KR200386545Y1 - Drainage of floodgate - Google Patents

Abstract

The present invention relates to a drainage gate, and relates to a drainage system for draining water by operating a discharge pump installed in the gate in the state of closing the gate.

The present invention is to install a discharge pump for discharging the water to the drainage gate, the discharge plate is installed to block the discharge port is installed, the discharge pump is operated by the rotational force transmitted from the gear box, the discharge The motor that drives the pump is installed at the upper part of the sluice, but the rotational force of the motor is made to be transmitted to the gearbox by the power transmission means. It is to prevent the occurrence.

Description

Drainage of floodgate

The present invention relates to a drainage gate, and relates to a drainage system for draining water by operating a discharge pump installed in the gate in the state of closing the gate.

In order to drain the lowland water into the river, a sluice is installed at the dike between the drainage basin and the stream.If the water level is low, the sluice is opened so that the drainage water can be discharged as it is. As the water flows back to the drainage basin, the drainage water is closed to prevent backflow and to drain the drainage basin into the stream.

Existing drainage pumps are installed on the banks so that water from the drainage tanks can be drained to the banks and discharged to the rivers. It required a lot of construction and electricity, costly maintenance, and need a reservoir for temporary water collection, which required a lot of land and manpower to construct and manage a single drainage pumping station.

In order to solve this problem, by forming an outlet at the gate of the drainage gate and installing a submersible pump inside the outlet, a heavy rain occurs to operate the submersible pump in the closed state, so that water can be discharged to the river, Since water can be discharged without having an oil reservoir, the installation cost is greatly reduced, and the installation and management of the pump station is easy.

However, when the water pump is used to drain the water directly through the gate of the drainage gate, it is necessary to pay special attention to the leakage of the water pump due to the use of the water pump. On the other hand, since the size of the submersible pump is large enough to block the discharge port, the amount of water discharged is small, so it is not suitable for discharging a large amount of water in a short time. If the submersible pump failed, there was no way to fix it and had to wait for the water to drain naturally.

The present invention is to install the discharge pump in the drainage water gate to operate the discharge pump in the state of closing the water gate to drain the water while the discharge pump is rotated by the power transmitted from the gearbox, the gearbox It is made by transmitting power from the motor installed in the upper part of the water gate, and the motor which operates the discharge pump is not located in the water, which prevents a short circuit, and it is easy to repair in case of failure, while the submersible pump covers the discharge port. Therefore, installation is simple and the emission per unit time can be increased.

The present invention is to install a discharge pump for discharging the water to the drainage gate, the discharge plate is installed to block the discharge port is installed, the discharge pump is operated by the rotational force transmitted from the gear box, the discharge The motor for driving the pump is installed on the upper part of the sluice, but the rotational force of the motor is made to be transmitted to the gearbox by the power transmission means, and it is possible to secure a discharge port without using an underwater motor to discharge a large amount. On the other hand, it is easy to install, cost and easy to manage, and to prevent the occurrence of accidents due to short circuit.

The present invention is to install the discharge pump 25 in the water gate 10 in the drainage gate 10 to block the backflow of the water in the event of heavy rain to the discharge pump 25 in the state in which the gate 10 is closed To discharge water but the discharge pump 25 is to be rotated by the rotational power of the motor 40 installed in the hydrologic structure 11, the discharge pump 25 is coupled to the gearbox 30 It is configured to be rotated by the rotational force of the gearbox 30, the gearbox 30 is configured to transmit the rotational power of the motor 40 by the power transmission means.

The drainage gate 10 is to be installed on the embankment 1, and after installing the square frame-type hydrological structure 11 in concrete or the like, the hydrological frame 2 is installed inside the hydrological structure 11, The sluice frame 2 is provided with a sluice 10, and after the rod 12 is installed at the top of the sluice 10, the rod 12 is mounted on a winch 15 installed at the top of the sluice structure 11. It is installed to be coupled, by operating the known hoist (15) to lift the rod 12, the sluice (10) is to move to the top by the sluice frame (2).

Here, the drainage gate 10 is a water gate having a general structure installed in the drainage pumping station, and the lifting device 15 for raising and lowering the gate 10 is manually or automatically loaded by using power such as a manpower or a motor 12. ) Is a known device for raising and lowering.

The water gate 10 is formed in the discharge port 21 through which water flows, and a water pump is installed inside the discharge port 21 to operate the water pump while the water gate 10 is closed to discharge the water into the river. The submersible pump is expensive equipment and is difficult to repair in case of failure, and a short circuit accident may occur.

Therefore, the present invention is to install the discharge pump 25 for discharging the water in the discharge port 21, the discharge pump 25 is rotated by the power transmitted from the gear box 30 to discharge the water However, the outlet 21 is installed in such a way that the inclined blocking plate 22 is coupled to the hinge 23 so that when the discharge pump 25 does not operate, the blocking plate 23 blocks the outlet 21, and the discharge pump. When the 25 is operated, the barrier plate 22 is opened by the hydraulic pressure so that the discharge can be made.

And the spline pipe 32 is installed on the gearbox 30 to the upper portion, but the bevel gear 31 is installed inside the gearbox 30 so that the rotational force of the spline pipe 32 is perpendicular to the bevel gear 31. After the conversion to operate the discharge pump 25 in the bevel gear (31) to operate the discharge pump 25 without using a submersible motor.

