of the water through the water channel can be improved.

In addition, the embodiments of the present invention have an advantage in that foreign matter accumulated in the guide rails can be effectively wiped off by using the water of the water channel by being connected or blocked to the inflow hole of the guide rail with a parallax.

In addition, the embodiments of the present invention have an advantage in that foreign matter deposited on the rails can be quickly and conveniently removed through the process of lowering the water gate, so that it is unnecessary to remove the foreign matter separately.

1 is a block diagram illustrating a hydrologic apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a lower portion of a guide rail before a water gate is closed, in a hydrologic gate apparatus according to an embodiment of the present invention.
Fig. 3 is a cross-sectional view cut along the "AA"
4 is a cross-sectional view showing a state immediately before a water gate is closed in a water gate apparatus according to an embodiment of the present invention.
FIG. 5 is a cross-sectional view illustrating a state in which a water gate is closed after a foreign matter deposited on a guide rail is removed in a water gate apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, configurations and operations according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The following description is one of many aspects of the claimed invention and the following description may form part of the detailed description of the invention. However, the detailed description of known configurations or functions in describing the present invention may be omitted for clarity.

While the invention is susceptible to various modifications and its various embodiments, it is intended to illustrate the specific embodiments and the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

And terms including ordinals such as first, second, etc. may be used to describe various elements, but the constituent elements are not limited by such terms. These terms are used only to distinguish one component from another. It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

FIG. 1 is a configuration view showing a hydrologic apparatus according to an embodiment of the present invention. FIG. 2 is an enlarged view of a lower portion of a guide rail before a hydrant is closed in a hydrologic apparatus according to an embodiment of the present invention And Fig. 3 is a cross-sectional view cut along the line segment of "AA" in Fig.

1 to 3, the guiding rail 100 according to the embodiment of the present invention includes a guide rail 100, a water gate 200, a lifting beam 300, a winch 400, a support frame 500, And may include a mounting frame 600. Here, the gates can be installed in waterways 10 ranging from tens of meters to several hundreds meters in which the agricultural water is moved, and the waterways 10 partitioned by the hydrological devices can be used as sub-reservoirs .

Specifically, the guide rail 100 may be provided as a rail for providing a movement path of the water gate 200, and may be provided in the form of a "C" In the open space of the guide rail 100, the lift gate 200 can be moved up and down by the lifting beam 300.

The guide rails 100 may be configured as a pair of opposite side walls of the water channel 10. Each of the guide rails 100 may be installed vertically in the inner wall of the water channel 10 and the support frame 500 and the stationary frame 600 may be connected to the lower and upper ends of the guide rail 100, respectively .

The support frame 500 may be connected to the lower ends of a pair of guide rails 100 so that the support frame 500 is supported on the bottom surface of the water channel 10, The upper end of the guide rail 100 can be connected. The pair of guide rails 100, the mounting frame 600, and the support frame 500 may be provided as a rectangular frame as a whole.

An inflow hole 101 may be formed in the lower portion of the guide rail 100 to guide a part of the water passing through the hydrological apparatus to the inside of the open space of the guide rail 100. The inflow hole 101 is a slit extending along a longitudinal direction of the guide rail 100 by a predetermined length (for example, about 30 cm). The inflow hole 101 has a predetermined height (for example, about 30 cm) Lt; / RTI >

At this time, the inflow hole 101 can be positioned on the lower surface of the guide rail 100 so as to face the opposite direction of the water flow moving along the water channel 10. Water traveling along the side wall of the water channel 10 can be introduced into the space in which the guide rail 100 is opened through the inflow hole 101 of the guide rail 100. [

Particularly, when the inflow hole 101 of the guide rail 100 and the inflow opening 201 of the water gate 200 are matched with each other (see FIG. 4), the water moving along the side wall of the water channel 10 is guided by the guide rails 100 Through the inflow hole 101 of the floodgate 200 and the inflow opening 201 of the floodgate 200 and then through the bypass flowpath 210 to the downward direction of the floodgate 200 The foreign substances S deposited on the lower portion of the guide rail 100 can be removed.

The water gate 200 is a door for opening and closing at least a part of the water channel 10 and may be formed in a shape corresponding to the shape of both side walls and bottom surface of the water channel 10. For example, the water gate 200 may be made of a rectangular-shaped door that can open and close the lower portion of the water channel 10 of the "U" shape.

A pair of lifting beams 300 can be connected to both ends of the water gate 200 and an inlet 201 capable of matching the water inlet hole 101 of the guide rail 100 is formed below both sides of the water gate 200 .

The inlet 201 may be selectively matched to the inlet hole 101 of the guide rail 100 when the gate 200 is lifted or lowered and the inlet 201 may be connected to the inlet of the bypass passage 210 (Not shown).

The length of the inlet 201 may be shorter than the length of the inlet hole 101. Therefore, during a certain time (for example, about one minute) during which the inlet 201 of the water gate 200 and the inlet hole 101 of the guide rail 100 are matched with each other when the water gate 200 descends, The water supplied to the inlet 201 is discharged to the lower portion of the water gate 200 through the bypass passage 210 and is discharged to the lower portion of the guide rail 100 The deposited foreign matter S can be removed.

To this end, the bypass flow path 210 includes a flow path inlet 211 for guiding the flow of water supplied from the inlet 201 in the horizontal direction and a flow path for flowing water supplied from the flow path inlet 211 in the vertical direction And a flow channel expanding unit 213 for distributing the water supplied from the flow channel changing unit 212 downward through a structure in which the water path is widely extended.

