KR100893000B1 - Apparatus for hydraulic power generating - Google Patents

Abstract

A hydraulic power generator is provided to rotate a hydraulic turbine with flowing water power and drive a hydraulic pump with the torque of the hydraulic turbine. A hydraulic power generator comprises: a case(1) in which a flow path is formed between an inner tank(10) and an outer tank(11); a hydraulic turbine(2) rotating with the pressure of the supplied water with being installed inside the case; and a hydraulic pump(3) which operates with the rotation of the hydraulic turbine and generates with the hydraulic power. The hydraulic turbine rotates with the water supplied through a falling water supply path(15).

Description

Hydraulic power generating device {Apparatus for hydraulic power generating}

The present invention relates to a hydraulic power generating device for generating power by using a flow of water, and in particular, to drive a hydraulic pump by rotating aberrations by flowing water to generate a hydraulic power, the hydraulic device that was operated using the hydraulic power When the hydraulic pressure of the pressure reaches the set pressure is the invention belonging to the technical field that can automatically stop the operation of the hydraulic pump by blocking the flow path for supplying water to the aberration.

In general, the water gate is a door installed to prevent the flow of water or control the flow rate, and is mainly installed in a channel such as a river, a river, a reservoir, a dam, and the like.

In the past, the water gate was mostly structured to open and close manually, but recently, a water gate capable of automatically opening and closing is widely used.

In particular, the conventional hydrological gate is automatically opened by the hydraulic pressure as the flow rate increases, and the automatic hydrological gate that is closed by using the power of the motor when the flow rate decreases has gained great popularity.

However, the conventional automatic sluice as described above causes a problem in that the closing is not performed when power is not supplied to the motor.

For example, when the power is not supplied to the motor due to a lightning strike or a power failure, or a failure occurs in the motor, the closing operation of the hydraulic device (hydraulic cylinder, etc.) that operates the water gate is not performed properly. do.

Because of this, there may be a problem that a lot of damage occurs in the event of a drought or flood, so that the maintenance and maintenance, such as inspection and repair should be put into the personnel and equipment, in this case the cost and manpower required for maintenance This is happening.

On the other hand, the various hydraulic devices used in all industrial sites, including the above-mentioned hydrological gates contain an unreasonable problem that can not generate hydraulic power without using a separate electricity.

The present invention is to actively solve the above-mentioned problems, and by using the hydraulic power to drive the hydraulic pump to generate hydraulic power to be able to obtain hydraulic power on the spot immediately without using a separate power This is a subject of the invention.

The present invention drives the hydraulic pump by the aberration rotated by the flow of water, supply the hydraulic pressure generated by the hydraulic pump to the hydraulic device to use the hydraulic device for the necessary purpose, the hydraulic device reaches the set pressure If the water flows through the water supply is temporarily cut off, the hydraulic pump can be stopped so that the hydraulic pump can be driven more efficiently. Therefore, the hydraulic pump can be driven more efficiently to prevent aging due to unnecessary driving of the hydraulic pump or the aberration. It is a task.

The present invention forms a flow path inside the case as a means for actively solving the above problems, and the water supplied along the flow path to rotate the aberration, generated by driving a hydraulic pump connected to the rotation axis of the aberration Investigate the technology of supplying hydraulic power to the hydraulic system.

In addition, the present invention is to block the supply of water to the aberration when the pressure of the hydraulic device reaches a predetermined pressure to prevent the overload of the aberration or the hydraulic pump to prevent their life is shortened, and occurred in the hydraulic pump Withdraw the hydraulic power through the relief valve to devise a technology to operate the flow opening and closing means without providing a separate power source.

According to the present invention, by rotating the aberration using the flowing water of the flowing water and driving the hydraulic pump with the rotational force of the aberration, it is possible to obtain a high power hydraulic power without using a separate power, using such a hydraulic power It provides an effect that can operate various hydraulic devices.

In addition, when the pressure of the hydraulic device reaches a predetermined pressure automatically shuts off the flow of water supplied to the aberration to stop the operation of the hydraulic pump provides an effect of improving durability by protecting the aberration or hydraulic pump from overload. .

In addition, the hydraulic pump, which is easily corroded to moisture and moisture, is stored inside the oil tank in which the oil is stored, thereby protecting the hydraulic pump from damage by providing moisture and moisture.

Hereinafter, the configuration of the preferred embodiment for effectively achieving the object of the invention will be described.

The overall configuration according to a preferred embodiment of the present invention is the case 1 is formed with a flow path; An aberration 2 installed inside the case 1 and rotating by pressure of water supplied; It is configured to include a hydraulic pump (3) connected to the rotary shaft of the aberration (2) to generate hydraulic power while driving by the rotation of the aberration (2).

Hereinafter, the present invention made of the schematic configuration will be described in more detail.

The hydraulic power generating device of the present invention comprises a hydraulic aberration (2) and a hydraulic pump (3) driven by the aberration (2) to rotate by the force of the water flow.

Moreover, the case 1 is provided as a means of forming the flow path for making water act on the aberration 2 effectively in this way.

