KR20170033287A - Device of watergates intaking surface water - Google Patents

Abstract

The present invention relates to a water gate device for taking surface water and, more specifically, relates to a water gate device for taking surface water, which is installed in a door frame in which a water gate is installed or another door frame for emergency in which a water gate for emergency is installed when the water gate is broken. According to an embodiment of the present invention, the water gate device for taking surface water can reduce cold-weather damage of plants or damage from sea wind by taking water warmer than deep water or lower salt water than the deep water.

Description

{Device of watergates intaking surface water}

The present invention relates to a surface water taking-water receiving apparatus, and more particularly, to a water receiving apparatus for receiving surface water, more particularly, a door frame on which a water gate is installed or an apparatus for installing an emergency water gate The present invention relates to a hydrological apparatus capable of taking in surface water that is warmer than deep water and which is warmer than surface water, and which can lower the damage caused by cold or salt damage of plants by taking surface water of lower salinity than deep water.

As shown in FIG. 1, the conventional water gate is structured such that a water gate is provided with a lifting device on the upper side, and a member capable of transmitting power such as a connecting rod or a wire rope is connected between the lifting device and the water gate. When the gate is opened, the water is raised from below by the lifting device, and the water at the bottom of the water gate is introduced first. In other words, deeper water than the surface water flows first and water is taken in.

Generally, in the case of lakes and reservoirs, the surface water is relatively warm compared to the deep part, and the deep water below the water depth is relatively cold and is present in cold water. In the summer, deep seawater will vary in depth but theoretically up to 4 degrees Celsius.

In the case of freshwater lakes adjacent to the sea, it takes a considerable period of time to block the seawater blockage after the construction of the seawall and natural exclusion of the brine, and in some cases, the brine can be introduced through the groundwater. There is also brine. At this time, the brine has a higher specific gravity than fresh water and is located below the water surface. This is the principle that water with heavy specific gravity is located on the lower side when oil and water with different specific gravity are mixed. Therefore, in the case of freshwater lake, near - surface water has relatively low salinity compared to deep water below the freshwater lake.

Taking this into account, when pumping water from a lake or freshwater lake to a pumping station and supplying it as agriculture water, taking deepwater will cause damage to crops and damage to the environment.

DISCLOSURE OF THE INVENTION The present invention has been made in order to solve such a problem, and it is an object of the present invention to provide a waterproof door frame which can easily be detached and removed from a door frame, And to provide a surface water intake hydrologic apparatus capable of being conducted.

In order to solve this problem, the surface water taking-in water gate according to the present invention refers to a surface water taking-in water gate device which can be used by being inserted into a door frame or an emergency door frame and is operated while a part of the water gate is turned to correspond to a management water level or a normal water level.

The present invention, which is devised for surface intake, utilizes a door frame which is simple in structure and installed for hydrological maintenance, and it is easy to install and remove the surface mount water intake door, which is an embodiment of the present invention.

The surface water of the reservoir or lake is warm because it is warmer than the deep water. Therefore, it can prevent the cold damage of the crop when it is supplied to the agricultural water, so that the production of the crop can be improved and the yield and yield of the crop can be increased.

When a reservoir or a lake is constructed on the seashore or the coast by constructing a reservoir or a lake, the salty water of the lake becomes dark over time, and the salty water in the ground gradually melts out over time.

Even in this process, surface water is much salty compared to deep water. In this case, surface water of up to 1280ppm can be supplied to the agricultural waters, where the salinity does not interfere with plant growth.