The lifting beam 300 may be configured as a pair connected to the upper end of the water gate 200 and may be raised and lowered by receiving a driving force from the win- The lifting beam 300 may be a rack bar drivingly coupled with the win- dow 400 in a rak & pinion manner.

Here, the lifting beam 300 is drivingly coupled to the hoisting machine 400 in a rak & pinion manner, but can be drive-coupled to the hoisting machine 400 in various ways other than the rak & pinion method. For example, the lifting beam 300 may be drive coupled with a drive actuator, such as a hydraulic cylinder.

The hoist 400 is a driving device for lifting and lowering the lifting beam 300 and can move the lifting beam 300 up and down using the rotational force of the handle 420. [ For example, the hoist 400 includes a body 410 coupled to the lifting beam 300 at one side in a recreational & pinion manner, a handle 420 rotatably installed at one side of the body 410, And a transmission gear 430 and a transmission shaft 440 that transmit the driving force generated by the transmission 420 to the lifting beam 300 located at the other side.

In the present embodiment, the hoist 400 has a structure in which the lifting beam 300 is lifted and lowered using the driving force of the handle 420, but the present invention is not limited thereto, and the hoisting beam may be lifted by using the driving force of an electric motor It can be raised and lowered.

Hereinafter, the operation of the present invention will be described.

FIG. 4 is a cross-sectional view illustrating a state immediately before a water gate is closed in a hydrologic gate apparatus according to an embodiment of the present invention. FIG. 5 is a cross-sectional view illustrating a foreign matter S deposited on a guide rail, Fig. 5 is a cross-sectional view showing a state in which the gate is closed after the gate is removed.

First of all, the numerical controller according to the present invention is installed to partition the water channel 10. The water level is designed to have the same width as that of the waterway 10 and the bottom of the waterway system is installed in the waterway 10 so as to be in close contact with the bottom surface of the waterway 10.

The waterway 10 partitioned by the hydrological apparatus can be utilized as a sub-level reservoir. For example, when fresh water of water is required, water can be stored in the water channel 10 by blocking the water channel 10 through the closure of the water gate 200, The water stored in the water channel 10 can be flowed along the water channel 10 by opening the water channel 10.

At this time, a foreign matter (soil or fine organic matter) moving along the water channel 10 can be deposited on the guide rail 100 of the hydrologic apparatus. When the foreign matter S is accumulated on the guide rail 100, 200 may be obstructed by the foreign matter S or the water gate 200 may not be completely closed, so that the water storage performance of the water channel 10 using the water gate apparatus may be deteriorated.

However, in the hydrologic apparatus according to the present invention, a part of the water passing through the hydrologic apparatus flows through the bypass passage 210, so that the foreign matter S deposited on the guide rail 100 can be effectively removed.

For example, in the state in which the water channel 10 is opened (see FIG. 3) before the water gate 200 is closed, water that has passed through the inlet hole 101 of the guide rail 100 moves again along the water channel, The water that has passed through the inflow hole 101 of the guide rail 100 is discharged from the water gate 200 in a state where the inflow hole 101 of the guide rail 100 is matched with the inflow hole 201 of the water gate 200 The guide rail 100 is inserted into the open space of the guide rail 100 through the inlet 201 of the guide rail 100 and then moved to the lower portion of the guide rail 100 through the bypass passage 210. Thus, The foreign matter S deposited on the lower portion of the guide rail 100 can be effectively removed by the water discharged from the bypass passage 210. [

As described above, according to the present invention, water stored in an agricultural water channel is stored through a water gate, water stored in the water channel is used as agricultural water in a drought, effluent water can be effectively discharged by discharging the water when the amount of rain is large, It is possible to smoothly move up and down the water gate and to improve the water storage performance of the water through the water channel and to prevent the water inlet port from being communicated with the inflow hole of the guide rail Therefore, it is possible to effectively remove the foreign matter accumulated in the guide rail by using the water of the waterway, and it is possible to quickly and conveniently remove the foreign matter deposited on the rail through the process of lowering the water gate, And the operation is unnecessary.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

100: guide rail 200:
210: bypass passage 211:
212: flow path changing section 213: flow path expanding section
300: lifting beam 400: hoist
500: support frame 600: mounting frame

Claims (6)

A guide rail installed on an inner wall of the water channel;
A water gate capable of moving up and down along the guide rail to open and close the water channel;
A lifting beam connected to the top of the water inlet; And
And a hoist for lifting the lifting beam,
The water gate
A bypass flow path for guiding the water moving in the water channel to a lower portion of the guide rail and removing foreign substances deposited on the guide rail is formed,
In the lower portion of the guide rail
An inlet hole for guiding the water to the inside of the guide rail is formed apart from a bottom surface of the water channel,
Below the water inlet
An inlet port that is selectively matched with the inflow hole is formed to communicate with the bypass flow path when the watercraft is moved up and down,
The bypass flow path
A flow path inlet through which the water is introduced through the inlet;
A flow path changing part for changing the flow of the water supplied from the flow path inlet part in the vertical direction in the horizontal direction;
And a flow channel expanding part for expanding the water guided path widely to distribute the water downward.
delete The method according to claim 1,
The inflow hole
Is positioned on a lower surface of the guide rail (12) so that the water (12) is directed in a direction opposite to the flow direction of the water.
The method according to claim 1,
The inlet
Wherein the water supply device is formed to be shorter in the vertical direction than the inflow hole in order to receive the water through the inflow hole for a certain period of time during which the watercourse descends.
delete The method according to claim 1,
A support frame connected between the lower ends of the pair of guide rails spaced apart and capable of being supported by the bottom surface of the channel; And
And a mounting frame connecting upper ends of the pair of guide rails so that the hoisting machine is installed.

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