The spline pipe 32 may be coupled to the spline shaft 41 rotated by the motor 40 installed on the hydrologic structure 11 to be rotated by the rotational force of the motor 40, but the spline shaft ( 41 allows the discharge pump 25 to be operated by the rotation of the motor 40 by allowing the spline pipe 32 to be interpolated.

On the other hand, the present invention can be used without installing the discharge pump (25) only by removing the dirt introduced into the water gate 10 by installing a dirt remover in front of the water gate (10).

When heavy rain does not occur in the present invention configured as described above by raising the water gate 10 in the hoisting machine 15 to open the water gate 10 so that the low water water flows into the stream naturally, the front of the water gate 10 The deduster installed in the operation may be operated or lifted to the top.

In this case, when the water gate 10 is lifted up, the spline pipe 41 installed on the water gate 10 rises while the spline shaft 32 coupled to the rotation shaft of the motor 40 installed on the water gate structure 11 is fitted inward. , Does not affect the opening of the water gate 10 at all.

On the other hand, when heavy rains occur, the water in the stream blows up and the amount of water gathered in the drainage basin can effectively prevent the flooding accident by draining the drainage basin into the stream.

That is, when heavy rain occurs, the water gate 10 is lowered to close the water gate 10, and a dirt remover is operated to completely remove the floating water when the water in the drainage flows into the water gate 10, and the water gate 10 is closed. In order to discharge the drainage water in the state, the motor 40 may be operated.

At this time, when the water gate 10 is closed, the spline pipe 32 is lowered while being fitted to the spline shaft 41, and the spline shaft 41 is fitted to the spline pipe 32 while the water gate 10 is completely closed. In this state, the rotational force of the motor 40 is transmitted to the gearbox 30 through the spline shaft 41 and the spline pipe 32.

When the rotational force of the motor 40 is transmitted to the gearbox 30 through the spline shaft 41 and the spline pipe 32, the rotational force of the spline pipe 32 is transferred to the discharge pump 25 through the bevel gear 31. Is delivered, the discharge pump 25 is operated to discharge the water of the drainage toward the river, the blocking plate 22 is opened by the water pressure discharged by the discharge pump 25 to facilitate the discharge of the water.

That is, since the water flowing into the drainage outlet is discharged through the discharge pump 25 installed in the water gate 10, the pump is installed at the pump station installed on the bank of the water pump is short compared to the conventional method of discharging the stream into the river of small capacity ( Even if 40) is used, water can be discharged sufficiently, and there is less risk of electric shock as the underwater motor is not used as before.

And since the drainage water is discharged from the water gate 10, it is not necessary to install a large drainage, it is possible to install a drainage pump station even with a small area.

The present invention is to increase the water level in the river during heavy rain to discharge the drainage water discharged only by the pump by operating the discharge pump formed in the sluice, but the motor installed in the upper part of the hydrologic structure without operating the discharge pump as an underwater motor By rotating to use, it is possible to reduce the risk of short-circuit and to easily handle the case of failure.

In particular, the present invention can be installed by a simple structure by installing a gear box for switching the direction of the discharge pump and the rotational power in the water gate, and the power is transmitted to the motor and gear box installed in the hydrologic structure through the spline pipe and the spline shaft. Because of the small size of the gearbox, the discharge port can be secured compared to the use of an underwater pump, so that a large amount of water can be discharged per unit time, and the occurrence of a short circuit accident can be prevented because an underwater motor is not used.

In addition, it is not necessary to secure a reservoir, so that a large area of land is not necessary, and it is possible to reduce the difficulty and power consumption of building a pumping station.

1 is a perspective view of the main installation state of the present invention

2 is a sectional front view of the present invention

Figure 3 is a side cross-sectional view of the present invention

Figure 4 is a cross-sectional view of the main portion of the water discharge when the discharge pump of the present invention

Figure 5 is a cross-sectional view of the main portion of the hydrologic discharge pump operation of the present invention

Figure 6 is a cross-sectional view of an embodiment of the power transmission means of the present invention

7 is a front view of the sluice open state of the present invention

[Description of Symbols for Main Parts of Drawing]

10: sluice 12: loading

15: hoist 21: outlet

22: blocking plate 25: discharge pump

30: gearbox 31: bevel gear

32: spline pipe 40: motor

41: spline shaft

Claims (2)

The water gate 10 is installed in the water gate frame 2 installed on the embankment 1, and the discharge pump 25 for discharging water in the discharge port 21 is formed by forming an outlet 21 in the water gate 10. In what we installed, Install the discharge pump 25 in the discharge port 21 for discharging water through the water gate 10, the power to operate the discharge pump 25 is to be transmitted through the gear box 30, the gear box Power 30 is transmitted to the vertical through the spline pipe 32 is installed vertically, the spline pipe 32 is to be coupled to the spline shaft 41, the spline shaft 41 is the upper portion of the sluice structure 11 Slurry drainage, characterized in that coupled to the rotating shaft of the motor 40 installed in. The drainage device of claim 1, wherein the gearbox (30) is provided with a bevel gear (31) to transfer the rotational force of the spline pipe (32) to the discharge pump (25) installed at right angles.