In addition, it is an embodiment of the present invention that a structure that responds to water level in a variable manner and that is a surface water intake can be solved at a low cost

1C is a cross-sectional view of the watercourse showing the installation state of the conventional watercraft,
Fig. 1P is a top view of a water gate showing the installation state of a conventional watertight door,
1S is a side view of the water gate showing the installation state of the conventional water door,
FIG. 2 is a view of a surface water intake and reception apparatus according to an embodiment of the present invention,
FIG. 3 is another surface water taking-in roller manometer of the embodiment of the present invention,
Fig. 4 is a perspective view of the main body of the present invention,
Fig. 5 is a perspective view of a regulating gate according to the present invention,
6 is a perspective view of the driving unit of the present invention,
7 is a perspective view of the throttle driving portion of the present invention,
8 is a conceptual diagram of the sensor unit and input / output signal control of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, the same technical structures as those of the prior art will be given the same names as they are.

As shown in Figs. 2 to 7, the surface-layer water taking-in and watering apparatus 100 is inserted into a door frame 1 to which a water gate is installed or an emergency door frame 2 to which an emergency water gate A water body 10 having a fixed water gate 11 in which deep-seated water can not be collected, which can be installed or removed and removed from the surface water;

A regulating gate 20 for regulating the flow and the quantity of surface water;

A driving unit (30, 301) for driving a throttle plate (21) of the regulating water gate (20); .

The hydrograph body 10 includes a fixed water gate 11 installed at the lower end of the hydrograph body 10 to prevent the deep water from leaking out; (22), which is composed of a regulating plate rotary shaft (22) connected to a regulating plate (21) rotated in the downstream direction in which water is discharged so as to be taken out of surface water, and a shaft At least one rotary shaft hub (12) coupled thereto; On the upper part of the hydrological main body 10, a driving unit 30 or 301; An installation ring 40 used in installing a surface layer water taking-in and watering apparatus, which is an embodiment of the present invention; A vertical beam 15 installed; As the upper beam 16; .

In addition, as shown in FIG. 3 which is another embodiment according to the present invention, a driving unit 30 or 301 is provided on the upper part of the hydrological main body 10; An installation ring 40 used in installing the surface layer water taking-in and receiving system, which is an embodiment of the present invention; A vertical beam 15 installed; As the upper beam 16; And at least one main roller 13 and side roller 14 are provided on one side surface of the vertical beam 15.

In addition, when the surface water intake and reception apparatus 100 is inserted into the emergency door 2, the deep water located at a deeper position is prevented from flowing out below the fixed water gate 11 installed at the lower end of the water gate main body 10 A stop log (not shown) or an emergency water gate (not shown) is inserted and accumulated to a sufficient height, and then the water gate main body 10 is installed and installed so as to receive surface water.

2, 5 and 7, the regulating gate 20 includes a throttle rotary shaft 22 which is coupled with the rotary shaft hub 12 and rotated on the upper side of the fixed gate 11 of the hydrograph body 10; A throttle plate 21 which is coupled with the throttle plate rotary shaft 22 to adjust the position of the surface layer water to flow in the direction in which the water flows out is placed.

At this time, rotational power is transmitted to the throttle plate driving unit 23 from the driving unit 30 installed at one end of the throttle plate rotation shaft 22.

The throttle plate driving unit 23 includes a worm gear 24 installed in a gear box (not shown) and coupled to the driving unit 30 and the worm 25 through which the driving force is transmitted through the vertical rotation shaft 28; Is established.

The driving unit (30, 301) is a driving device for operating the regulating water door,

As shown in FIG. 6, the driving unit 30 is an electric driving unit driven by an electric motor. The driving unit 30 includes a worm 31 at one end of the horizontal rotary shaft 33; A worm gear 32; And an electric motor 34 is installed at an end of the gear box 35 and is constituted by a vertical rotary shaft 28 connected to the worm gear 32.

The driving force generated by the electric motor 34 is transmitted to the vertical rotation shaft 28 through the worm 31 and the worm gear 32 in the gear box 35 and is transmitted to the throttle plate driving unit 23 connected to the vertical rotation shaft 28 And the control plate 21 connected to the throttle plate rotary shaft 22 is controlled to transfer the water or fluid flow and the flow rate to be discharged to the surface layer water .