First, the case 1 is composed of an outer cylinder 10 and an inner cylinder 11.

The outer cylinder 10 serves as a means for protecting the other components constituting the hydraulic power generator of the present invention and forming a flow path between the inner cylinder and the inner cylinder (11).

As shown in FIGS. 1A to 2, the outer cylinder 10 has an inlet pipe 12 formed at one side thereof, and the lower side of the outer cylinder 10 is opened to form a drainage passage 16.

The inner cylinder 11 is installed in a state spaced apart from the inner wall of the outer cylinder 10, the flow path is formed between the outer cylinder 10, the flow path formed in this way is a portion connected to the inlet pipe 12 of the outer cylinder 10 A vertical passage 13 adjacent to the horizontal passage, a horizontal passage 14 horizontally connected to an upper portion of the vertical passage 14, and open to the other end of the horizontal passage 14 downwardly in the inner cylinder 11. It consists of a drop water supply path 15 through which water flows, and a drainage passage 16 extending from an open bottom of the inner cylinder 11 to an open portion of the lower portion of the outer cylinder 10.

The aberration 2 is rotatably installed in the inner cylinder 11 so as to rotate by water supplied through the drop water supply path 15.

In this way, the water supplied to the aberration 2 pushes the blades of the aberration more effectively so that the aberration rotates, by bending the ends of the wings constituting the aberration 2 toward the drop water supply path 15. In order to receive more water supplied through the supply path 15, the wall on the side of the drop water supply path 15 of the inner cylinder 11 is configured to be as close to the wing of the aberration 2 as possible.

Thus, by narrowing the distance between the blade of the aberration 2 and the side wall of the inner cylinder 11, it is possible to reduce the consumption of water flow between the blade and the side wall of the aberration (2).

The hydraulic pump 3 is connected to the rotating shaft of the aberration 2 comprised in this way, As shown in FIG. 2, the hydraulic pump 3 is provided in the outer side of the inner cylinder 11. As shown in FIG.

That is, the space between the outer cylinder 10 and the inner cylinder to form a hydraulic pump is installed, the hydraulic pump 3 is installed in this space, but the hydraulic power generating device of the present invention is driven by water hydraulic pump ( 3) is driven in a state of being exposed to moisture, it is preferable that the hydraulic pump 3 is not exposed to moisture because the hydraulic pump 3 can be easily damaged by corrosion or the like when exposed to moisture for a long time.

In order to prevent the hydraulic pump 3 from being exposed to water, the hydraulic pump 3 is installed inside the oil tank 30.

That is, by filling the oil tank 30 and installing the hydraulic pump 3 therein, it is possible to prevent the oil from surrounding the hydraulic pump 3 to be exposed to moisture.

The hydraulic power generator of the present invention configured as described above, as shown in Figure 3, is connected between the hydraulic device and the hydraulic tank pumps the fluid in the hydraulic tank to generate pressure to supply to the hydraulic device.

The hydraulic pump 3 driven as described above should be able to control the driving of the hydraulic pump 3 by obtaining a sufficient hydraulic pressure from the hydraulic system or by stopping the driving when the hydraulic system is stopped. By selectively controlling the driving of the aberration, it is possible to automatically control the driving of the hydraulic pump (3).

That is, the opening and closing hole (13a) is formed in the middle of the vertical passage 13, the flow path opening and closing means (4) for opening and closing the opening and closing hole (13a) is installed in the vertical passage (13) to flow the water By interrupting, the drive of the hydraulic pump 3 can be controlled.

The flow path opening and closing means 4 includes an opening and closing plate 41 for opening and closing the opening and closing hole 13a and a hydraulic cylinder 42 for driving the opening and closing plate 41.

1A, 1B and 2, the opening and closing hole 13a is formed at the upper end of the vertical flow passage 13, and the opening and closing plate 41 is hinged at one end so that it can be rotated. It is installed.

Thus, a hinge fixing plate 43 having a long hole 43a is provided as a means for hingeably fixing the opening and closing plate 41 rotatably around the hinge shaft 41a in the vertical flow passage 13.

The reason why the hole 41a formed in the hinge fixing plate 43 is inserted into the long hole 43a in the vertical direction as shown in FIG. 4 is to smoothly operate the opening and closing plate 41. .

When the opening and closing plate 41 only rotates around the hinge shaft 41a at one end, the distance between the upper surface of the opening and closing plate 41 and the bottom of the opening and closing hole 13a is not widened sufficiently. Since the opening degree of 13a) is limited and the amount of water moving toward the aberration 2 through the opening and closing hole 13a decreases, the rotational speed of the aberration 2 may be lowered. Should be maintained.

Accordingly, when the opening and closing plate 41 opens the opening and closing hole 13a, the opening and closing plate 41 is sufficiently spaced apart from the opening and closing hole 13a, and when the opening and closing hole 41a is closed, the contact opening and closing plate 41 should be in close contact and there should be no leakage of water. ) Is formed in the long hole (43a) to the vertical hole long in the hinge fixing plate 43 to be moved not only about the hinge axis but also moved up and down.