As shown in FIG. 2, when the throttle plate 212 of the regulating gate 20 is shifted upward by the driving units 30 and 301, the flow of the fluid is blocked or the amount of the surface water On the other hand, when the water is positioned on the regulating plate 211 whose rotation is adjusted downward to the water surface, it is adjusted to take a large amount of surface water.

The throttle plate driving unit 23 includes a worm 25 in a gear box (not shown) connected to the vertical rotation shaft 28 and a worm gear 24 installed at one end of the throttle plate rotation shaft 22; And the driving force transmitted from the vertical rotary shaft 28 is transmitted to the worm 25 and the worm gear 24 to transmit the driving force acting on the regulating plate 21 of the regulating water gate 20.

In another embodiment, the driving unit 30 is provided with a manual operation handle (not shown) installed on the horizontal rotary shaft 33 so that the manual operation can be performed manually. The driving unit 30 can also be manually operated and electrically driven by the electric motor 34.

The driving unit 301 transmits a driving force transmitted from the driving unit 30 to the vertical rotary shaft 28 through the horizontal rotary shaft 33 and a rotational force is transmitted to the adjusting plate driving unit 23, The control panel 21 of the water gate 20 is operated.

In yet another embodiment, the electric motor 34 in the drive 30 may also be driven by a hydraulic motor.

  The control unit 21 of the regulating unit 20 includes a sensor unit 50; In addition,

The sensor unit (50) includes: a temperature sensor (51) for detecting the temperature of the surface layer water to be taken;

A salinity sensor 52 for measuring the concentration of saline in the water to be taken; Respectively.

The sensor unit 50 will be described in detail with reference to the sensor unit of the present invention and the input / output signal control conceptual view of the embodiment of the present invention.

The temperature detected by the temperature sensor 51 is displayed on the display unit 570 by the signal array on the controller 550 via the temperature detector 510,

Also, the salinity detected by the salinity sensor 52 is displayed on the display unit 570 by the signal array on the controller 550 via the salinity detector 520, so that the operator recognizes the salinity.

At this time, if the operator is in a state where the temperature of the inflow water is too cold to cause a risk of cold weather, or if the saltiness is higher than the set value,

 An alarm is sounded in the alarm unit 560,

Also, when a drive value or a signal inputted to the input unit 580 is inputted, the pump 57 may stop or operate the pump 57 by transmitting a signal through the controller 550 and the pump driving unit 540,

When a driving value or a signal inputted to the input unit 580 is inputted, the driving unit 30 interlocked with the control gate 20 flowing through the controller 550 and the hydrographic apparatus driving unit 530 is driven, Or to control the surface layer water taking-in hydrologic apparatus 100 so that lower-salt water can be introduced.

As an embodiment of the present invention, the surface water taking-in water gating device for taking in surface water that can reduce the cold damage or the damage of the plants by taking warmer water than deep water or low-salt water compared to deep water, It can also be used for hydrological or agricultural water pumping stations that take surface water, water intake towers that take hot water, and water treatment plants.

1. Door frame 2. Emergency door frame
10. Water main body 11. Fixed water gate
12. Rotor hub 13. Main roller
14. Side roller 15. Vertical beam
16. Top beam
20. Adjustable water gate
21. Throttle plate 22. Throttle plate rotary shaft
30. Drive 31. Worm
32. Worm Gear
100. Surface water intake hydrologic system

Claims (2)

Surface water intake
(1) and an emergency door frame (2), and a fixed water gate (11) in which a deep water can not be collected is provided at the lower side of the water gate main body (10);
A regulating gate 20 for regulating the flow and the quantity of surface water;
A driving unit (30) for driving the regulating plate (21) of the regulating water gate (20); (100). ≪ / RTI >

The method according to claim 1,
At least one temperature sensor (51) for detecting the temperature of water to be taken into the regulating plate (21) of the regulating gate (20);
Or at least one salinity sensor (52) for measuring a salinity concentration of water to be taken out;
To the sensor unit 50 to be installed; (100). ≪ / RTI >

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