On the upper surface of the opening and closing plate 41, that is, the surface facing the opening and closing hole 13a, a packing 41b made of rubber or synthetic resin having excellent elasticity is installed to seal the opening and closing hole 13a more closely. Can be.

The hydraulic cylinder 42 for operating the opening and closing plate 41 is hinged to the opening and closing plate 41 to the end of the rod is stretched, as shown in Figure 4, receives the hydraulic pressure from the hydraulic pump (3) Stretch the rod.

In order to provide the hydraulic pressure generated by the hydraulic pump 3 to the hydraulic cylinder 42 for operating the opening and closing plate 41 as described above, a hydraulic line is required to operate the opening and closing plate 41, and thus the hydraulic pump 3 The cylinder line 32 is connected to the hydraulic line (31) for supplying the hydraulic pressure to the hydraulic cylinder (42) connected to the hydraulic device or the hydraulic tank to provide hydraulic pressure.

The cylinder line 32 detects the hydraulic pressure of the hydraulic tank or the hydraulic device and when the hydraulic pressure is higher than the set hydraulic pressure, the hydraulic cylinder is operated by opening the flow path of the cylinder line 32 so that the opening and closing plate 41 shields the opening and closing hole 13a. In order to control the hydraulic pressure of the cylinder line 32 by the detected hydraulic pressure, the relief valve 5 is installed in the cylinder line 32.

Therefore, when sufficient hydraulic pressure is provided to the hydraulic system or the hydraulic system is stopped, the relief valve 5 is opened to provide hydraulic pressure to the hydraulic cylinder 42 so that the opening and closing plate 41 seals the opening and closing hole 13a. Since the aberration is not supplied to this aberration 2, the aberration stops, and the hydraulic pump 3 also stops by this.

The hydraulic power generator of the present invention configured as described above can save energy by using water as a power source without using electricity, as well as obtain hydraulic power at low cost.

1 is a longitudinal sectional view of a hydraulic power generator according to the present invention,

  Figure 1a is a state in which the aberration is stopped because the flow path is closed

  Figure 1b is a state in which the flow path is opened to rotate the aberration

2 is a cross-sectional plan view of the hydraulic power generating apparatus according to the present invention;

3 is a configuration diagram of a hydraulic power generator according to the present invention

Figure 4 is a perspective view of the flow path opening and closing means constituting the hydraulic power generating apparatus according to the present invention

5 is an exploded perspective view of a hydraulic pump and an oil tank constituting the hydraulic power generator according to the present invention.

Figure 6 is a perspective view of the aberration constituting the hydraulic power generating apparatus according to the present invention

[Explanation of symbols on the main parts of the drawings]

1: case 2: aberration

3: hydraulic pump 4: opening and closing means

5: relief valve 10: outer cylinder

11: inner cylinder 13a: opening and closing hole

15: Dropping water supply path 16: Drainage

30: oil tank 30a: cover

32: cylinder line 41: opening and closing plate

42: hydraulic cylinder 43a: long hole

Claims (5)

The inner channel 11 is installed inside the outer cylinder 10 to connect the inlet pipe 12 connected to one side of the outer cylinder 10 with a vertical channel 13 and a horizontal channel connected to the upper end of the vertical channel 13 ( 14, a drop water supply passage 15 connected to an end of the horizontal flow passage 14 to drop water to the wings of the aberration 2, and a drain passage 16 through which water passing through the aberration 2 is discharged. A case 1 formed with; An aberration 2 installed inside the case 1 and rotating by pressure of water supplied; A hydraulic pump (3) connected to the rotary shaft of the aberration (2) to generate hydraulic pressure while being driven by the rotation of the aberration (2); An opening / closing hole (13a) is formed in the middle of the vertical passage (13), and a channel opening / closing means (4) for opening and closing the opening / closing hole (13a) is provided in the vertical passage (13); The flow path opening and closing means (4) is installed by the hinge shaft (41a) rotatably and is opened and closed by an opening and closing plate 41 for opening and closing the opening and closing hole (13a) and the hydraulic pressure supplied from the hydraulic pump (3) A hinge cylinder having a hydraulic cylinder 42 for driving the opening and closing plate 41 by a rod and a long hole 43a fixed to a side wall of the vertical flow passage 13 and into which the hinge shaft 41a is rotatably fitted. Hydraulic power generating device characterized in that it comprises a (43). The method of claim 1, In the hydraulic line 31 connected to the hydraulic pump 3 to provide hydraulic pressure to the hydraulic device or hydraulic tank, a cylinder line 32 for supplying hydraulic pressure to the hydraulic cylinder 42 is branched, and the cylinder line ( 32 is a relief valve for detecting the hydraulic pressure of the hydraulic device to open the flow path of the cylinder line 32 when the hydraulic pressure is higher than the set hydraulic pressure 42 to operate the opening and closing plate 41 to shield the opening and closing hole (13a) ( Hydraulic power generating device characterized in that the 5) is installed. delete delete delete

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